Payment & Shipping Terms:
|Power:||380~415VAC 50~60Hz 5kW||Servo Nos:||2 Axis( Z Axis/X Axis)|
|Insulation Test:||1~1000V||Grounding Test:||0~25A|
|High Voltage Withstanding Test:||0~5000V||Busbar Length:||1200mm~6000mm|
|Busbar Height:||100mm~650mm||Equipment Dimension:||L12000mm*W1200mm*H1900mm|
|Name:||Busway Insulation Testing|
Straight length Busway inspection machine,
2 axis Busway inspection machine,
flexible positioning Busway inspection machine
Automatic resistance inspection machine for Busway Insulation Testing
Equipment data on automatic busbar inspection line
|Busbar Type||Straight length type|
|Position Type||Unilateral / Middle|
2 min/piece(testing time is adjustable.)
|Servo Nos||2 axis( Z axis/X axis)|
Phase error judgment( optional)
Bar code printing/ Report printing( optional)
High Voltage Withstanding Test
|380~415VAC 50~60Hz 5kW|
Busbar Automatic Production Line is composed of three parts, feeding positioning station, inspection station and discharge station. When the busbar enters the feeding position, the control system will select the right testing fixture to start testing from the information identified by bar code or previous assembly line. Three tests will be performed including HV withstanding test, insulation resistance test and grounding test. After test is finished, testing report will be generated.
Automatic inspection machine is mainly used for batch inspecting on the straight busbar. Elbow busbar type shall be tested on manual inspection machine.
This report can be saved, printed on site and recorded remotely. Its format can be set according to customer’s requirements.
Busbar Trunking System is the is a system of distributing electric power using copper or aluminium busbar with suitable enclosures and good amount of protection to prevent the cables from getting damaged due to foreign bodies.
Busbars are now becoming irreplaceable simply because of the convenience and safety factor. While using traditional cables, the cost of cabling and trunking and the time taken for installation is much higher than busbars as well.
Installing busbars over conventional cabling has a range of advantages some of which are mentioned below:
Design: Busbars have a compact design through which compressed flat conductors can pass through the enclosure. Due to the compact designs, busbars require lesser space than traditional cabling systems and this is a major advantage when thousands of amperes of electricity need to be transmitted.
Heat Absorption: Since the design is compact and has a metal casing with well-defined surface, busbars can absorb heat generated while transmissions and distribution of electricity in the walls of the enclosure. The system of cooling is much better than traditional cabling system.
Flexibility: Busbars are more flexible in nature compared to cables in the sense that it can be used in any kind of structure with any configuration. They are easily modifiable and hence the addition of an extra room or building can be easily done. Busbars can also be relocated without much of a capital expenditure.
Cost Savings: Busbars can be mounted easily than a cable and incurs a lesser cost of installation than traditional cables. They can also be mounted at a lesser time than traditional cables.
Better Resistance: Busbars have rigid design elements and hence has better resistance than cables, especially in case of short circuits. Busbars have a minimum distance between the conductors which in turn reduces the induction of resistance. Busbars also have a thin and flat tire which helps in optimal distribution of density of current and in turn reduces resistance. Due to lower levels of density, voltage loss is much lower than cables for the same length.
Reduced Loss of Energy: Busbars have lower resistance than cables. Hence the loss of energy due to transmission and distribution is lower in Busbars. Busbars also have a limited growth of reactive power to operate compared to cable systems.
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