This series of products adopts domestic first-class design and has been greatly improved and improved in terms of materials, structure and process. The high and low pressure clamps are locked with non-weft drawstring, lower beam and side tension screws to form a solid frame structure, which enhances the clamping force of the core and resistance to transportation impact.
The high-voltage coil adopts a special segmented structure, which greatly reduces the inter-layer voltage compared with similar domestic transformers, making the transformer safe and reliable operation.
The low-voltage coil is made of high-strength acetal enameled flat wire. The coil layers are brushed with glue to form a whole between the layers and turns of the wire, which greatly improves the transformer's short-circuit resistance.
The transformer high-voltage bushing adopts high creepage and anti-fouling bushing, which is more suitable for use in harsh environmental conditions such as high salt fog and high dust.
This series of products adopts domestic first-class design and has been greatly improved and improved in terms of materials, structure and process. The high and low pressure clamps are locked with non-weft drawstring, lower beam and side tension screws to form a solid frame structure, which enhances the clamping force of the core and resistance to transportation impact.
The high-voltage coil adopts a special segmented structure, which greatly reduces the inter-layer voltage compared with similar domestic transformers, making the transformer safe and reliable operation.
The low-voltage coil is made of high-strength acetal enameled flat wire. The coil layers are brushed with glue to form a whole between the layers and turns of the wire, which greatly improves the transformer's short-circuit resistance.
The transformer high-voltage bushing adopts high creepage and anti-fouling bushing, which is more suitable for use in harsh environmental conditions such as high salt fog and high dust.
