Introduction:

HCP Hydraulic Climbing Platform System is used for lifting up working platforms and wall forms from floor to floor without using a crane when casting concrete walls especially on high-rise buildings.

This system:

• Reduces tower crane time and accelerates the production.
• Cost less then tower crane.
• Provides a secure area for material loadings.
• Ensures safe working conditions.
• Includes standardised components which permits adaptation to any other construction project.
• Is designed to be used on high-rise buildings and at high wind velocities.
• Reduces labour costs.

Application Range:

Universal design of MESA-HCP Hydraulic Climbing Platform System gives wide range of application on construction sites.

Before concreting, system assures a powerful bearing and shoring area for all type of formworks, wall form works and even falseworks.

During concreting, a safe, accessible and convenient working place for concreting crew is provided by the system.

Loading Limits:

HCP System steel construction calculations are in accordance with DIN and FEM (Rules for the Design of Hoisting Appliances) standards.

Platform loadings are based on BSI (British Scaffolding Standards).

Materials used comply with international standards. The quality that they have is St 37.2 and St 52.2.

Platform loading capacities are limited as described in relavant User Manuals.

Wind Limits:

Unless otherwise stated in user manuals, wind limits are as follows for  HCP Systems:

From 0 to 72 km/h:

Sheeting for protection against wind or insulation panels are kept closed.
Casting is allowed Rail and platform
lifting up is allowed.

From 72 to 100 km/h:

Sheeting for protection against wind or insulation panels are kept closed.
Casting is not allowed Rail and platform lifting up is not allowed.

From 100 to 165 km/h:

Sheeting for protection against wind or insulation panels are kept open.
Formwork operation is not allowed.
Rail and platform lifting up is not allowed. Formworks are coupled face-to-face by means of tie-rods.