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Work supports (17)

Hydraulic elements to support workpieces
Series
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type
body design
functioning
max. load force [kN]
pneumatic position monitoring
Description

Application
Hydraulic work supports are used to provide a self-adjusting rest for workpieces and avoid their vibration and deflection under machining loads.

Application principle of work supports
Application principle of work supports

Single or double acting
To reduce the dimensions and the expenses for the control, most of the work supports are
single acting with spring return of the support plunger. Double-acting elements offer the advantage that the support plunger can be returned to the off-position within a precisely defined time.

Hydraulic symbols of works supports: Single-acting | Double-acting
Hydraulic symbols of works supports: Single-acting | Double-acting

Function with locking bush
In the body of the work support a thin-walled locking bush is integrated, which locks cylindrically around a movable support plunger when pressurising the element with hydraulic oil.

Functional principle of a work support with locking bush
Functional principle of a work support with locking bush

Function with locking piston
In the body of the work supports an additional locking piston is installed that locks a movable support plunger when pressurising the element.

 

Self-locking
After depressurising, the support plunger remains locked. For unlocking, a second hydraulic port must be pressurised. The element can only be operated in the double-acting mode.

Functional principle of a work support with locking piston
Functional principle of a work support with locking piston
Types of operation
Spring force
Off-position: Support plunger extended
The support plunger is pushed back when inserting the workpiece, the spring force has to
be overcome. The support plunger will be locked by hydraulic pressure and can compensate forces in axial direction. After unclamping, the support plunger still remains
in contact with the workpiece by spring force, until the workpiece will be unloaded from
the fixture.
Operation with spring force
Operation with spring force
Pneumatic

Off-position: Support plunger retracted
The support plunger contacts the workpiece by air pressure. The contact force is proportional to the air pressure less spring force. The support plunger will be locked by hydraulic pressure and can compensate forces in axial direction. For retraction, hydraulic and air pressure will be released. The support plunger retracts by spring force relatively slowly to its off-position.

Advantages
Unimpeded workpiece loading from all directions. The contact pressure is at the same time the positive air pressure connection.

 

Pneumatic operation
Pneumatic operation
Hydraulic and spring force

Off-position: Support plunger retracted
The support plunger is extended by a hydraulically pressurised small piston and contacts the workpiece with spring force. The support plunger will be locked by increasing hydraulic pressure and can compensate forces in axial direction. For retracting, hydraulic pressure will be released. The small piston retracts relatively slowly by spring force to its off-position and also retracts the support plunger. In the case of double-acting work supports, the support plunger is retracted by the pull force of the piston.

Advantages
Unimpeded workpiece loading from all directions.
Double acting: The support plunger is retracted reliably in a very short time.

Hydraulic and spring force operation
Hydraulic and spring force operation

Admissible load force
The admissible load is valid for static and dynamic load. Machining forces can generate vibrations, whose amplitude exceeds far an average value, and this can cause yielding of the support plunger

Recommendation: Increase the safety factor, the number of work supports or the operating
pressure.

Admissible load force
Admissible load force

Elastic deformation
Work supports have such as other steel components an elastic behaviour, i.e. they yield in
case of load. The diagram shows the elastic deformation of a work support with load.

Elastic deformation
Elastic deformation

Contact force
The workpiece must not be deformed by the contact of the support plunger.
Therefore, the contact is made with spring force or pneumatically. Depending on the size, the spring forces are between 4 and 100 N.

With hydraulically extendable work supports, the contact force is the smallest, when the distance between the contact bolt and the workpiece is the largest before getting in contact.

With pneumatic operation, the contact force can be precisely adapted by a pneumatic pressure reducing valve. The pneumatic connection serves at the same time as a connection for positive air pressure protection.

Contact force
Contact force

Position monitoring
Pneumatic position monitoring of the support plunger is only possible with self-locking work supports (B 1.930).

Pneumatic contact control
The threaded-body work supports  B 1.943 and B 1.944 can optionally be supplied with a sensor bore in the hardened contact bolt. If the contact bolt is in contact with the workpiece, the air flow is interrupted. A pneumatic flow meter with an adjustable limit switch then signals the contact of the support plungers.

Requirements:

  • The contact surface at the workpiece is square to the axis of the work support
  • The contact surface is machined
  •  The air is free of oil and water
Pneumatic contact control
Pneumatic contact control

Air bleeding
Air in the oil can considerably prolong the clamping time. Work supports require only a
minimum oil volume for their operation. Since the hydraulic oil in the connecting line is
nearly not moved, careful bleeding is required. If bleeding screws are not available, in the
case of drilled channels screw plugs should be provided at the highest and remotest point.

Attention
Bleed always at low pressure.

Metallic wiper edge and wiper
The metallic wiper protects the wiper underneath against hot swarf or high coolant pressure.

Important
For dry machining, minimum quantity lubrication and in case of accumulation of very small swarf, the work supports should be regularly cleaned and lubricated.

 

Venting of the spring area
All work supports, where the support plunger contacts the workpiece by spring force, must
be vented (exception B 1.9401, B 1.9402, B 1.9405).
Especially when using coolants, a venting port is imperative to avoid that the coolants will be sucked in into the interior of the work support. In the case of non-compliance, troubles of functioning can occur.

Metallic wiper edge and wiper
Metallic wiper edge and wiper

Positive air pressure protection
The safest protection against penetration of liquids and particles is the connection of positive air pressure protection. This is possible for all work supports with vent port.
The air pressure must not exceed 0.2 bar.

 

Maximum operating pressure
The work supports are designed for this pressure and can absorb the admissible load force.

Recommendation: To ensure safe support of the workpieces even when vibrations occur,
work supports should always be pressurised with the highest possible pressure.

Positive air pressure protection
Positive air pressure protection

Overload
If the forces indicated in the load force diagram are exceeded by more than 10%, the support plunger can yield.

Recommended minimum pressure
The minimum pressure already guarantees safe retention forces and should not be fallen below in clamping fixtures.

Admissible flow rate
The admissible flow rate for hydraulically extendable work supports can be taken from the
data sheets. If the flow rate is too high, the oil pressure increases so quickly that the support plunger will be locked before contacting the workpiece. In the case of this malfunction, the flow rate has to be throttled.

Throttle the flow rate
If the pump flow rate is higher than the sum of the connected admissible flow rates, throttling has to be effected in the supply line. Close the flow control valve until a satisfactory flow is ensured.

Problem: The support plungers extend at different speeds and are locked too early.

Causes:

  • The holes in the fixture body are very long or of different lengths
  • The bore diameter is less than 4 mm

As a result, the work supports receive different flow rates.

Remedy: Throttle the work supports individually. We supply many work supports with sharpedged orifices of the same diameter. Thus, the flow rate is evenly distributed.

Conditions: The pressure should remain approximately constant during the extension time of the support plunger.

Flow control valve
Flow control valve

Sharp-edged orifices
The hydraulically extendable threaded-body work supports are supplied as standard or optionally with sharp-edged orifices.

Advantages:

  • If several threaded-body work supports are connected to one supply line, the support plungers extend more evenly.
  • The support plungers do not extend too quickly and do not bounce back from the workpiece.
  • An additional external throttling of the flow rate is not required.
Sharp-edged orifice
Sharp-edged orifice

Contact bolts
Most of the work supports are delivered with a contact bolt in the support plunger. This contact bolt has a dome-head and hardened contact surface.

Attention
Never use the work support without contact bolt, since penetrating dirt and liquids impede the function.

 

Special contact bolts
When using special contact bolts, the following has to be considered:

  • The contact surface shall be hard and slightly dome-head so that it contacts safely the workpiece even in the case of uneven surfaces.
  • A plane contact surface can only be realised with a swivel contact bolt.
    However, you have to reckon with higher elastic compliance with load since the swivel contact bolt will yield.
  • A contact bolt with point or ribbing has the disadvantage that the points press into the workpiece with load which results in a higher elasticity. In addition, there will be a form fit so that side loads will be introduced into the support plunger, which is not admissible.
  • The threaded stem must have the same length and interior contour as the original, which can be found on the data sheet.

A drawing is available on demand.

Special contact bolts should weigh max. 0.1 kg to guarantee the function.
For larger special contact bolts, please contact us.

Contact bolt
Contact bolt

Protection cap
The protection cap is designed to protect the wiper, if a strong coolant jet is directed at the
support plunger or the metallic wiper edge. For some threaded-body work supports, protection caps are available as an accessory.

Protection cap
Protection cap

No side loads!
Work supports can only absorb forces in the direction of the support plunger axis.
If side loads are introduced into the support plunger, an exact position of the workpiece is
no longer guaranteed. Side loads arising during machining must be absorbed either by fixed workpiece supports or by horizontal stops.

Side loads
Side loads

Work supports with side load absorption
Threaded-body work supports B 1.9472 can absorb side loads up to
0.3 kN: Also, work supports with self-locking B 1.930 absorb side loads when a clamping element clamps directly onto the support plunger. The possible side load is 10 to 15 % of the clamping force.

 

Work supports with side load absorption
Work supports with side load absorption

Mounting position
The work supports function in any mounting position. The technical data are only valid for
the vertical mounting position. Due to the low spring forces, the weight of the support plunger and the contact bolt can influence the contact force and speed.


Dimension tolerances
If not otherwise indicated, the general tolerances as per DIN ISO 2768-1 mH are valid for the connecting dimension.


Materials
Support plunger: stainless special steel, hard chrome-plated
Body:                   free-cutting steel, black-oxide
Wiper:                  FKM
Inner parts:          stainless, nitrocarburized


Seals and hydraulic fluids
See data sheet A 0.100