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CLAMPING TECHNOLOGY - MOUNTING PLATES
CLAMPING TECHNOLOGY - MOUNTING PLATES

Cast iron mounting plates

Cast iron mounting plates represent the ideal base for test rig structures. They offer universal clamping facilities and the highest degree of precision with respect to surface precision and fitting precision of the T-slots. The surface hardness ranges between 180 and 200 HB.

The clamping plates are laid out, calculated and manufactured according to individual customer requirements. For the majority of applications the cast iron plates feature a ribbed substructure. This provides the mounting plates with optimum stiffness and excellent damping characteristics.

T-slots

According to DIN 650, mounting plates can feature T-slots. The standard measures are:

  • 14 mm for M12 T-slotted nut
  • 18 mm for M16 T-slotted nut
  • 22 mm for M20 T-slotted nut
  • 28 mm for M24 T-slotted nut
  • 36 mm for M30 T-slotted nut
  • 42 mm for M36 T-slotted nut

The slot distances on most standard plates measure 150 mm / 200 mm / 250 mm or 300 mm. The T-slots can be cut in longitudinal and lateral direction of the mounting plate.

Rigging options for clamping plates

The following rigging options in test rig setups are available for clamping plates

  • mounting on a concrete foundation using CFM anchor constructions for high and extremely high dynamic loads
  • mounting on a concrete foundation using CFM cast anchors and corrugated metal box for static applications using low forces
  • direct mounting on vibration isolating elements based on air springs, steel spring isolators or elastomer springs.

Base plates / Mounting plates

Base or mounting plates are employed when the test rig is fixed in one location and no adjustment features are required. We manufacture mounting plates in form of passive plates in cast iron or steel. These base or mounting plates are usually anchored dynamically and durably to the foundation using a CFM anchoring construction.

These base or mounting plates are usually anchored dynamically and durably to the foundation using a CFM anchoring construction.


VIBRATION ISOLATION SYSTEMS
STEEL SPRING ISOLATORS
AIR SPRINGS
ELASTOMERE / RUBBER
LEVEL CONTROL UNITS
DAMPER
VIBRATION ABSORBING FOUNDATION
VIBRATION ISOLATION TABLES
TEST RIG COMPONENTS
WIND TURBINE TESTING
ROTOR BLADE TESTING
MOCOKIT
MOUNTING PLATES
CLAMPING RAILS
ANGLE PLATES
MOUNTING TABLE
FIXING RAILS
SPRING CLAMPS
POSITIONING SYSTEMS
DYNO BASES
3D POSITIONING SYSTEMS
LOAD FRAMES
PIT COVERS
PLATFORMS
SWIFEL FRAME
TILTING TEST BENCH TB7
GEAR TILTING TEST RIG
FUEL-FILLING TEST RIG
ENGINE TILTING TEST RIG
MULTI-AXIAL SHAKER TRABLE
AXIAL SHAKER TABLE
FOUNDATIONS
HEAVY DUTY FOUNDATIONS
PRECAST CONCRETE FOUNDATIONS
AXLE FIXTURE SYSTEMS
HALF AXLE SUSPENSION TEST RIG
ROOF & DOOR INTRUSION SYSTEM
SIDE INTRUSION SYSTEM
BELT ANCHOR
TEST RIGS
ENGINEERING
CONCEPTION PROGRESS
PROJECT PLANNING
DESIGN / CONSTRUCTION
CALCULATIONS / SIMULATION
ELECTRICAL ENGINEERING
LAYOUT VIBRATION ISOLATION
MANUFACTURING
WELDING
CUTTING / TURNING / MILLING
SURFACE TREATMENT
QA QUALITY ASSURANCE
INSTALLATION
BASE PLATES INSTALLATION
ELECTRICAL MANUFACTURING
TEST LABORATORY
TESTING
TEST ENGINEERING