GSO EN 12572-3:2022
Gulf Standard
Current Edition
·
Approved on
12 May 2022
·
Artificial climbing structures -- Part 3: Safety requirements and test methods for climbing holds
GSO EN 12572-3:2022 Files
No files are available for this standard right now!
GSO EN 12572-3:2022 Scope
This European Standard specifies the safety requirements and test methods for climbing holds. This European Standard is applicable to climbing holds, which are used for the natural progression of the climber, i.e. without the use of artificial means (e.g. ice axes, crampons, hooks, nuts) on artificial climbing structures (ACS) and bouldering walls. Climbing holds are designed to be mounted on the ACS with bolts, screws, etc. Climbing holds include large volumes or features that are designed for use without additional climbing holds being attached to them. The main fixation points for climbing holds forms part of the existing layout of the ACS and are considered in FprEN 12572-1 and FprEN 12572-2. This European Standard is not applicable to ice climbing, dry tooling and playground equipment.
Best Sellers From Mechanical Sector
GSO 42:2015
Gulf Technical Regulation
MOTOR VEHICLES - GENERAL REQUIREMENTS
GSO 159:1993
Gulf Technical Regulation
MOTOR VEHICLES –
DIMENSIONS AND WEIGHTS
GSO 98:1988
Gulf Technical Regulation
MOTOR VEHICLES- FLAMMABILITY OF
INTERIOR MATERIALS AND THEIR
TESTING METHODS
GSO 1780:2010
Gulf Technical Regulation
Motor vehicle-vehicle identification number (vin) - requirements
Recently Published from Mechanical Sector
GSO EN 14622:2024
EN 14622:2005
Gulf Standard
Devices to prevent pollution by backflow of potable water - Air gap with circular overflow (restricted) - Family A, type F
GSO ISO 21384-2:2024
ISO 21384-2:2021
Gulf Standard
Unmanned aircraft systems — Part 2: UAS components
GSO ISO 24513:2024
ISO 24513:2019
Gulf Standard
Service activities relating to drinking water supply, wastewater and stormwater systems — Vocabulary
GSO ISO 22407:2024
ISO 22407:2021
Gulf Standard
Metallic materials — Fatigue testing — Axial plane bending method