Garden Sail Blinds for Domestic and Commercial Use
When building or making something, there is always a specific goal and way to use it that it must serve. The first step in the design process is figuring out the right design angle. This is the general approach and direction that the designer takes to meet the structure’s intended purpose and use.
The main thing that determines the design angle is what the structure will be used for and how it will be used. This means that the designer needs to know exactly what the structure will be used for and how it will be used. For example, if the building is a place for people to live, the design will focus on making comfortable places for people to live. If the building is a business, on the other hand, the design will be focused on making a place where employees can do their jobs in a functional and efficient way.
Aside from the structure’s purpose and how it will be used, there may be operational needs that must be taken into account. These are certain wants or limits that have to do with how the building will be used or maintained over time. For example, if the building is a factory, the design may have to take into account the need for heavy machines and the safety needs of the people who will be using it.
Overall, the right design angle for a project is based on the structure’s purpose and how it will be used, as well as any operational needs that need to be taken into account. This method helps make sure that the final design is functional, efficient, and meets the wants of the people who will be using it.
Soliday A
Sail Shape
triangle and square
Sail Size
max. 55 qm
Sail Extension
max. 7 m per side
Shaft Length
max. 8 m
Use of Soliday A
When making a structure, whether it’s a house or a piece of machinery, it’s important to start by knowing the structure’s basic needs.
This means figuring out what the structure is meant to do, what problem it is meant to solve, what needs it must meet, and what restraints or limits may affect its design. After these needs have been established, they can be used as a basis for choosing the right design principles to follow.
Design principles are guidelines or rules that help make sure the building will work well and meet its needs. They can be about things like how things look, how well they work, how safe they are, how long they last, how much they cost, and how long they will last.
In short, if we understand the basic needs of a structure, we can choose the right design principles that will help us make a structure that works well and efficiently for its intended purpose.
Soliday M
Sail Shape
triangle and square
Sail Size
max. 65 qm
Sail Extension
max. 9 m per side
Shaft Length
max. 13 m
Use of Soliday M
During this phase, architects use Computer-Aided Design (CAD) tools to make 2D and 3D models of the building that are accurate and detailed. The final result can then be shown in a realistic way by rendering these models with high-quality textures and lighting effects.
During this time, architects can also work with clients and other stakeholders to make any design changes that are needed. These changes can be made in real time, allowing for an iterative design process that makes sure the end product meets the client’s needs and expectations.
Overall, the architecture-design phase is important to the success of the project because it lays the groundwork for the construction phase and makes sure that the end product is functional, aesthetically pleasing, and meets all safety and building code requirements.
Soliday X
Sail Shape
Square
Sail Size
max. 45 qm
Sail Extension
max. 6 m per side
Shaft Length
max. 8 m
Use of Soliday X
It is very important to do a load state analysis to make sure the structure is safe and meets EU rules. In some cases, test building sections might need to be built to make sure that engineering estimates about tensile stress and strength are correct. This process lets engineers find possible problems and make changes to the plan to make sure the building is stable and safe.
It’s important to keep in mind that more changes to the plan may be needed to meet engineering standards and stress loads. For these changes, the engineering and design teams may need to work together to make sure that the structural changes don’t hurt the design idea or the structure’s overall look.
In the end, the load state analysis and any necessary design changes are important parts of the building process that make sure the structure is safe and reliable. By doing these analyses and making the necessary changes, you can build a high-quality building that is built to last and meets all of the regulations.
Soliday XS
Sail Shape
triangle and square
Sail Size
max. 35 qm
Sail Extension
max. 6 m per side
Shaft Length
max. 6 m
Use of Soliday XS
After the design and engineering of a tensile membrane structure have been finalised and accepted, the next step is to make a cutting pattern for manufacturing. Tensile membrane structures are types of architecture that make a stable and aesthetically pleasing structure by stretching a flexible membrane material, like fabric or polymer, between structural supports.
The method of making a cutting pattern is an important part of making a tensile membrane structure. It involves making a digital pattern for cutting the membrane material into the desired shape and size, taking into account things like the shape of the supporting structure, the desired tensioning of the membrane material, and the qualities of the material being used.
The process of making a cutting pattern is similar to how all tensile membrane structures work, which is to find a balance between the strain in the membrane and the compression in the structure that holds it up. This is important to make sure that the building can hold the weight it is meant to hold and keeps its shape and stability over time.
Overall, the cutting pattern generation process is a very important step in making tensile membrane structures. It follows the basic rules of all tensile membrane structures to make sure that the final product is stable and looks good.
Soliday C
Sail Shape
triangle and square
Sail Size
max. 55 qm
Sail Extension
max. 7 m per side
Shaft Length
max. 8 m
Use of Soliday C
The Company is in charge of making and supplying the structure, and they keep all of the design and construction information in-house. This means that they don’t use outsourcing or share important documents with people who haven’t been given permission to protect their clients’ ideas.
This method can be helpful for clients who want to make sure their designs are safe and private because they can believe that the company won’t give their information to people who shouldn’t have it. It also shows that the company understands how sensitive the information they work with is and how important it is to protect their clients’ intellectual property rights.
SOLIDAY-M
MANUALLY ROOLLABLE
SHADE SAIL
up to 65 m2
SOLIDAY-CS
NOW CLEAR VIEW TO THE
FRONT DUE TO NEW MAST
ALIGNMENT
SOLIDAY town-in sunsails
THE COOL KIND OF
SHADING – now also
available in rainproof
version!
OUTDOOR CURTAINS
THE MODERN WAY OF
OBJECT
SHADING
