CY107218001000
CY TECH
Battery
IP 55, IP 65, NEMA 4, NEMA 4X
Floor Mount
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Product Description
| Name | Technical Parameter |
| External Size | H*W*D=1072*1800*1000mm (42 x 71 x 39 inch) |
| Cabinet layout | Two compartment, one compartment for lithium battery, one compartment for inverter and AC/DC electric box |
| Cabinet material | Double layer Galvanized steel with EPS thermal isolation |
| Security design | Embedded door, embedded hinges, 4-point security lock |
| Protection level | IP55 / IP65/ NEMA 4 / Nema 4X |
| Color | RAL7035 |
| Climate control | AC220V air conditioner and DC48V fan |
| Lighting system | Door sensor+48V LED light(door open, the LED will light on; door 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) |
Note:The air conditioner can also choose AC 110V 60HZ or DC 48V, and the fan can also choose AC 110V or 220
Other size to be continued ,please send us inquiry for futher discussion
Features
◆ Solar energy storage system has no exposed detachable components on the outside, and the enclosure structure is compact and easy to install;
◆ Solar energy storage system has good sealing performance and an overall protection level of IP55;
◆ Solar energy storage systems are made of flame-retardant insulation cotton, which has excellent insulation performance;
◆ Solar energy storage system adopts embedded hinges and a four point fixed mechanical lock, with a sturdy structure and strong anti-theft performance;
◆ Solar energy storage system adopts bottom incoming and bottom outgoing lines, and the enclosure is equipped with a cable rack inside, which is overall beautiful;
◆ Solar energy storage system 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;
◆ Solar energy storage system 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,Combined AC&HEX 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
An Industrial Battery Storage System for Solar is a purpose-built enclosure designed to house and manage advanced energy storage system solutions. These enclosures are essential in applications such as energy storage system solar setups, backup power infrastructures, and electric vehicle charging stations. Their primary role is to provide a secure, efficient, and compliant environment for housing lithium-ion or other battery technologies used in modern energy storage systems.
● The enclosure offers a weatherproof, durable, and often fire-resistant structure to protect batteries from harsh environmental conditions such as temperature extremes, humidity, dust, and physical impact.
● Effective temperature regulation is critical in any energy storage system solar setup. These enclosures include integrated thermal management systems—such as ventilation, fans, or active cooling units—to prevent overheating and ensure optimal battery performance and longevity.
● Safety is a priority in all energy storage system solutions. These enclosures are equipped with circuit breakers, surge protection, fuses, and grounding systems to prevent electrical hazards like short circuits, overvoltage, and fire risks.
● Designed with efficiency in mind, the enclosure organizes batteries and auxiliary equipment (e.g., inverters, power controllers) in a compact, accessible layout—ideal for industrial and commercial applications where space utilization is critical.
● The design supports quick access for routine maintenance, diagnostics, and battery replacement, reducing operational downtime and improving serviceability.
● Industrial enclosures are engineered to integrate seamlessly with broader energy storage system solar infrastructures, whether connected to photovoltaic arrays, wind turbines, or the power grid. This enables reliable and efficient energy storage, conversion, and delivery.
● These enclosures are built to meet international and local safety standards, including fire resistance, IP ratings, and electrical safety certifications, ensuring regulatory compliance and system reliability.
These functions collectively make the industrial battery storage system for solar a critical component in delivering secure, efficient, and scalable energy storage system solutions across various sectors, from renewable energy to grid support and EV charging.
Application
An Industrial Battery Storage System for Solar, often housed within a specialized solar energy battery enclosure, is a critical component in modern power infrastructure. Designed to store and release electrical energy efficiently, these systems typically comprise one or more advanced batteries—most commonly a lithium ion energy storage system—to ensure reliable power delivery across various applications.
A well-designed grid battery energy storage system plays a pivotal role in balancing power supply and demand. By storing excess energy during off-peak hours and releasing it during peak demand, the system helps stabilize grid fluctuations and enhances the overall reliability of power networks. This function is especially valuable in supporting renewable energy integration.
In the event of grid failure or power outages, a lithium battery energy storage system provides immediate backup power, ensuring uninterrupted operation of essential systems. This is vital for sectors such as healthcare, telecommunications, and financial services, where power continuity is non-negotiable.
During natural disasters or unexpected power system failures, Industrial battery storage systems can deliver large-scale, rapid-response energy to support emergency operations. Their ability to be rapidly deployed and scaled makes them crucial in safeguarding lives and critical assets.
Partnering with a qualified energy storage system integrator ensures seamless integration of battery storage into broader energy infrastructures—whether solar, wind, or grid-connected. These integrators provide turnkey solutions, including system design, installation, monitoring, and long-term service, to optimize performance and ROI.
The Industrial Battery Storage System for Solar—especially when leveraging a lithium ion energy storage system and installed by a trusted energy storage system integrator—is a cornerstone of modern, resilient, and sustainable energy infrastructure. Whether balancing grid loads, providing backup power, or supporting emergency operations, it is essential for building a smarter, more stable energy future.
