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Leimeng
The principle of a metal separator is mainly based on electromagnetic induction or resistance effects. The following is an introduction to the principles of two common metal separators:
1. Principle of electromagnetic induction: A metal separator generates a powerful alternating electromagnetic field. When a metal object enters this electromagnetic field, it will cause an electromagnetic induction effect. After metal objects absorb electromagnetic energy, they will generate their own electromagnetic field, which will change the electromagnetic field of the metal separator and be detected. By detecting the electromagnetic field changes caused by metal objects, the metal separator can determine the presence and position of the metal.
2. Principle of resistance effect: Metal separators separate by utilizing the difference in resistance between metals and non-metals. Metal objects have lower resistance, while non-metallic objects have higher resistance. The metal separator can detect the presence of metal objects by applying current and measuring resistance. When a metal object enters the metal separator, the flow path of the current will change, thereby changing the resistance value. By detecting the change in resistance, metal separation can be achieved.
These principles can vary depending on the specific type and design of the metal separator, but the basic principles are based on electromagnetic induction or resistance effects for metal detection and separation.
Specification parameters:
Model | Dimension (Фmm) | Sensitivity | air compression | Max.through put(L/h) | Material temperature | Defectives eliminated time | Installation height (mm) | |
FeΦ | SUSΦ | |||||||
PEC2005-35 | 35 | 0.3mm | 0.5mm | 3~5Bar | 400 | < 80℃ | 0.3~5s | |
PEC2005-50 | 50 | 0.5mm | 1.0mm | 3~5Bar | 2000 | < 80℃ | 0.3~5s | |
PEC2005-70 | 70 | 0.7mm | 1.2mm | 3~5Bar | 5000 | < 80℃ | 0.3~5s | |
PEC2005- 100 | 100 | 1.0mm | 1.5mm | 3~5Bar | 12000 | < 80℃ | 0.3~5s | 473 |
PEC2005- 120 | 120 | 1.2mm | 2.0mm | 3~5Bar | 16000 | < 80℃ | 0.3~5s | |
PEC2005- 150 | 150 | 1.5mm | 2.5mm | 3~5Bar | 25000 | < 80℃ | 0.3~5s | 600 |
PEC2005-200 | 200 | 2.0mm | 3.0mm | 3~5Bar | 44000 | < 80℃ | 0.3~5s | 922 |
PEC2005-250 | 250 | 2.5mm | 3.5mm | 3~5Bar | 69000 | < 80℃ | 0.3~5s | 948 |
Notes:
1.The sensitivity in the table is the test block falling freely through the detection of the pipeline,the actual detection sensitivity may be different according the characteristics of the product or the working environment,it should be based on the actual detection sensitivity;2. The above list is only part of the common technical parameters,for more technical parameters, please contact our customer service staff.3. The company's products will continue to upgrade,if the above technical parameters are changed without notice, please refer to the latest parameters.
The principle of a metal separator is mainly based on electromagnetic induction or resistance effects. The following is an introduction to the principles of two common metal separators:
1. Principle of electromagnetic induction: A metal separator generates a powerful alternating electromagnetic field. When a metal object enters this electromagnetic field, it will cause an electromagnetic induction effect. After metal objects absorb electromagnetic energy, they will generate their own electromagnetic field, which will change the electromagnetic field of the metal separator and be detected. By detecting the electromagnetic field changes caused by metal objects, the metal separator can determine the presence and position of the metal.
2. Principle of resistance effect: Metal separators separate by utilizing the difference in resistance between metals and non-metals. Metal objects have lower resistance, while non-metallic objects have higher resistance. The metal separator can detect the presence of metal objects by applying current and measuring resistance. When a metal object enters the metal separator, the flow path of the current will change, thereby changing the resistance value. By detecting the change in resistance, metal separation can be achieved.
These principles can vary depending on the specific type and design of the metal separator, but the basic principles are based on electromagnetic induction or resistance effects for metal detection and separation.
Specification parameters:
Model | Dimension (Фmm) | Sensitivity | air compression | Max.through put(L/h) | Material temperature | Defectives eliminated time | Installation height (mm) | |
FeΦ | SUSΦ | |||||||
PEC2005-35 | 35 | 0.3mm | 0.5mm | 3~5Bar | 400 | < 80℃ | 0.3~5s | |
PEC2005-50 | 50 | 0.5mm | 1.0mm | 3~5Bar | 2000 | < 80℃ | 0.3~5s | |
PEC2005-70 | 70 | 0.7mm | 1.2mm | 3~5Bar | 5000 | < 80℃ | 0.3~5s | |
PEC2005- 100 | 100 | 1.0mm | 1.5mm | 3~5Bar | 12000 | < 80℃ | 0.3~5s | 473 |
PEC2005- 120 | 120 | 1.2mm | 2.0mm | 3~5Bar | 16000 | < 80℃ | 0.3~5s | |
PEC2005- 150 | 150 | 1.5mm | 2.5mm | 3~5Bar | 25000 | < 80℃ | 0.3~5s | 600 |
PEC2005-200 | 200 | 2.0mm | 3.0mm | 3~5Bar | 44000 | < 80℃ | 0.3~5s | 922 |
PEC2005-250 | 250 | 2.5mm | 3.5mm | 3~5Bar | 69000 | < 80℃ | 0.3~5s | 948 |
Notes:
1.The sensitivity in the table is the test block falling freely through the detection of the pipeline,the actual detection sensitivity may be different according the characteristics of the product or the working environment,it should be based on the actual detection sensitivity;2. The above list is only part of the common technical parameters,for more technical parameters, please contact our customer service staff.3. The company's products will continue to upgrade,if the above technical parameters are changed without notice, please refer to the latest parameters.
