Product overview
KP5001A ion copper rod is an antistatic device developed and produced by Kapal to eliminate static electricity on the surface of objects.
KP5001A ion copper rod is a kind of static elimination device commonly used to eliminate static electricity without compressed air. It needs to be equipped with KP4002A high voltage power supply before it can be used. The length can be customized according to customer's requirements.
The KP5001A ion copper rod can generate a large amount of air flow with positive and negative charges, which can neutralize the charge on the object. When the surface of the object is negatively charged, it will attract the positive charge in the airflow. When the surface of the object is positively charged, it will attract the negative charge in the airflow, so that the static electricity on the surface of the object is neutralized and eliminated. purpose of static electricity.
KP5001A ion copper rod is widely used in sheet material processing, slitting, coil material, textile, printing and other industries.
Product features
* Neutralize static electricity quickly.
* Sturdy, easy to install, brass material.
* Applicable to various harsh working environments.
* Copper rods have good grounding protection.
Technical parameter
Operating Voltage | AC 5.6KV |
working distance | 100mm |
Operating temperature | 0℃-50℃ |
Working humidity | <70% |
Ion balance | ≤|±50V|(300mm from the test center in front of the copper rod) |
Power down time | ≤2S(300mm from the test center in front of the copper rod) |
Rod length | 300-3000MM(Customized according to customer requirements) |
Pipe diameter | Ф32mm |
Rod material | Brass / Copper |
High voltage wire length | 3M |
Test result
Test Conditions | ||
Humidity: ≤60% Test voltage: 1KV-100V Ambient temperature: 22℃ | ||
distance | 300mm | |
Neutralization time | just | 0.8s |
burden | 0.9s |
* The test results of the test instrument using ME268A electrostatic comprehensive tester shall prevail.
* Tested according to IEC-61340-5-1 A·6.
* Tested data may vary due to changes in ambient temperature and humidity.