Manufacturer

Enclosure Mounting Panels on Powermatic Associates

Found 409 products

SCE-6N6MPP on Powermatic Associates
Saginaw Control

Subpanel, Flat Perforated, Height:4.00", Width:4.00", Depth:0.06", Powder coated white

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SCE-12N10MPP on Powermatic Associates
Saginaw Control

Subpanel, Flat Perforated, Height:10.00", Width:8.00", Depth:0.06", Powder coated white

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SCE-12P10AL on Powermatic Associates
Saginaw Control

Subpanel, Flat Aluminum, Height:11.00", Width:9.00", Depth:0.08",

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SCE-20P12GALV on Powermatic Associates
Saginaw Control

Subpanel, Flat Galvannealed, Height:17.00", Width:9.00", Depth:0.13",

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SCE-20P16GALV on Powermatic Associates
Saginaw Control

Subpanel, Flat Galvannealed, Height:17.00", Width:13.00", Depth:0.13",

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SCE-6P4SS on Powermatic Associates
Saginaw Control

Subpanel, Type 316 SS, Height:5.00", Width:3.00", Depth:0.08", Configuration A - (Example: SCE-12P10SS). Sub-panels are made of 316/316L stainless steel with #4 brushed finish.

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SCE-10P10SS on Powermatic Associates
Saginaw Control

Subpanel, Type 316 SS, Height:9.00", Width:9.00", Depth:0.08", Configuration A - (Example: SCE-12P10SS). Sub-panels are made of 316/316L stainless steel with #4 brushed finish.

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SCE-14P12SS on Powermatic Associates
Saginaw Control

Subpanel, Type 316 SS, Height:13.00", Width:11.00", Depth:0.08", Configuration A - (Example: SCE-12P10SS). Sub-panels are made of 316/316L stainless steel with #4 brushed finish.

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SCE-20P20SS on Powermatic Associates
Saginaw Control

Subpanel, S.S. Flat, Height:17.00", Width:17.00", Depth:0.13", Configuration A - (Example: SCE-12P10SS). Sub-panels are made of 316/316L stainless steel with #4 brushed finish.

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SCE-9P30L on Powermatic Associates
Saginaw Control

Subpanel, ELJ Trough, Height:8.00", Width:29.00", Depth:0.08", Powder coated white.

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ItemManufacturerPriceStockDelivery
SCE-6N6MPP on Powermatic Associates

SCE-6N6MPP

Subpanel, Flat Perforated, Height:4.00", Width:4.00", Depth:0.06", Powder coated white

Saginaw Control

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SCE-12N10MPP on Powermatic Associates

SCE-12N10MPP

Subpanel, Flat Perforated, Height:10.00", Width:8.00", Depth:0.06", Powder coated white

Saginaw Control

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SCE-12P10AL on Powermatic Associates

SCE-12P10AL

Subpanel, Flat Aluminum, Height:11.00", Width:9.00", Depth:0.08",

Saginaw Control

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SCE-20P12GALV on Powermatic Associates

SCE-20P12GALV

Subpanel, Flat Galvannealed, Height:17.00", Width:9.00", Depth:0.13",

Saginaw Control

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SCE-20P16GALV on Powermatic Associates

SCE-20P16GALV

Subpanel, Flat Galvannealed, Height:17.00", Width:13.00", Depth:0.13",

Saginaw Control

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SCE-6P4SS on Powermatic Associates

SCE-6P4SS

Subpanel, Type 316 SS, Height:5.00", Width:3.00", Depth:0.08", Configuration A - (Example: SCE-12P10SS). Sub-panels are made of 316/316L stainless steel with #4 brushed finish.

Saginaw Control

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SCE-10P10SS on Powermatic Associates

SCE-10P10SS

Subpanel, Type 316 SS, Height:9.00", Width:9.00", Depth:0.08", Configuration A - (Example: SCE-12P10SS). Sub-panels are made of 316/316L stainless steel with #4 brushed finish.

Saginaw Control

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SCE-14P12SS on Powermatic Associates

SCE-14P12SS

Subpanel, Type 316 SS, Height:13.00", Width:11.00", Depth:0.08", Configuration A - (Example: SCE-12P10SS). Sub-panels are made of 316/316L stainless steel with #4 brushed finish.

Saginaw Control

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SCE-20P20SS on Powermatic Associates

SCE-20P20SS

Subpanel, S.S. Flat, Height:17.00", Width:17.00", Depth:0.13", Configuration A - (Example: SCE-12P10SS). Sub-panels are made of 316/316L stainless steel with #4 brushed finish.

Saginaw Control

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SCE-9P30L on Powermatic Associates

SCE-9P30L

Subpanel, ELJ Trough, Height:8.00", Width:29.00", Depth:0.08", Powder coated white.

Saginaw Control

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Enclosure Mounting Panels

General Guide & Overview

Control panel mounting enclosures are essential components in the field of industrial equipment and machinery. These enclosures play a crucial role in housing power circuits and control circuits, ensuring the safe and efficient performance of machinery. When it comes to designing industrial control panels, several factors come into play, including design requirements, regulatory standards, and safety considerations.

Schematics, regulatory standards, and design considerations are vital elements in control panel design. Regulatory standards such as NEC, NFPA 79, and UL 508 dictate the requirements for industrial control panel design, ensuring compliance and safety.

There are a variety of control panel mounting enclosures available in the market. Wall-mounted enclosures are ideal for small-scale applications, while floor-mounted enclosures are better suited for heavy-duty applications. Modular enclosures offer versatility and customization options, making them a popular choice for precise configuration based on specific needs.

When selecting electrical enclosures, it is crucial to consider enclosure ratings such as NEMA and IP. These ratings provide guidelines for choosing enclosures suitable for different applications. Additionally, UL standards guarantee independent testing and certification, ensuring the enclosures' compliance with safety regulations. It's also worth noting that the construction materials of electrical enclosures, such as carbon steel, stainless steel, and non-metallic materials, play a significant role in their performance and durability.

Types of Control Panel Mounting Enclosures

Control panel mounting enclosures are available in different types to cater to various applications. These enclosures serve as protective housings for control circuits and power circuits, ensuring the efficient and safe operation of industrial machinery and equipment.

Wall-Mounted Enclosures

Wall-mounted enclosures are ideal for small-scale applications with low power requirements. They offer a compact solution and can be easily mounted on a wall, saving valuable floor space. These enclosures provide a practical and efficient way to house control panels for small machinery or equipment.

Floor-Mounted Enclosures

For more demanding applications with larger control systems, floor-mounted enclosures are the preferred choice. These enclosures offer ample space to accommodate complex control systems and provide room for expansion. Their robust construction and larger size make them suitable for heavy-duty industrial settings where durability and flexibility are paramount.

Modular Enclosures

Modular enclosures offer versatility and customization options, allowing for precise configuration based on specific industrial requirements. These enclosures consist of interchangeable modules that can be easily reconfigured or upgraded as needed. They provide the flexibility to adapt to changing control panel layouts, making them suitable for applications that require frequent modifications.

Each type of control panel mounting enclosure has its own advantages and is designed to cater to different industrial settings. The selection of the appropriate enclosure depends on the size, complexity, and specific needs of the control system.

Importance of Electrical Enclosures and Standards

Electrical enclosures serve a crucial role in safeguarding electrical components from environmental factors, ensuring optimal safety and efficiency in industrial processes. These protective structures are designed to shield sensitive equipment from dust, debris, water, and other potentially harmful elements.

To determine the suitability of an electrical enclosure for a specific application, enclosure ratings such as NEMA and IP ratings play a significant role. The NEMA rating system classifies enclosures based on their ability to resist solid objects and water ingress. A higher NEMA rating denotes a higher level of protection. Similarly, the IP rating system indicates the enclosure's ability to withstand solid objects and water, with the first digit representing solid particle protection and the second digit representing water resistance.

Additionally, UL standards play a crucial part in ensuring the safety and reliability of electrical enclosures. Underwriters Laboratories (UL) provides independent testing and certification services, ensuring that electrical enclosures comply with industry safety regulations. This certification helps ensure that the enclosures meet rigorous standards and adhere to the necessary performance criteria.

The choice of construction materials for electrical enclosures, such as carbon steel, stainless steel, and non-metallic materials, is also essential. These materials offer different levels of durability, corrosion resistance, and protection against environmental factors. The decision regarding the appropriate material depends on the specific application requirements and environmental conditions in which the enclosure will be installed.

FAQ

Control panel mounting enclosures house power circuits and control circuits, ensuring the safe and efficient performance of machinery in industrial equipment.

The design process for industrial control panels involves considering design requirements, regulatory standards, and safety considerations to ensure the safe and efficient performance of machinery.

Regulatory standards such as NEC, NFPA 79, and UL 508 dictate the requirements for industrial control panel design.

The different types of control panel mounting enclosures include wall-mounted, floor-mounted, and modular enclosures, each with its own advantages and applications.

Wall-mounted enclosures are suitable for small, low-power applications and can be easily mounted to a wall.

Floor-mounted enclosures are larger and can accommodate more complex control systems, making them ideal for heavy-duty applications.

Modular enclosures offer versatility and customization options, allowing for precise configuration based on specific needs.

Electrical enclosures play a vital role in protecting electrical components from environmental factors and ensuring the safety and efficiency of industrial processes.

NEMA ratings and IP ratings provide guidelines for selecting enclosures suitable for different applications, with higher numbers indicating higher levels of protection against solid objects and water ingress.

UL standards provide independent testing and certification for electrical enclosures, ensuring their compliance with safety regulations.

When choosing the right electrical enclosure, it is essential to consider the environmental conditions, application requirements, applicable standards, and construction materials such as carbon steel, stainless steel, and non-metallic materials.