Screw Spindle-Counter OMG with ZED

Có: 0 sản phẩm trong giỏ

Screw Spindle-Counter OMG with ZED
  • Mã SP: BDNKB-OMG-ZED
  • Giá NY: Liên hệ
  • Giá bán: Liên hệ
  • Tình trạng:
  • Khuyến mãi:
  • Lượt xem: 2141
  • Measuring range: 0,1-10 L/min ...50-5000 L/min liquid
    Connection: G ½...G 6 female, flange DN 15..DN 100,
    Material: continuous cast, st. st.
    Max. pressure: 400 bar
    Max. temperature: 200 °C
    Accuracy: ± 0,3% of m. value
    Viscosity range: 1-5000 m²/s
    Analogue output, counter,
    contacts, digital indicator
  • Tags: Bàn Map
Đơn vị tiền tệ
  • Số lượng:
  • Thành tiền

Measuring range: 0,1-10 L/min ...50-5000 L/min liquid

Connection: G ½...G 6 female, flange DN 15..DN 100,

Material: continuous cast, st. st.

Max. pressure: 400 bar

Max. temperature: 200 °C

Accuracy: ± 0,3% of m. value

Viscosity range: 1-5000 m²/s

Analogue output, counter,

contacts, digital indicator

The KOBOLD screw-type volumetric flow meter based on the principle of positive displacement was developed in response to the need to measure and control viscous media. It was specially designed to measure viscous media with non-abrasive properties. Variations in viscosity in the range 1 to 5000 mm2/s have no effect on measurement results within the measuring accuracy. The KOBOLD screw-type volumetric flow meter satisfies the stringent demands for greater accuracy, reliability and economic efficiency. Two spindles with cycloidal profiles form the basis of the screw-type volumetric flow meter. Spindles manufactured with extreme precision are supported at each end with a ball bearing. The axially forced measuring medium causes the spindles to rotate uniformly. The rotary motion is picked off with inductive proximity switches and converted to a frequency signal. An exact measurement of the delivered flow volume is obtained with the volumetrically defined measuring chambers. Combined with downstream evaluation electronics, the KOBOLD screw-type volumetric flow meter becomes a flexible measurement and control system for viscous media.