-40%

3 Roller Low-Pulse Friction Miniature Peristaltic Pump Easy Disassembly 12vDC

$ 10.49

Availability: 20 in stock
  • Brand: Unbranded
  • Custom Bundle: No
  • Maximum Flow Rate: 200ML/MIN
  • Voltage: 12v
  • Modified Item: No
  • Refund will be given as: Money Back
  • Restocking Fee: No
  • Color: Blue
  • Condition: New
  • Maximum Pressure: 2BAR
  • Motor: DC Brushed motor
  • Return shipping will be paid by: Buyer
  • MPN: BR/293KC/ZL12-600-B
  • Metering Pump Type: Peristaltic Pump
  • Country/Region of Manufacture: China
  • All returns accepted: Returns Accepted
  • Model: BR/293KC/ZL12-600-B
  • Item must be returned within: 30 Days

    Description

    Features:
    Mini peristaltic pump, compact structure, ultra-small volume, width of only 58mm,
    maximum flow rate up to 210ml/min
    Can be installed side by side to save space, fully compatible with the similar friction peristaltic pump
    3-roller low pulse design, the tube wall 1mm, inner diameter max 4mm, no need fittings
    Precision mold forming technology,industrial design concept, tool-free disassembly of the pump cover, easy to replace the tube
    Can be equipped with rated speed DC geared motorThe pump cover is available three colors(clear, blue or purple)
    Note: Do not apply lubricant to the pump tube
    Specification
    Product model: BT-293KC/ZL
    Tube size: ID*WT 1*1, 2*1, 3*1, 4*1 (standard length73mm)
    Roller:  3 rollers
    Motor:  Brushed DC gear motor
    Voltage:  12V
    Speed: 600rpm
    Material:
    Pump body:PA66
    Pump cover: PC
    Roller: PA66
    Weight  145g
    Dimension:Pls see in the main pricture
    Flow rate sheet: (silicon tube,water tested, 12V  600rpm)
    Tubing(ID*WT mm)1*1     2*1    3*1     4.1
    Flow rate:(ml/min)       23      81      151     210
    Remarks:
    1. The flow data on the above table is measured by using clean water at the normal temperature of Laboratory. For reference only;
    2. Tubing material, tubing size tolerance, transported medium viscosity, suction/lift etc. will affect the flow.