KCP100D-V-01A / KCP100D-V-04A
KCP150D-V-01A / KCP150D-V-04A
KCP250E-V-01 / KCP250E-V-04
KCP150D-VH-01A / KCP150D-VH-04A
KCP250E-VH-01 / KCP250E-VH-04

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KCP100-V-01A / KCP250E-VH
Degree of Vacuum
0 to 94 kPa or higher
Motor Output
2.2 to 5.5 kW
Flow Rate
0 to 308 m3/h
  • The first claw-rotor that doesn't require blade replacement.
  • All KCP Series models in the 100 to 250 range support "continuous attainable operation".
  • Introducing New Models with an Extended 30,000-hour Overhaul Cycle. (KCP250E-V/VH)
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Features

Introducing the KCP-E Series with World-First and Industry-First Advanced Technology Built-in.

Our newly developed vaneless, no-contact rotor gives vacuum power using less energy. And of course it's oil-free! Plus, no-contact means even lower noise. Large reduction of harsh low frequency noise (especially 300 Hz and below.)

Using digital analysis technology, we have achieved the optimum curve of our newly developed, high efficiency (non-contact) rotor.

Vacuum pumps create a vacuum by sweeping moving) air out from a particular space. Thanks to our non-contact cylinder construction, the newly developed high efficiency rotor achieves low energy losses. And because the pump is oil-free, it provides economical clean air. In addition, an improved level of maintenance can also be realized.

With ORION's original temperature reduction technology, we are the first to achievecontinuous attainable operation of a 5.5 kW class motor.

A cutting-edge, innovative vacuum pump with three original built-in technologies.

The heat-load problem which was an obstacle to continuous attainable operation was solved by ORION's original temperature reduction technology. And we succeeded in achieving the world's first continuous attainable operation with a single-stage claw vacuum pump of the same class.

Forced Local CoolingTemperature is significantly reduced by forcibly blowing air near the pump exhaust port, which is the area that generates the greatest amount of heat.
Heat-Transfer Reduction ConstructionPropagation of heat from the pump cylinder to the gearbox is reduced.
Secondary Air IntakeNegative pressure inside the cylinder is used to introduce outside air and cool the pump without increasing power consumption

Our high efficiency twin rotor gives a high flow rate using less power.

An Evolved High-Efficiency RotorBy reviewing the rotor structure of our older KCP250D model, we were able to optimize the contour curves and increase the diameter in the new KCP250E, yielding an efficiency boost of 6%.
"No-Contact" for Lower Noise. Runs QuieterNo contact between the cylinder and rotor means reduced and less harsh sounding noise levels. In particular, there is a large reduction of harsh low frequency noise (especially around 300 Hz and below.)

Lower internal loading for a longer product lifespan.

Greatly Extended Overhaul CycleThe only consumable part is the sliding seals, so the useful product life time is long.
Oil-FreeDry slide using PTFE seals. Thanks to our optimized design of sealed parts, our oil-free vacuum pumps and blowers have eliminated oi permeation into the pump room.

Accessory (Sold Separately)

Vacuum Contoller

Type A, Type D Compound Gauge

Specifications


  1. This is the designed flow rate based on the cylinder volume of the pump. Confirm the actual flow rate based on the pressure-flow diagram.

  2. Under ambient pressure of 1 atm. When operating at high elevations, there will be a difference in operating pressure from operation at a location under 1 atm of pressure. The calculation to measure the ultimate vacuum while operating at other elevations is as follows: Ultimate Vacuum Under Pressure (simplified) [kPa] = Specified Ultimate Degree of Vacuum [kPa] - Altitude [m] * 0.0115 [kPa/m ]

  3. Noted operating noise level is when using an ORION motor. Operating noise measured at on operating vacuum of 80 kPa, and is not a guaranteed value.

  4. The power supply voltage must not have intermittent fluctuations greater than 10%, or 5% if fluctuations are continued.

  5. If the pump is started where the ambient temperature is around 0℃, a high frequency noise may be heard. The noise will naturally go away in a short time and does not indicate abno noise continues for more than 30 minutes, consult with your dealer or a qualified repair person.

  6. Please consult with ORION if the product is to be operated at an elevation above 1000 m.


  1. This is the designed flow rate based on the cylinder volume of the pump. Confirm the actual flow rate based on the pressure-flow diagram.

  2. Under ambient pressure of 1 atm. When operating at high elevations, there will be a difference in operating pressure from operation at a location under 1 atm of pressure. The calculation to measure the ultimate vacuum while operating at other elevations is as follows: Ultimate Vacuum Under Pressure (simplified) [kPa] = Specified Ultimate Degree of Vacuum [kPa] - Altitude [m] * 0.0115 [kPa/m ]

  3. Noted operating noise level is when using an ORION motor. Operating noise measured at on operating vacuum of 80 kPa, and is not a guaranteed value.

  4. The power supply voltage must not have intermittent fluctuations greater than 10%, or 5% if fluctuations are continued.

  5. If the pump is started where the ambient temperature is around 0℃, a high frequency noise may be heard. The noise will naturally go away in a short time and does not indicate abno noise continues for more than 30 minutes, consult with your dealer or a qualified repair person.

  6. Please consult with ORION if the product is to be operated at an elevation above 1000 m.

External Dimensions (Units: mm)

Power Graph

Do not operate at the conditions indicated by the dashed pressure and flow rate lines.
Operating condition: 20 °C
Typical value for standard built-in motor and not a guaranteed value.

Documentation is available for download.

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