A typical Beam Layout welding system comprises 18 conveyor sections. Six of them are motorized, driving the rollers through sprockets as well as chains. Ten of them are connected via chains to motorized sections adjacent. Two are inactive.
A typical Beam Layout welding system has 18 conveyor segments. Six of the sections are motorized, and drive the rollers with sprockets. Ten are motorized, and connected by chains to adjoining motorized sections. Two are inactive.
An H beam's flanges are usually thicker than the normal, so they can be used in applications that need to support heavier and larger weights. The flanges on I beams are also inclined, which is why they were labeled as "I" beams. H beams on the other hand have flattened, leveled Flanges.
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H beams have different uses than I beams. Therefore, H beams can be used in different applications. In order to make an H beam welding system, there are several weld heads arranged next to each other.
This allows you to produce custom beams with minimal delay for changing beam shapes or sizes. Beam Layout Welding allows you to increase your productivity on both straight beams as well as tapered beams. The system automatically welds the beam's two flanges together at once. This gives you the penetration you need up to 1/2" web and 1 1/2" flange in one operation. The PHI system produces an inter-flange fillet. Welds meet all construction codes and are uniform.
Southern States Machinery has served manufacturers and fabricators since 1995. We are experts in fabrication and machine tools technology. We have an office in North Carolina as well as an office Florida. This gives us the ability to support and sell the most recent fabrication technology.
You need reliable, high quality machines that can help you with your structural fabrications. We have the right machines to ensure you achieve the best results in plate and beam fabrication. These machines include plates processors, beam drill line, angle masters as well as thermal cutting machines, layout markers, and beam cambering, straightening, and beam cambering machines.
A welded beam consists of three individual sections of steel – a web, a top flange and a bottom flange. These segments are merged together with deep fillet welds to create an incredibly robust building material.