Minibooster HC6D2

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HC6D2: 9 different intensification factors

  • PIN: 20 - 207 bar (inlet pressure)
  • PH: 800 bar maximum (outlet pressure)
  • Drain connections: Max. 10 bar
  • Mounting: Inline tube

More details

Download Data Sheet Minibooster HC6D2

Minibooster HC6D2

  • HC6D2 versions: 9 different intensification factors
  • PIN: 20 - 207 bar (inlet pressure)
  • PH: 800 bar maximum (outlet pressure)
  • PRETURN: As low as possible (Return pressure to tank)
  • Intensification ratios: PH = (PIN - PReturn) i (Intensification)
    The intensification ratio is related to the inlet pressure at media 2,
    the values in the table are measured at 1 bar on media 2
  • Drain connections: Max. 10 bar
  • Mounting: Inline tube

A Model = Without Dump Valves

Description:

The HC6D2 is a dual media unit which is capable of delivering up to 41 l/min flow on the high-pressure end. Like other miniBOOSTER models, the HC6D2 raises supplied pressure to a higher outlet pressure and automatically compensates for consumption of oil to maintain the high pressure.

Adjustment of the outlet pressure is carried out by varying the supplied pressure. Relative to its flow capability, the HC6D2 is a compact unit weighing 24 kg.

General Functions:

The basic operation is illustrated in the function diagram. Media 1 is fed through the IN port flowing freely through the bistable valve BV1 driving the LP pistons. From the suction inlet IN Media 2 is drawn through the check valves 2 x KV1, and pumped through the 2 x KV2 to the high-pressure side H. In this condition maximum flow through the booster is achieved giving a fast-forward function.

The unit will automatically stall when end pressure on the high-pressure side H is reached. If a pressure drop on the high-pressure side exists due to consumption or leakage, the HP1 and HP2 units will automatically operate to maintain the end pressure.

HC6D2 Function Diagram


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PART NUMBER INTENSIFICATION FACTOR DUMP VALVE CONNECTION PRICE inc. VAT PRICE exc. VAT ADD TO MY PARTS LIST
HC6D2 - 1.0 - A - 1HH HC6D210A1HH 1.0 A 1HH £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 1.2 - A - 1HH HC6D212A1HH 1.2 A 1HH £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 1.5 - A - 1HH HC6D215A1HH 1.5 A 1HH £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 2.0 - A - 1HH HC6D220A1HH 2.0 A 1HH £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 3.0 - A - 1HH HC6D230A1HH 3.0 A 1HH £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 3.9 - A - 1HH HC6D239A1HH 3.9 A 1HH £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 5.2 - A - 1HH HC6D252A1HH 5.2 A 1HH £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 7.1 - A - 1HH HC6D271A1HH 7.1 A 1HH £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 10.1 - A - 1HH HC6D2101A1HH 10.1 A 1HH £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 1.0 - A - 1HE HC6D210A1HE 1.0 A 1HE £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 1.2 - A - 1HE HC6D212A1HE 1.2 A 1HE £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 1.5 - A - 1HE HC6D215A1HE 1.5 A 1HE £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 2.0 - A - 1HE HC6D220A1HE 2.0 A 1HE £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 3.0 - A - 1HE HC6D230A1HE 3.0 A 1HE £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 3.9 - A - 1HE HC6D239A1HE 3.9 A 1HE £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 5.2 - A - 1HE HC6D252A1HE 5.2 A 1HE £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 7.1 - A - 1HE HC6D271A1HE 7.1 A 1HE £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 10.1 - A - 1HE HC6D2101A1HE 10.1 A 1HE £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 1.0 - A - 1HP HC6D210A1HP 1.0 A 1HP £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 1.2 - A - 1HP HC6D212A1HP 1.2 A 1HP £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 1.5 - A - 1HP HC6D215A1HP 1.5 A 1HP £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 2.0 - A - 1HP HC6D220A1HP 2.0 A 1HP £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 3.0 - A - 1HP HC6D230A1HP 3.0 A 1HP £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 3.9 - A - 1HP HC6D239A1HP 3.9 A 1HP £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 5.2 - A - 1HP HC6D252A1HP 5.2 A 1HP £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 7.1 - A - 1HP HC6D271A1HP 7.1 A 1HP £ 3,012.06 £ 2,510.05 ADD
HC6D2 - 10.1 - A - 1HP HC6D2101A1HP 10.1 A 1HP £ 3,012.06 £ 2,510.05 ADD

HC6D2 Function Diagram

Ordering a Minibooster HC6D2

Ordering example of an HC6D2 with i = 3.9,
with BSPP connections: HC6D2 - 3.9 - A - 1HH

Model

Intensification, i

Dump valve

Connections

HC6D2


 your selection...


 your selection...


 your selection...

see flow rate table

A = (no) / A model

1

Flow rates

Intensification factor
i

Max. outlet flow
l/min

Max. inlet flow
l/min

1.0

41.0

70.0

1.2

38.2

70.0

1.5

34.0

70.0

2.0

29.7

70.0

3.0

22.5

70.0

3.9

17.5

70.0

5.2

14.5

70.0

7.1

8.5

70.0

10.1

6.0

70.0

Connection types

Connection

IN / R

H1, S1, H2 & S2

D1 &D2

1

1/2" BSPP

1/2" BSPP

1/8" BSPP

 

Max. tightening torque BSPP

IN / R

H

1/2" BSPP

1/2" BSPP

  with steel washer

13.0 da Nm

13.0 da Nm

  with aluminium washer

7.0 da Nm

  with cutting edge

13.0 da Nm

13.0 da Nm

Minibooster A Model

Without Dump Valve

High pressure is relieved externally. This is achieved in most cases by the use of a pilot operated check valve.
This is a good solution when there is high return flow from a large bore hydraulic cylinder.

General Minibooster Specifications

  • High flow - low pressure
  • Low flow - high pressure

flow pressure curve diagram

As shown in the chart Minibooster has a dual flow/pressure feature. Initially when fluid is supplied to the booster it flows straight through to the high pressure side. At this point all the supplied flow (up to the max. allowed inlet flow) goes to the actuator allowing it to operate fast in the desired direction. As soon as inlet pressure is reached in the actuator, the flow will then be supplied via the high pressure piston until intensified pressure is reached.

Temperature range oil: -40 °C to +120 °C

Temperature range water: +3 °C to +50 °C

Temperature limits:

  • +30 °C to +60 °C = Best performance - long life-time
  • Outside above range = Reduced performance and/or life-time

Maximum inlet flow: See performance data for each model

Inlet pressure: Min. 20 bar (290 psi), max. 200 bar (2900 psi)

Note: Outlet pressure must never exceed 800 bar (11600 psi ), except for the HC7, HC8 + HC9

Filtration: 10 micron nominal; max. 19/16 according to ISO 4406

 

0 to 140 bar
0 to 2000 psi

141 to 200 bar
2000 to 3000 psi

> 200 bar 
> 3000 psi 

ISO target
levels

Micron
ratings 

ISO target
levels

Micron
ratings 

ISO target
levels

Micron
ratings

Media

Oil

> 5 cSt

19/17/14

10

18/16/13

5

17/15/12

3

Water

< 5 cSt

18/16/13

5

17/15/12

3

16/14/11

3

Water Glycol

< 5 cSt

18/16/13

5

17/15/12

3

16/14/11

3

Connections: See data for each model.


Advantages summarised:

  • Gives high pressure whenever needed
  • Expensive high-pressure pumps not required
  • Expense saved on tubing
  • Increase expensive high pressure by simply increasing inexpensive low pressure
  • Low pressure is changed into high pressure with hardly any use of energy or heat generation
  • Leakages on the high-pressure side compensated dynamically
  • System works with labyrinthine tubing, which gives a longer life
  • No rotating parts
  • Light weight
  • Small size – high performance

Typical clamping circuit

0-103 Model - Example with single-acting cylinder

Typical clamping circuit

The HC2 is used to boost the pressure in an existing hydraulic circuit, e.g. in a machining centre to ensure a sufficient clamping force. As the HC2 can be directly fitted into the workholding system, high-pressure connections can be avoided.

Applications with larger flowrates

0-104 Model - Example with external pilot-operated check valve

Applications with larger flowrates

In applications where the pump supplies a flow exceeding the maximum permissible supplied flow to the HC2, the HC2 is installed in parallel with a pilot-operated check valve. This check valve is dimensioned to allow for all the flow supplied from the pump. The inlet flow to the HC2 is limited to the maximum permissible flow for the particular intensification ratio.

As the cylinder moves forward, all the flow from the pump is used. When the pump pressure is established in the cylinder the check valve closes, and the end pressure builds up through the HC2. The cylinder is retracted by changing the position of the directional valve, whereby the pump is connected to the other side of the cylinder and the DV opens, allowing the fluid to return to the tank.

Fluids:

  • Recognised hydraulic and transmission fluids compatible with Buna-N seals
  • Viscosity 1 to 500 cSt (mm2/s)
  • Water glycol mix (minimum 5% Glycol)
  • Other media on request
  • For other fluids, contact technical sales

Viscosity limits:

  • 20-40 cSt (mm2/s) = Best performance - long life-time
  • 16-19 and 40-100 cSt (mm2/s) = Good performance - good life-time
  • 12-15 and 101-300 cSt (mm2/s) = Reduced performance and life-time
  • 1-11 and 301-500 cSt (mm2/s) = Short performance and life-time

Materials:

  • Oil boosters: Body: cast iron, internal components: steel, external surface: zinc chromate finish
  • Stainless boosters: Body and internal components: stainless steel 316 W.1.4404
  • Static seals: nitrile - other material on request, e.g. Viton, EPDM
  • Dynamic seals: see table below

Dynamic seals for dual media boosters:

Material code

Description

HH

H-PUR (Polyurethan) material for both media 1 and media 2.

Standard seals for up to 800 bar. These seals are applicable for most medias, e.g. mineral oil and seawater

HE

H-PUR (Polyurethan) material for media 1 and EPDM material for media 2.

Seals for e.g media 1 mineral oil and media 2 Skydrol (EPDM swells up if exposed to mineral oil)

HP

H-PUR (Polyurethan) material for media 1 and PEEK material for media 2.

Seals for applications with pressure higher than 800 bar and/or extremely aggressive media 2

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