solar panel with single pole hat on c structure

Squire Solar

Single Pole Hat On C Structure

A seamless fusion of uniformity and customisation structure with a single pole. standardised to handle the convenience, speed, and suitability of manufacture and installation, and customised to incorporate every possible detail of the demand .The customization can be incorporated for module types ranging from 50Wp to 400Wp.

Squire Solar

Single Pole Hat On Hat Structure

The design of a single pole hat on hat framework enables quicker production and simple on-site installation. It has a fairly straightforward design with specialised components and specific manufacturing and installation procedures. The design is suitable for all soil types, including rocky strata and sandy deserts.

solar panel with single pole hat on hat structure

solar panel with dual pole landscape orientation

Squire Solar

Dual Pole Landscape Orientation

The twin pole structures are the solar panel mounting structures supported in such unusual soil conditions. With an ideal array layout, the landscape orientation of twin pole structures can easily accommodate more than 200 modules per structure.

Squire Solar

Seasonal Tilt Portrait Orientation

It is a low-cost alternative to tracker systems that enables tilt angle changes to maximise incident radiation and energy yield for the entire year. During the course of the year, the tilt (angle of inclination) of the adjustable solar panel mount can be modified two or more times, increasing the output of the panels as a whole by roughly 5%.

solar panel with tilt portrait orientation

solar panel with trac

Squire Solar

Trac

Tracking can become cost-effective. The three main characteristics for which these constructions are developed and created are durability, stability, and upkeep. The building is outfitted with cutting-edge safety features including wind-load sensors and is built to withstand unexpected wind loads from a variety of angles.

Squire Solar

Low Elevation Ballast Structure

The wind shield systems' structures are especially created (in the form of an extended triangle) for flat roofs with constrained load capacities. On the back side, a sloping wind deflector closes the system and lessens the wind's suction force. The shield aids in preventing an even distribution of air flow, which results in strong three-dimensional flow patterns, as the wind blows through the gaps. The attached wind shield creates an aerodynamic effect that stabilises the system under heavy wind loads and stops the frame from lifting or tossing in the wind.

solar panel with low elevation ballast structure

solar panel with elevation ballast structure

Squire Solar

Elevated Ballast Structure

The solution is advised for flat RCC roofs with shading issues. The name of the structure solution is self-explanatory. These constructions can easily withstand wind loads brought on by winds up to 180 Kmph and can be built with ground clearance up to 1000 mm. They can be customised to fit 4 to 20 modules per structure in various array configurations. There is a 5 to 25 degree tilt range.

Squire Solar

With Steel Rails

This structure blends in with the roof's architecture without detracting from the building's aesthetic appeal. The building's strength helps the L plate connection with the roof maintain its rigidity in the face of strong winds. This is the most dependable solution because to its good characteristics and low number of penetrations over the roof.

solar panel with steel rails

solar panel with aluminium rails

Squire Solar

With Aluminium Rails

The next generation of the L plate + steel rail structure is L plate + Aluminum rail. Use of aluminium purlins drastically reduces the overall structure weight but maintaining the robustness intact.

Squire Solar

Omega Clamp

The wind shield systems' structures are especially created (in the form of an extended triangle) for flat roofs with constrained load capacities. On the back side, a sloping wind deflector closes the system and lessens the wind's suction force. The shield aids in preventing an even distribution of air flow, which results in strong three-dimensional flow patterns, as the wind blows through the gaps. The attached wind shield creates an aerodynamic effect that stabilises the system under heavy wind loads and stops the frame from lifting or tossing in the wind.

solar panel with omega clamp

Squire Solar

For Standing Seam Profile

One of a kind among metallic rooftop solar mounting solutions is standing seam solution. This non-penetrative approach uses clamps to securely fasten modules in a landscape orientation to the roof. The mounting structure's stability is strengthened by the roof sheet itself, as opposed to other designs that rely on purlins for support.

Squire Solar

For KLIP-LOKA Roofs

We have a unique rooftop solar mounting solution for KLIP-LOKA Roofs that stands out in the market. It is the Klip with or without purlins. This non penetrative solution is customisable for any kliplok profile available in the market.

solar panel for klip loka roofs

Tata Solar Panel Price in Trivandrum | Kerala | Chennai | Kanniyakumari

Tata Solar Panel Price

Tata Solar Panel Price | Tata Solar Panel cost

Cost-Effective Tata Solar Panel Solutions

Chennai | Coimbatore | Hosur | Guindy Industrial Estate | Ambattur Industrial Estate | SIDCO Industrial Estate, Maraimalai Nagar Industrial Area | MEPZ (Madras Export Processing Zone) | Mahindra World City, Chengalpattu | Sriperumbudur Industrial Area | Oragadam Industrial Area | Gummidipoondi Industrial Area | Perungalathur Industrial Estate | SIPCOT Industrial Park, Irungattukottai | Manali Industrial Area | Padi Industrial Estate | Nandambakkam Industrial Estate | Korattur Industrial Estate | Thiruvottiyur Industrial Estate | Ayanambakkam Industrial Estate | Ekkaduthangal Industrial Estate | Thirumudivakkam industrial estate | Perungudi industrial estate | Padappai industrial estate | Maduravoyal industrial estate | Tamil Nadu