Products
UL486A-B Conductors Damage Degree Test Machine For Checking Damage Degree Of Wire 2 Stations
Products Description
UL486A-B Conductors Damage Degree Test Machine For Checking Damage Degree Of Wire 2 Stations
Product Introductions:
This conductors damage degree testing machine is also called the test apparatus for checking damage degree of wire which confirms to standards UL486A-486B and UL498 SD5.3 test method B, etc. This test machine is used for judging whether the design and the structure of the clamping screw terminal is correspondent with the requirement of non over-damage to the wire. Besides, it is also used to check whether the clamping screw terminal can bear the stress during the process of normal usage.
The testing times can be preset before the test, and the testing machine stops automatically with the alarm when the testing times are reached.
Principle:
Used to examine whether screw-type terminals and screwless terminals can withstand the mechanical stress that occurs during normal use. It is mainly used to determine whether the design and structure of the screw clamping terminals meet the requirements of not excessively damaging the wires when they clamp the wires.
Technical Parameters:
The tensile force of the conductor test is as follows:
If the diameter of the sleeve hole is not large enough, the wires must be bundled to be inserted into the sleeve hole. Users can use a larger size sleeve instead.
Distance (H) deviation ±15mm
Power supply
AC 220V±10V, 60Hz
Standards
UL498, UL486A-B, IEC 60884-1, etc.
Stations
Two stations, synchronization
Test speed
10±2 r/min, 9±1 r/min
Weights
0.3, 0.4, 0.7, 0.9, 1.4, 2kg
Gyration Diameter
75mm/76mm
Test height
25-600mm, can be adjustable
Test times
0-999999, can be preset
Bushing holes
Diameter: 6.5mm, 9.5mm,13mm,14.5mm
Nominal cross section of conductor mm²
Casing hole diameter mm
Distance (H) mm
Weight corresponding to the conductor (Kg)
0.5
6.5
260
0.3
0.75
6.5
260
0.4
1.0
6.5
260
0.4
1.5
6.5
260
0.4
2.5
9.5
280
0.7
4.0
9.5
280
0.9
6.0
9.5
280
1.4
10.0
9.5
280
2.0
