Think of your servo cabinet as a brand new free-sliding self-driving car. Fivetech Slide Rollers Installed on the side of the server chassis, you can transform each servo cabinet into a speedy self-driving car to reach its upmost Eco energy saving system.

When the weight of each layer of the servo chassis is more than 40kg, the power and time required for pulling often caused a lot of energy in the data center equipment room.  If you can efficiently install Fivetech slide rollers as key components on the side of the servo chassis, it is like a brand new self-driving car allows the servo chassis to slide freely on its side rails, and the servo cabinet can achieve the upmost efficiency of its energy saving system.


Slide Roller Product Special Features: 

l   Heavy load capacity.

l   Select the number of slide rollers to use according to the elasticity of the load demand.

l   Press-in installation method to punch-in the roller into sheet metal; fast installation saves space and cost.

l   Can do low-profile or micro size design

l   Smooth rolling action.

l   Customized development.

l   Fast pull-and-roll design for high speed rolling high efficiency.

Fivetech Slide Roller replaces general rail track to roller track, transform servo chassis design by adding slide rollers on the side.  Roller design can reduce pulling force. Stainless steel material roller can easily installed by punching roller into the sheet metal, press in assembly method, Installed rollers number can be adjusted or calculated depending on the actual chassis weight.

Industry in advance, Fivetech develops adventure parts like slide roller to enhance servo product performance, determine to bring the bond between your servo machines with our mechanical parts to upmost its acceleration efficacy.






想像把你的伺服机箱当成一台全新自由滑动的自驾车, 只要在机箱侧面加装侧向轮, 即可让每座伺服机柜达到最有效率

当每层伺服机箱重量高达约40kg 以上, 抽拉时所需耗费的力量及时间常造成资料中心机房的能源大量浪费. 如果能有效率地在伺服机箱侧面加装侧向轮关键零件, 就如同一台全新自驾车让伺服机箱能轻松在侧面轨道上自由前后滑行, 伺服机柜即可作到最有效率能源节约系统



  1. 乘载荷重能力强.
  2. 依乘载需求弹性选择轮子使用数量.
  3. 单向Press-in卯接快速;节省空间;节省成本.
  4. 可做low-profile或是Micro设计规划.
  5. 流畅的轮动运动.
  6. 可客制化开发.
  7. 高轮动效率的快速抽拉滚动设计.






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