The Purlin and Girt Calculator hasĀ 9 functions to compute the number and length of purlins and girts for various shaped buildings and roofs.
Purlins are horizontal structural members used in roof framing to support the roof covering and transfer loads to the primary structural frame of a building, such as rafters or trusses. They are typically installed parallel to the slope of the roof and are spaced apart at regular intervals.
Purlins provide a stable base for attaching roofing materials such as metal panels, shingles, or sheathing. They also help distribute the weight of the roof covering and any imposed loads, such as snow or wind, evenly across the roof structure, and purlins add stiffness and strength to the roof framing system, reducing deflection and increasing resistance to wind uplift.
Purlins are commonly made of wood, steel, or engineered wood products such as laminated veneer lumber (LVL) or oriented strand board (OSB), depending on the structural requirements and design of the building. The size and spacing of purlins are determined by factors such as the span of the roof, the type of roofing material, local building codes, and the anticipated loads the roof will experience.
The size of lumber used for purlins can vary depending on factors such as the design of the roof, the span of the purlins, the loads they need to support, and local building codes. However, common sizes of lumber used for purlins in construction include 2x4, 2x6, and 2x8 dimensional lumber.
The specific size selected will depend on the engineering requirements of the project, with larger buildings or those subject to higher loads often requiring larger purlins to provide adequate structural support. Additionally, the spacing between purlins will also impact the size needed, as wider spacings may require larger lumber to maintain structural integrity.
In some cases, engineered wood products such as laminated veneer lumber (LVL) or laminated strand lumber (LSL) may be used for purlins, offering higher strength and stability compared to traditional dimensional lumber. The choice of material and size should be made in accordance with the project's structural design and local building regulations.
Girts are similar but differ from purlins in that girts are primarily used to support the exterior cladding of a building, such as siding or sheeting. Girts help to stabilize the cladding and distribute wind and other lateral loads to the building's main structural frame. Purlins, on the other hand, are used to support the roof covering and transfer loads to the primary roof framing system, such as rafters or trusses. They help to distribute the weight of the roof covering evenly across the roof structure and provide stiffness to the roof system. Furthermore, girts are typically installed horizontally between the vertical structural members, such as columns or posts, on the exterior walls of a building. Purlins are installed horizontally parallel to the slope of the roof and are typically spaced apart at regular intervals along the length of the roof. Girts provide support for the exterior cladding and help to transfer wind and other lateral loads to the building's main structural frame. Girts also help to stiffen the walls of the building. Purlins provide support for the roof covering and help to distribute the weight of the roof evenly across the roof structure. They also help to stiffen the roof system and resist wind uplift.
Girts are horizontal structural members that provide support to the exterior cladding of a building, such as siding or sheeting. Girts are commonly used in metal building construction or post-frame construction methods. They are installed horizontally between the vertical structural members, such as columns or posts, and are often designed to carry loads imposed by wind, snow, or other environmental factors. Girts play a crucial role in distributing the loads from the cladding to the building's main structural framework, helping to ensure the stability and integrity of the structure.
The size of lumber used for girts can vary depending on factors such as the design of the building, the loads it needs to support, and local building codes. However, common sizes of lumber used for girts in construction include 2x4, 2x6, and 2x8 dimensional lumber.
The specific size selected will depend on the engineering requirements of the project, with larger buildings or those subject to higher wind or snow loads often requiring larger girts to provide adequate structural support. Additionally, the spacing between girts will also impact the size needed, as wider spacings may require larger lumber to maintain structural integrity.
Girts differ from purlins in that girts are primarily used to support the exterior cladding of a building, such as siding or sheeting. Girts help to stabilize the cladding and distribute wind and other lateral loads to the building's main structural frame. Purlins, on the other hand, are used to support the roof covering and transfer loads to the primary roof framing system, such as rafters or trusses. They help to distribute the weight of the roof covering evenly across the roof structure and provide stiffness to the roof system. Furthermore, girts are typically installed horizontally between the vertical structural members, such as columns or posts, on the exterior walls of a building. Purlins are installed horizontally parallel to the slope of the roof and are typically spaced apart at regular intervals along the length of the roof. Girts provide support for the exterior cladding and help to transfer wind and other lateral loads to the building's main structural frame. Girts also help to stiffen the walls of the building. Purlins provide support for the roof covering and help to distribute the weight of the roof evenly across the roof structure. They also help to stiffen the roof system and resist wind uplift.