How should the bus groove be selected
In the selection of busbar slot, copper bar related factors are very important. The first is the thickness of the copper bar, which is directly related to the conductivity and stability of the busbar trough. Thicker copper bars can reduce resistance and reduce the loss of electrical energy during transmission, thereby improving conductivity. For example, in some industrial scenarios with high current transmission requirements, an appropriate increase in copper bar thickness can ensure stable power transmission.
The size of the strip gauge is the key factor, which not only determines the current carrying capacity of the busbar trough, but also has a profound impact on the overall performance. The reasonable size of the strip gauge can accurately match the current bearing capacity according to the actual power load. If the bar gauge is too small, the copper bar is easy to heat or even burn when the load is high, which seriously affects the stability and safety of the busbar. And too large will cause material waste and cost increase
Copper bar purity can not be ignored. High purity copper bar should be preferred, high purity copper has better electrical conductivity, can effectively reduce power loss and reduce heating phenomenon. The copper bar with more impurities will increase the resistance and affect the working efficiency and life of the busbar.
besides, it is necessary to fully consider the eddy current effect and heat dissipation of the busbar groove. The eddy current effect will cause the copper bar to heat up, and the selection of appropriate strip gauge and material can reduce its influence to a certain extent. Good heat dissipation is a necessary condition to ensure the continuous and stable work of the busbar. By optimizing the structural design of th the busbar, adding heat sink or adopting reasonable ventilation and heat dissipation method, the heat generated by the copper bar can be dissipated in time to avoid various failures caused by overheating, so as to ensure that the busbar can operate efficiently and reliably under different working conditions.
Ohory electric has strong R & D resources in the busbar industry, with excellent quality and satisfactory service. The full range of OPTIMUS bus products of Meijia Technology (Zhenjiang) Co., Ltd. has obtained CQC certification, as well as Kema keur certification and UL certification with international authority. And has completed many projects in the domestic and overseas markets, we continue to carry out product research and development, the use of advanced thermodynamic applications and manufacturing methods, in order to provide high performance and high quality products to our customers, welcome and look forward to working with you!
How should the bus groove be selected
In the selection of busbar slot, copper bar related factors are very important. The first is the thickness of the copper bar, which is directly related to the conductivity and stability of the busbar trough. Thicker copper bars can reduce resistance and reduce the loss of electrical energy during transmission, thereby improving conductivity. For example, in some industrial scenarios with high current transmission requirements, an appropriate increase in copper bar thickness can ensure stable power transmission.
The size of the strip gauge is the key factor, which not only determines the current carrying capacity of the busbar trough, but also has a profound impact on the overall performance. The reasonable size of the strip gauge can accurately match the current bearing capacity according to the actual power load. If the bar gauge is too small, the copper bar is easy to heat or even burn when the load is high, which seriously affects the stability and safety of the busbar. And too large will cause material waste and cost increase
Copper bar purity can not be ignored. High purity copper bar should be preferred, high purity copper has better electrical conductivity, can effectively reduce power loss and reduce heating phenomenon. The copper bar with more impurities will increase the resistance and affect the working efficiency and life of the busbar.
besides, it is necessary to fully consider the eddy current effect and heat dissipation of the busbar groove. The eddy current effect will cause the copper bar to heat up, and the selection of appropriate strip gauge and material can reduce its influence to a certain extent. Good heat dissipation is a necessary condition to ensure the continuous and stable work of the busbar. By optimizing the structural design of th the busbar, adding heat sink or adopting reasonable ventilation and heat dissipation method, the heat generated by the copper bar can be dissipated in time to avoid various failures caused by overheating, so as to ensure that the busbar can operate efficiently and reliably under different working conditions.
Ohory electric has strong R & D resources in the busbar industry, with excellent quality and satisfactory service. The full range of OPTIMUS bus products of Meijia Technology (Zhenjiang) Co., Ltd. has obtained CQC certification, as well as Kema keur certification and UL certification with international authority. And has completed many projects in the domestic and overseas markets, we continue to carry out product research and development, the use of advanced thermodynamic applications and manufacturing methods, in order to provide high performance and high quality products to our customers, welcome and look forward to working with you!
