CY22702100850
CY TECH
Battery
IP 55, NEMA 4
Floor Mount
500W/1700BTU
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Description
Name | Technical parameter |
External Size | H*W*D=2270*2100*850mm (89*83*34inch) |
Cabinet layout | Four compartment, two compartment for lithium battery, two compartment for inverter and AC/DC electric box |
Cabinet material | Double layer Galvanized steel with PEF thermal isolation |
Security design | Embedded door, embedded hinges, 4-point security lock |
Protection level | IP55 |
Color | RAL7035 |
Climate control | AC220V air conditioner and DC48V fan |
Lighting system | Door sensor+48V LED light(when open the door, the LED will light on;When the door is closed, the LED will go out.) |
Grounding system | 200A Copper bar(13 point M6 and 2 point M8) |
Working temperature | - 40 ℃ ~ + 55 ℃ |
Working Humidity | ≤ 95% (+ 40 ℃) |
Air Pressure | 62kpa ~ 106kpa (similar to 0m ~ 5000m altitude) |
Other size to be continued ,please send us inquiry for futher discussion
◆ Outdoor energy storage cabinet has no exposed detachable components on the outside, and the cabinet structure is compact and easy to install;
◆ Outdoor energy storage cabinet has good sealing performance and an overall protection level of IP55;
◆ Outdoor energy storage cabinets are made of flame-retardant insulation cotton, which has excellent insulation performance;
◆ Outdoor energy storage cabinet adopts embedded hinges and a four point fixed mechanical lock, with a sturdy structure and strong anti-theft performance;
◆ Outdoor energy storage cabinet adopts bottom incoming and bottom outgoing lines, and the cabinet is equipped with a cable rack inside, which is overall beautiful;
◆ Outdoor energy storage cabinets can be equipped with industrial air conditioning or water-cooled units for temperature regulation, which can meet the cooling needs in summer and heating in winter according to equipment performance requirements, and operate at a constant temperature, thereby extending the service life of the battery pack;
◆ Outdoor energy storage cabinets can be equipped with optional fire protection devices and AC/DC distribution units.
Flexibility
(1) Material can be Constructed of durable, galvanized steel,sandwich panel ,stainless steel SS304,aluminium.
(2) Compartments can be configured to support between 1-4 bays,multi-compartments supported.
(3) Front and rear access doors allow technicians access to equipment storage areas and cable routing.
(4) Side doors design also ok.
(5) Customized color ,standard color RAL7035,other color acceptable based on appointed color code.
(6) Wide range of thermal management options for even the most demanding heat dissipation needs allows for optimization of thermal performance and reduced energy costs.
(7) The cooling solution adopted compressed air conditioner ,TEC (Thermoelectric Cooler),Hex (heat exchanger),Fans,Combo Aircon with Heat Exchanger and air cooled liquid cooler.
(8) Offers a wide range of configuration options providing maximum flexibility including PDU, rectifier ,integrated AC-DC power systems.
(9) Silk screening Logo and environmental friendly painting artwork.
Function
Nema 4 Battery Enclosure is a specialized enclosure designed to house and manage energy storage systems. These cabinets are crucial components in various applications, including renewable energy systems, backup power solutions, and electric vehicle charging stations. The primary purpose of an energy storage cabinet is to provide a secure and controlled environment for the batteries or energy storage devices it contains.
Safety:The cabinet is designed to ensure the safety of the stored energy devices, protecting them from external factors such as temperature fluctuations, moisture, and physical damage.
Ventilation: Adequate ventilation is essential to dissipate heat generated during charging and discharging cycles. Proper airflow helps maintain optimal operating temperatures for the energy storage system.
Monitoring and Control: Battery Enclosures often include monitoring and control systems to track the performance of the stored energy, manage charging and discharging processes, and provide real-time data for maintenance and optimization.
Fire Suppression: In some cases, energy storage cabinets may incorporate fire suppression systems to mitigate the risk of fire in the event of a malfunction or external factors.
Integration: The enclosure is designed for easy integration with the overall energy storage system or the power infrastructure where it is deployed. This includes electrical connections, communication interfaces, and compatibility with other components.
Battery Enclosures play a vital role in the reliability and performance of energy storage systems, contributing to the efficient use of renewable energy, grid stability, and the overall resilience of power infrastructure.
Application
Optimized Overview of Battery Enclosures
Introduction
Battery enclosures—whether configured as NEMA 4 battery enclosures, UPS battery storage cabinets, telecom battery cabinets, or full-scale energy storage system lithium-ion battery units—are critical building blocks in modern power infrastructures. Designed to store and release electrical energy on demand, these ruggedized cabinets and housings ensure reliability, safety, and efficiency across industrial, commercial, and telecom applications.
NEMA 4 Battery Enclosure Compliance
Weatherproofing & Dust Resistance: Sealed to IP65/NEMA 4 standards, protecting internal batteries and electronics from rain, sleet, dust, and hose-directed water.
Robust Construction: Galvanized steel or powder-coated aluminum shells withstand corrosion and mechanical impact.
UPS Battery Storage Cabinet Functionality
Seamless Load Support: Integrated inverter/charger modules switch instantly to battery power during utility outages, ensuring zero-break continuity for critical loads.
Modular Design: Scalable battery racks and hot-swap modules enable easy capacity upgrades without full system shutdown.
Telecom Battery Cabinet Integration
DC Distribution Panels: Built-in bus bars and fuse blocks simplify connection of telecom rectifiers, remote radio heads, and baseband units.
Thermal Management: Precision fans or HVAC-compatible cutouts maintain optimal battery temperatures, extending lifespan in 24/7 network-critical environments.
Energy Storage System Lithium-Ion Battery Technology
High Energy Density: Li-ion cells deliver up to 50 % more storage per rack unit compared to lead-acid counterparts.
Battery Management System (BMS): Real-time cell-level monitoring, balancing, and fault protection maximize safety and cycle life.
Grid-Load Balancing
By storing excess renewable or off-peak energy and releasing it during peak demand, energy storage systems help stabilize frequency, reduce ramp-rates, and defer costly grid upgrades.
Uninterruptible Power Supply (UPS)
UPS battery storage cabinets provide instantaneous ride-through for critical loads—medical devices, data centers, and financial trading floors—eliminating downtime costs and protecting sensitive equipment.
Emergency & Backup Power
In natural disasters or utility failures, telecom battery cabinets and NEMA 4 battery enclosures deliver rapid power to communication towers, emergency response centers, and municipal services, safeguarding public safety.
Scalability & Modularity
Modular lithium-ion solutions allow phased roll-out: start with a smaller footprint today and expand capacity as demand grows without replacing the entire enclosure.
Industrial Microgrids
Hybridize solar, wind, or diesel gensets with NEMA 4 battery enclosures to optimize fuel use and maintain power quality.
Telecom Base Stations
Deploy telecom battery cabinets on-site or in edge huts for 24/7 network resilience, even in remote or harsh environments.
Commercial Buildings & Data Centers
Utilize UPS battery storage cabinets to bridge utility outages and participate in demand-response programs, reducing energy costs.
Renewable Energy Integration
Pair energy storage system lithium-ion battery units with rooftop solar or wind turbines for self-consumption, peak shaving, and off-grid back-up.
Thermal Control: Ensure enclosures include adequate ventilation, heat exchangers, or HVAC integration to maintain 15–30 °C cell temperatures.
Safety Compliance: Verify UL 9540A (energy storage fire safety), NEC, and local electrical codes are met. For outdoor installations, confirm NEMA 4 or NEMA 3R ratings.
Maintenance Access: Opt for sliding battery trays, quick-connect bus bars, and front-serviceable BMS modules to minimize downtime during inspections or replacements.
Monitoring & Remote Management: Select cabinets with built-in SCADA/IoT gateways for real-time state-of-charge (SoC), state-of-health (SoH), and alarm notifications.
From NEMA 4 battery enclosures protecting outdoor telecom sites to UPS battery storage cabinets safeguarding data centers, and from modular telecom battery cabinets to large-scale energy storage system lithium-ion battery installations, modern battery enclosures deliver unmatched flexibility, safety, and performance. By carefully selecting the right enclosure rating, battery chemistry, and auxiliary systems—thermal management, BMS, and remote monitoring—you can optimize uptime, extend battery life, and bolster grid resilience across every application.
Q1: What differentiates a NEMA 4 battery enclosure from NEMA 3R?
A1: NEMA 4 enclosures are fully dust-tight and protected against hose-directed water, whereas NEMA 3R withstands rain and sleet but allows limited dust ingress.
Q2: Can I retrofit an existing UPS system with lithium-ion batteries?
A2: Yes—modular UPS battery storage cabinets often support hybrid battery chemistries. Ensure the UPS inverter is compatible or upgrade to an inverter/charger designed for lithium-ion.
Q3: How do telecom battery cabinets handle temperature extremes?
A3: They incorporate forced-air fans, louvered vents, or integrated HVAC units to maintain the optimal 20 °C±10 °C range for telecom-grade batteries.
Q4: What maintenance is required for energy storage system lithium-ion battery enclosures?
A4: Routine inspections of BMS status, thermal controls, connections, and enclosure seals; cell-level diagnostics are often automated via remote monitoring platforms.