A belt conveyor-type weighing unit is a type of industrial equipment used to measure the weight of products or materials as they are transported along a conveyor belt. This type of weighing unit is often used in applications where large quantities of materials or products need to be weighed quickly and accurately, such as in the food, pharmaceutical, or logistics industries. The working principle of a belt conveyor-type weighing unit is based on the principle of strain gauge technology. Strain gauges are sensors that can detect small changes in the deformation of an object, such as a conveyor belt, as a result of the weight of the products or materials placed on it. The deformation is converted into an electrical signal, which is then used to calculate the weight of the products or materials. The major components of a belt conveyor-type weighing unit include: 1. Conveyor belt: The conveyor belt is used to transport the products or materials through the weighing unit. 2. Weighing sensors: Weighing sensors, such as strain gauges, are used to measure the weight of the products or materials on the conveyor belt. 3. Load cells: Load cells are used to convert the weight measurement into an electrical signal that can be used to calculate the weight of the products or materials. 4. Control system: A control system, such as a programmable logic controller (PLC), is used to manage the weighing process and provide output data. 5. Display: A display is used to show the weight measurement and other relevant information to the operator. The working principle of a belt conveyor-type weighing unit is based on the principle of strain gauge technology. The strain gauge technology relies on the fact that an object's resistance to deformation changes when weight is applied to it. The conveyor belt carries the products or materials through the weighing unit. As the products or materials move along the conveyor belt, they cause deformation in the belt. This deformation is detected by the weighing sensors, such as strain gauges, that are in the belt or the supporting structure. The strain gauges convert the deformation into an electrical signal, which is proportional to the weight of the products or materials on the conveyor belt. The load cells are used to measure this electrical signal and convert it into a weight measurement. The load cells are typically located under the conveyor belt or in the supporting structure and are designed to support the weight of the conveyor belt and the products or materials. The control system, such as a programmable logic controller (PLC), is used to manage the weighing process and provide output data. The PLC receives the weight measurement from the load cells and uses this information to calculate the total weight of the products or materials. The control system can also be used to set up weighing parameters, such as the desired accuracy and weighing speed. The display is used to show the weight measurement and other relevant information to the operator. The operator can use this information to monitor the weighing process and make any necessary adjustments to ensure the accuracy of the weight measurement. In summary, the working principle of a belt conveyor-type weighing unit is based on the strain gauge technology, where deformation caused by the weight of the products or materials on the conveyor belt is measured and converted into an electrical signal, which is used to calculate the weight of the products or materials. The major components in a belt conveyor-type weighing unit include: 1. Conveyor Belt: The conveyor belt is the primary component of the weighing unit that carries the products or materials through the unit. 2. Load Cells: Load cells are sensors that are used to measure the weight of the products or materials on the conveyor belt. They are typically located under the conveyor belt or in the supporting structure. 3. Weighing Sensors: Weighing sensors, such as strain gauges, are used to detect the deformation in the conveyor belt caused by the weight of the products or materials. They are typically located in the belt or in the supporting structure. 4. Control System: The control system manages the weighing process and provides output data. It typically includes a programmable logic controller (PLC) that receives the weight measurement from the load cells and uses this information to calculate the total weight of the products or materials. 5. Display: The display is used to show the weight measurement and other relevant information to the operator. It typically includes a digital display or a computer monitor. 6. Supporting Structure: The supporting structure provides a stable base for the conveyor belt and the load cells. 7. Drive System: The drive system is responsible for moving the conveyor belt and can include motors, gearboxes, and pulleys. In summary, the major components in a belt conveyor-type weighing unit include the conveyor belt, load cells, weighing sensors, control system, display, supporting structure, and drive system. unitsThe key manufacturers for Beld / conveyor-type weighing unit are as follows: 1. Siemens 2. Avery Weigh-Tronix 3. Mettler Toledo 4. Rice Lake Weighing Systems 5. Schenck Process 6. Tecweigh 7. Scaime 8. Cardinal Scale Manufacturing Company 9. Bizerba 10. Minebea Intec