Brand Name: | Sinuo |
Model Number: | SN1012 |
MOQ: | 1 |
Price: | Customized |
Payment Terms: | T/T |
Supply Ability: | 10 Sets / Month |
IEC 62196 Fig12 EV Connector Clamping Screw Terminal Testing Equipment
Complied Standards & Clauses
This testing machine conforms to IEC 62196-1:2020 clause 13.3.1 fig12, table 3, etc.
Technical Parameters
Parameter Name | Parameter Data |
Power Supply | According to customer requirements |
Test Station | Single |
Test Rate | (10 ± 2) r/min |
Diameter of Gyration | 75mm |
Test Times | 1-999999times |
Load Weight | 0.4-70.3Kg |
Test Height | 260-660mm adjustable |
Diameter of Bushing | 6.5mm, 9.5mm, 13mm, 14.5mm, 15.9mm, 19.1mm, 22.2mm, 25.4mm, 28.6mm, 31.8mm, 38.1mm, 44.5mm |
Equipment Dimensions & Weight | L 600mm* W 600mm * H1680mm, approx. 350KG |
Equipment Overview
It is used to mechanically test the terminal to determine whether the design and structure of the new terminal is compatible with the new conductor, and whether the minimum and maximum cross-sectional areas are good. In addition, it is used to check whether the clamping screw terminals can withstand stress during normal use.
The number of tests can be preset before the test. When the preset number of tests is reached, the testing machine automatically stops and an alarm is issued. It is used to perform mechanical tests on terminals to determine whether the design and structure of the new terminals are compatible with the new conductors, and whether the minimum and maximum cross-sectional areas are good. In addition, it is used to check whether the clamping screw terminals can withstand stress during normal use.
The number of tests can be preset before the test. When the preset number of tests is reached, the testing machine automatically stops and an alarm is issued.
Q: What is the diameter of bushing hole for this device?
A: It is 6.5mm, 9.5mm, 13mm, 14.5mm, 15.9mm, 19.1mm, 22.2mm, 25.4mm, 28.6mm, 31.8mm, 38.1mm, 44.5mm (details refer to following table 3).
Q: What is the Rate of Testing for this device?
A: It is (10±2) r/min.
Details: