شنايدر GM10D4N0634BEE | مفتاح نقل يدوي، GoPact MTS 100، 4 أقطاب، 63 أمبير، 415 فولت تيار متردد 50/60 هرتز، مقبض دوار ممتد، انتقال مفتوح

Schneider GM10D4N0634BEE: A Comprehensive Guide to the 4-Pole MCCB

Introduction

Schneider Electric has built a reputation for producing high-performance electrical components that meet the needs of both small-scale and large-scale operations. One such product is it, a Molded Case Circuit Breaker (MCCB) designed to protect electrical circuits from overloads and short circuits. The GM10D4N0634BEE offers superior protection for a wide range of electrical systems, making it an essential component for industrial, commercial, and even residential setups.

What is the Schneider GM10D4N0634BEE?

it is a 4-pole MCCB that ensures electrical systems remain safe by interrupting currents when faults such as overloads or short circuits are detected. As an MCCB, it offers adjustable trip settings, allowing users to configure protection levels according to the specific needs of their electrical systems. The 4-pole design adds flexibility and protection for more complex electrical setups, especially in industrial environments.

Benefits of Using it

• Improved Safety: it provides reliable circuit protection, ensuring that your electrical systems are shielded from potentially damaging currents.
• Flexibility: With a 4-pole design, this MCCB is ideal for protecting both three-phase and neutral circuits.
• Longevity: The breaker is designed to withstand frequent operation, ensuring long-term durability.

Key Features of it

it comes equipped with a range of features that make it a versatile and high-performing MCCB:

• Voltage Rating: Typically rated for 400-690V AC, depending on the application.
• Current Rating: This model is designed to handle up to 630A, providing protection for a variety of loads.
• 4-Pole Design: This enables the MCCB to protect circuits in three-phase electrical systems, ensuring that neutral is also protected.
• Breaking Capacity: High fault current interrupting capacity to handle overloads and short circuits efficiently.
• Safety Features: Built-in mechanisms for arc prevention and thermal protection.

These features make it a top choice for users requiring a reliable and adaptable circuit breaker.

Technical Specifications

A detailed breakdown of it specifications includes:

• Rated Current (In): 630A
• Rated Voltage (Un): 400-690V AC
• Breaking Capacity: 36-50 kA, depending on the installation environment and system configuration
• Number of Poles: 4 (ideal for three-phase systems with neutral protection)
• Mounting Type: Panel or DIN-rail mounting for easy installation in a variety of configurations
• Trip Unit Type: Thermal-magnetic for adjustable settings

These specifications demonstrate the high capacity and flexibility of it, making it suitable for demanding environments.

Applications of the Schneider GM10D4N0634BEE

it is versatile enough to be used in a range of settings:

• Industrial: Ideal for protecting heavy machinery, large motors, and complex electrical networks in factories or manufacturing plants.
• Commercial: Commonly used in office buildings, retail spaces, and large infrastructure projects where electrical protection is critical.
• Residential: While more commonly found in commercial and industrial applications, it can also be used in large residential complexes that require high-level protection.

In any of these environments, the GM10D4N0634BEE serves as a critical safeguard against electrical faults.

Design and Build Quality

it is built to handle harsh conditions and high-stress environments. The MCCB’s housing is made from durable, impact-resistant materials that protect its internal components from physical damage and environmental factors. Additionally, its arc prevention technology ensures safety, even under fault conditions, making it suitable for use in environments where reliability is key.

Safety Mechanisms

The breaker is equipped with thermal-magnetic trip units, ensuring that it responds quickly to both overloads and short circuits. Its design also includes arc extinguishing features, which reduce the risks associated with high-voltage arcs during fault conditions.

Installation Process

Installing it is a straightforward process for trained professionals:

1. Power Off: Ensure the main power supply is turned off to avoid electrical hazards.
2. Mounting: The MCCB can be mounted using a DIN rail or directly onto a panel, depending on the setup.
3. Wiring: Connect the appropriate phase and neutral wires, following the wiring diagram provided in the product manual.
4. Set the Trip Unit: Adjust the thermal and magnetic trip settings according to the load and system requirements.
5. Testing: Once installed, perform tests to ensure the breaker operates as expected under various load conditions.

Always follow safety protocols and consider consulting a certified electrician for installation.