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Main LT Panel
Main LT Panel
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Power Factor Panel (PFI)
Power Factor Panel (PFI)

Relay Control Panel

A relay control panel is a device used to control and operate electrical equipment or systems using relays. Relays are electrical switches that are controlled by an electrical signal, allowing a small current to control a larger one.

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Description

Description

The panel typically includes a set of relays, which are used to control the operation of various electrical systems or equipment, such as motors, pumps, lighting, or other loads. The panel also includes a set of control switches or buttons that can be used to activate or deactivate the relays.

The relay control panel also includes a control system that can monitor the status of the equipment or systems being controlled and make decisions about when to activate or deactivate the relays. This control system can be manual or automatic, and can also provide alarms and status indications to the operator.

Relay control panels are commonly used in industrial, commercial, and residential settings, and can be used to control a wide variety of systems, including HVAC, lighting, security, and other systems. They are also commonly used in process control applications, such as in power plants, water treatment facilities, and other industrial settings where precise control of equipment is required.

In summary, a relay control panel is a device that uses relays to control the operation of electrical equipment or systems, it includes a set of relays, control switches and a control system to monitor the status of the equipment and make decisions about when to activate or deactivate the relays. They can be used in a wide variety of settings and applications, including industrial, commercial, and residential settings, and can be integrated with other control systems for advanced control and monitoring.

Enclosure Details

Enclosure Details

Our panels and distribution board comply with standard IEC 60439-1, DIN VDE 0660 1.500 SECTION 8.3 and all their mechanical and operating characteristics expressed in accordance to the standard.

STRUCTURE

  • Our panels structures are constructed using the MS sheet, with Front Door (optional back Door), Side & Back Covers.
  • Our enclosure system has complete modularity in 2 AXES. This provides the most flexible solution possible Height, 1‘idth, and Depth as well as sizing and placement of any sub-section are infinitely variable.
  • Enclosure corner. frame and Door constructed of 2mm thick Ms Sheet.
  • Apparatus Mounting plate constructed of 1.6mm thick Ms Sheet.
  • Apparatus safety covers constructed of 1.8mm thick Ms Sheet.
Paint Specifications

Paint Specifications

Panel having an electrostatic epoxy powder coated texture finishing to (RAL-7032 & 7035) or a wide

Choice of colors upon Client request.

  • Type Epoxy polyester powder
  • Coating Thickness 60-80 pm
  • Staved at 180 to 200°C
  • Gloss level Semi gloss 40 to 60%

Decree of protection

External cladding and doors all come with a sealing gasket ensuring the above mentioned standard. minimum IP class-42 and (IP 56 Obtainable) according to standard IEC -60529.

Internal Separation

Internal protection of our system is achieved using Form 1 to Form 4B type. The compartments are efficiently protected against Arcing. The incoming feed unit and the main bus bars are separated, the main & distribution bus ducts are separated from one another and also from other compartment.

Safe Work Environment

Safe Work Environment

  • Adequate lighting: There should be good lighting to allow workers to clearly see the equipment and wiring.
  • Ventilation: Adequate ventilation is necessary to prevent the buildup of hazardous fumes and dust.
  • Accessibility: The electrical panel should be located in an area that is easily accessible to maintenance workers and electricians.
  • Safety equipment: Workers should have access to appropriate personal protective equipment (PPE) such as gloves, safety glasses, and hard hats.
  • Organization: The electrical panel should be organized in a manner that allows workers to easily identify and access equipment and wiring.
  • Grounding: Proper grounding is necessary to protect workers from electrical shock and to protect equipment from damage.
  • Space: There should be sufficient space for workers to safely move around the electrical panel and perform maintenance and repair tasks.
  • In summary, the work environment for electrical panel work should prioritize safe

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