In the scaffolding weight capacity calculator the following types of couplers are available to be used:

Right angle coupler
Right-angle couplers connect scaffolding members (generally tubes or pipes) at exactly a 90-degree angle creating stable joints. The right angle coupler in the above scaffolding load capacity calculator requires inputs for capacity in bending, кручение, сдвиг, and axial. The calculator will produce results for bending, сдвиг, скольжение, and torsion capacity for these types of couplers.

Friction-type sleeve coupler
Friction-type sleeve couplers connect scaffolding members to connect them where rigid joints are required. These types of couplers rely on friction to create a strong and movement-free connection between members. The friction-type sleeve coupler in the above scaffolding load capacity calculator requires inputs for capacity in bending and axial. The calculator will produce results for bending and slipping capacity for these types of couplers.

Swivel parallel coupler
The swivel parallel coupler is used to connect tube members at a parallel angle whilst maintaining the swiveling function. This allows the scaffolding tubes to rotate independently when required. The swivel parallel coupler in the above scaffolding load capacity calculator requires inputs for capacity in axial. The scaffolding weight capacity calculator will produce results for axial capacity only for these types of couplers.

Parallel coupler
The parallel coupler is used to connect tube members at a parallel angle but unlike the swivel version does not maintain a swiveling function. This type of parallel coupler creates a rigid joint between the tubes. The parallel coupler in the above scaffolding design calculator requires inputs for capacity in axial. The calculator will produce results for axial capacity only for these types of couplers.

In scaffolding a coupler refers to the equipment used to connect two scaffolding members. Муфты бывают разных типов и вариантов. Соединительные муфты жизненно важны для обеспечения безопасности и структурной целостности лесов и должны быть проверены на предмет проскальзывания., изгиб, кручение, сдвиг, и другие соображения.

The following factors are required as inputs in the above AISC 360 scaffolding calculator:

• Unbraced Length for Lateral-Torsional Buckling:
• This factor is the length of a scaffolding member that is not laterally supported.
• Effective Length Factor for Flexural Buckling about Y-axis:
• This factor represents the stability of the member under bending, considering its end conditions and geometry.
• Effective Length Factor for Flexural Buckling about Z-axis:
• This factor represents how well the scaffolding member is restrained against lateral bending in the Z-axis.

Engineers working on scaffolding systems should design them to resist various types of loads, these loads include:

• Dead Loads generally from the weight of the scaffolding system itself.
• Live Loads generally from workers and equipment used on the scaffolding.
• Ветровые нагрузки depend on local conditions and standards.
• Снеговые нагрузки where applicable and depending on local conditions and standards.
• Сейсмические нагрузки in areas prone to earthquakes and depending on local conditions and standards.

Once the loads have been determined by a qualified structural engineer they can be applied in the design load section of the calculator in the form of bending, сдвиг, and axial force.

В конструкции строительных лесов, базовый домкрат - это компонент систем строительных лесов, расположенный в нижней части вертикальных элементов.. Базовые домкраты обычно регулируются, чтобы можно было устанавливать леса на неровных поверхностях.. Европейский стандарт строительных лесов (В 12811-1:2003) has a provision for the design of base jacks found in Annex B.

What unit system is supported?

Both metric and imperial unit systems are available. To change unit systems click the cog at the top left of the input panel.

What material properties are considered?

The scaffolding design tools allow users to enter the following material properties:

• Модуль упругости
• Модуль жесткости
• Предел сжатия гибкости
• Предел текучести члена
• Абсолютная сила участника

What design codes are supported?

The scaffolding design software supports the design of scaffolding to the following standards:

• МАКО 360-16 Scaffolding Design Software.
• AS / NZS 1576 Scaffolding Design Software.
• БС АН 12811-1:2003 Scaffolding Design Software.

These options can be accessed via the flag icon at the top of the left side input panel to change the design standard.

What analysis is used to calculate the resistance of couplers?

The scaffolding design module consists of the evaluation of coupler capacities based on the linear static analysis of the members. For the European version of the design check coupler capacities as given in Annex C of EN 12811.1 используются.

Is scaffolding with base jacks supported?

The European version of the tool scaffolding with base jacks. The European Scaffolding Standard has a provision for the design of Base Jacks located in Annex B. The Australian and US versions of the tool do not support the design of scaffolding with base jacks.

Доступна ли интегрированная версия S3D?

An integrated version of the calculator for SkyCiv S3D is available to import all eligible members into the scaffolding design module and run all scaffolding load checks at once.

• Калькулятор грузоподъемности двутавровой балки
• Калькулятор мощности прогона
• Калькулятор натяжения кабеля

SkyCiv предлагает широкий спектр программного обеспечения для анализа и проектирования облачных вычислений для инженеров. Как постоянно развивающаяся технологическая компания, мы стремимся к инновациям и стимулированию существующих рабочих процессов, чтобы сэкономить время инженеров в их рабочих процессах и проектах.