About Architiles Modular Build

Architiles Modular Build

About our building construction system

Our system covers the execution of any type of building project. The advantages In addition to being light and resistant, its construction, or better said, its assembly, is quick, precise, and does not require cutting, finishing or preparation of dough. There is no waste and no need for heavy equipment.

About the methods to build:

Ready-made pieces, no need to measure, cut, prepare the dough or any type of finishing

In the budget, you already know how much you are going to pay, and we don't need to add the variations and all the unforeseen events that the work has. The pieces are already tailored for assembly. It's all made easy for you to build in a few days.

Construction inviolable from the outside and editable, that is, deconstructed only from the inside

This is explained because, on the outside, external panels, with couplings to be fixed on the external side, are hooked to the columns and are then fixed from the inside. on the uprights, which leaves the entire structure tied together. The only way to undo this connection is to unscrew the external coupling, from the inside of the building. Complicated, the link below explains it better.

For more information about our CONTRUCTION PROCESS, click BELOW:

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Construction with lattice structure, resistant and waterproof panels

Before the internal panels are placed, we can see the structure and infrastructure in the building, like you can see above. Below, the interior walls hide this structure.

Compared to traditional construction, which uses water, stone and sand, and which requires a lot of finishing labor to make the surfaces flat, our system has many advantages.

Now, the issue of structural safety is certainly the biggest advantage. A building in our system has at least 4 x more columns and beams than a masonry building. If we're going to talk about trellises and scissors, the traditional one usually doesn't even have them. But people trust masonry because it is "massive" and brittle. According to the standard, every 15 meters of wall should have an expansion joint, to prevent cracks and relieve the stress of the heat and cold cycle. The way our system is built, the expansion joint is at most every one meter.

Today we know that construction works a lot. The system with independent panels works, expands, compresses, pulls, absorbs, and everything else the material needs to do.

The risks here are very low, after all, heavy materials unbalance, go beyond capacity and cause harm to the health of those who carry and work with them. At this point, our material also has an advantage. Imagine the weight of a concrete column or a wall joined together and plastered with a cement bond? against the internal spaces, almost hollow if it weren't for the structural profiles and installation pipes, accessed by undocking panels.

Dust, dirt, all of this disappears after the shoes are placed and the profiles and panels are placed. Life becomes much lighter.

Lightweight structures use shallower foundations

This aims to reduce costs in an efficient way. If you have a brick building, with cement between the bricks and plastered with sand and cement, this causes weight to the ground, and this has a very high cost in foundations.

Steel structure, similar to a metal lattice.

This makes the building perform structural actions in a flexible way. As it is a steel structure, in addition to being robust, it deals more efficiently with compression and traction forces.

Economy, autonomy and sustainability

It is possible to add items that will bring you immense benefits, such as:

roof water collection, filtration and storage; installation of solar panels;

Installation of a hot air exhaust control system, preserving a cooler internal temperature or, in winter, maintaining heat in the residence;

We have electrical and hydraulic installation services, exhaust control or hot air conservation and central air conditioning;

Engagement followed by Mechanical fixation

Above, the image of the structure of the set that represents the structure of a part of the wall measuring 50 cm wide x 50 cm high and, below, we can already see the panels covering this structure.

Note that the columns at both ends are cut to the height of the panels and structures but, on a wall, they are three meters long. Because this montage, in the image, is representative.

Here, in this image, we can see that the panels cover this structure. A good part of what you see is part of the couplings fixed to the panels. The other part is the columns and tie rod.

The initial idea was for everything to be coupled, but it was necessary to fix it for safety reasons.

See, above, the simplicity of this system, connections made very quickly and precisely: the external panel comes in a straight line and goes through its couplings. Afterwards, screws and nuts fix the coupling of the external panel between the column profiles.

Detail of the structure, which was painted to differentiate the Column in blue, the coupling (in green), the screw (in gray) fixing the coupling to the panel and the upright (in blue). And, between the panels, diagonally, the riser, in orange. Note that the image reveals that the panel is made of bamboo sheet covered with a cement alloy, which gives it a gray tone.