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Back Yard Metal Storage Shed Custom

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Back Yard Metal Storage Shed

Back Yard Metal Storage Shed

Sunshine Garden offers great, durable steel sheds to small footprint patio storage, we have a solution for your backyard storage needs.

Our sturdy shed is 20% thicker than a traditional steel shed. Tall shed wall allows for easy storage of large items. Increased wall heights and entryways provide more room for easy entry and exit. And, 50% less hardware than the standard shed for 50% faster assembly. Simply snap panels in place and use the steel channels to bond the panels and walls of your shed together.

Size, color, style, logo can be customized.

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  • STAY ORGANIZED:

    Do you love to garden or do outside projects but have no place to store your tools or supplies? This metal storage shed from Sunshine Garden can turn your random piles of mess around your garage into a neat and organized storage center. Keep everything tidy, so you're spending more time enjoying outdoor projects and less time just trying to find the tools. Use this Sunshine Garden outdoor shed to stay clean and organized.




    PREMIUM MATERIAL:

    The roof and walls of the lean to shed are made of steel panels and have a protective film on the surface. These protect your shed and tools from sunlight and rain.


    GREAT VENTILATION:

    The two vents on our metal shed keeps the interior cool and airy, while the sloped roof allows for extra storage. The roof of the storage house also prevents rainwater from gathering on top.

     

    DOUBLE SLIDING DOORS:

    The double sliding door on our garden storage shed is convenient and space-saving. The entry is lockable and provides plenty of security for your items.




    ALWAYS BY YOUR SIDE

    All parts of metal shed has stuck a part number label, with a step-by-step manua. If there are any problems, such as MISSING PARTS, or DAMAGED PRODUCTS, please feel free to contact us, we will give you the most professional guidance and provide you with the best shopping experience.

    Sunshine Garden has been engaged in offering pent roof storage sheds wholesale service for over 10 years, and now is known as one of the professional manufacturers and suppliers in China. Please rest assured to get the quality garden grow products made in China from our factory.


    Please feel free to contact us if any questions.


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  • If you want to know us, please contact us!

    We always adheres to the quality policy of "Innovation is infinity, to keep improving",adhering to the enterprise tenet of "Veracity,Customer regarded supreme".

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About Sunshine
Since 2011
SUNSHINE GARDEN is leading in manufacturing home garden and hydroponic grow equipment in China with 12 years OEM & ODM experience. We are famous Back Yard Metal Storage Shed supplier and manufacturer in China. Our main products can be divided into two series, including Hydroponic Grow Equipmentslike Full completed grow tents and kits, Grow tables and trays, Grow bags, Seeding propagation, another series is Home Garden Products like Mini Greenhouses, Hanging planters, Garden waste bags and so on. Custom made Back Yard Metal Storage Shed to help build your perfect garden and hydroponic grow system.
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Factory Tour

Offers everything you need to build complete gardening and hydroponic systems.

Tent Workshop
Baler
Internal Training
China Import and Export Fair
News
How about CMH Sodium Light Performance in Conditions
Sep 19.2025
Lighting systems in horticulture and commercial applications often face challenging conditions, including high temperatures and high humidity. CMH Sodium Light has gained popularity due to its full-spectrum output, energy efficiency, and long lifespan. However, environmental factors such as excessive heat or moisture can influence the stability, performance, and longevity of these lamps. Understanding how these lights behave under conditions is critical for ensuring consistent growth, energy efficiency, and safety. Effects of High Temperature on Lamp Stability High temperatures can impact both the electrical and mechanical components of CMH Sodium Light. The lamp’s arc tube and ceramic components are designed to withstand significant heat, but prolonged exposure to elevated temperatures can accelerate material degradation. Excessive heat can cause thermal expansion of internal components, potentially altering the arc path and reducing light output. Additionally, the ballast or driver connected to the lamp may also experience reduced efficiency and increased stress under sustained high temperatures. Ensuring proper ventilation and heat dissipation is therefore crucial to maintain stable performance. Influence of Humidity and Moisture Moisture is another factor that can affect the operational stability of CMH Sodium Light. High-humidity environments, such as greenhouses or tropical indoor facilities, can cause condensation on lamp surfaces or within fixtures. While the lamps themselves are generally sealed, prolonged exposure to moisture can cause corrosion of metallic contacts and electrical connections, reducing lifespan and reliability. Proper sealing, protective housings, and regular maintenance can mitigate these risks, preserving both light quality and energy efficiency. Impact on Light Output and Efficiency Environmental stressors can also influence the luminous output and spectral consistency of CMH Sodium Light. High temperatures may cause slight color shifts in the emitted light, potentially affecting plant growth if used in horticultural settings. Similarly, moisture-related issues, such as contact corrosion or ballast degradation, can reduce overall light output and stability. These variations highlight the importance of monitoring lamp performance in challenging conditions and implementing preventive measures to ensure consistent lighting. Mitigation Strategies for Extreme Environments Several strategies can enhance the stability of CMH Sodium Light in high-temperature or humid conditions. First, using fixtures with adequate ventilation or active cooling helps dissipate heat and maintain suitable operating temperatures. Second, selecting lamps with high-quality construction, including robust arc tubes and corrosion-resistant connectors, increases tolerance to moisture. Third, incorporating environmental monitoring, such as temperature and humidity sensors, allows facility managers to take proactive measures, preventing lamp failure and ensuring consistent performance. Practical Applications and Considerations Understanding environmental stability is particularly important in commercial horticulture, industrial facilities, and outdoor installations. In these scenarios, consistent light output directly affects plant growth, productivity, and operational efficiency. Choosing CMH Sodium Light models rated for conditions, combined with proper fixture design and maintenance practices, ensures reliable performance. This approach minimizes downtime, reduces replacement costs, and protects investment in lighting infrastructure. CMH Sodium Light demonstrates strong performance in standard conditions but can be affected by high temperatures and high humidity. Thermal stress can impact the arc tube and ballast, while moisture may degrade electrical connections and reduce light output. Implementing proper ventilation, using corrosion-resistant fixtures, and conducting regular maintenance are essential to maintain stability. By understanding and addressing environmental challenges, users can ensure consistent performance, extend lamp lifespan, and optimize efficiency in demanding horticultural and commercial applications.
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Evaluating How Power Ratings Influence CMH Sodium Light Efficiency
Sep 12.2025
CMH Sodium Light has become a popular choice in horticulture and commercial lighting due to its full-spectrum output and relative energy efficiency. One key consideration when selecting these lamps is the relationship between power rating and luminous efficiency. Luminous efficiency, often measured in lumens per watt (lm/W), indicates how effectively a light converts electrical energy into visible light. Understanding how different power levels affect performance can help growers, facility managers, and engineers make informed decisions regarding energy use, lighting coverage, and overall system performance. Understanding Luminous Efficiency Luminous efficiency reflects the amount of usable light produced per unit of electrical power consumed. In CMH Sodium Light, efficiency is influenced by both lamp design and operating conditions. Lower-power lamps typically operate at cooler temperatures and may achieve slightly higher efficiency per watt, but they produce less total light, which may not be sufficient for larger cultivation areas or commercial spaces. Conversely, higher-power lamps provide greater total light output, but heat buildup and electrical losses can sometimes reduce overall efficiency on a per-watt basis. Efficiency Differences Across Power Ratings The efficiency of CMH Sodium Light varies depending on wattage. For example, a 315-watt CMH lamp might deliver high lumens per watt in compact spaces, making it suitable for smaller grow tents or confined areas. A 630-watt lamp, while producing double the total lumens, may show slightly lower efficiency per watt due to increased thermal losses and electrical resistance. This does not necessarily mean that higher-power lamps are inefficient; rather, their design balances high total light output with energy consumption, making them ideal for large-scale operations where total coverage is a priority. Impact on Plant Growth and Coverage From a horticultural perspective, choosing the appropriate lamp power affects both plant growth and canopy coverage. Lower-power lamps provide more focused light, ideal for smaller setups or specific plant zones. Higher-power lamps illuminate larger areas and penetrate deeper into the canopy, enhancing overall photosynthesis and growth uniformity. The slight variations in luminous efficiency are generally offset by the benefits of higher light intensity and broader coverage, making power selection a trade-off between energy efficiency per watt and total light output. Practical Considerations for Energy Use When selecting CMH Sodium Light, power, energy costs, and heat management are important considerations. Lower-power lamps consume less electricity, potentially lowering operating costs, but may require multiple fixtures to achieve adequate light levels. Higher-power lamps increase energy use and generate more heat, necessitating proper ventilation and cooling systems. Evaluating luminous efficiency in combination with power requirements ensures suitable performance while maintaining energy and cost efficiency. The luminous efficiency of CMH Sodium Light is influenced by its power rating, with lower-power lamps often achieving slightly higher efficiency per watt and higher-power lamps producing greater total light output. Understanding these differences is essential for balancing energy consumption, light coverage, and plant growth requirements. Selecting the appropriate wattage allows growers and facility managers to optimize lighting performance, maximize plant productivity, and ensure energy-efficient operation. By considering both efficiency and total output, users can make informed decisions tailored to their specific horticultural or commercial lighting needs.
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The Role of CMH Sodium Light Spectrum in Plant Development .
Sep 05.2025
Light is one of the crucial factors affecting plant growth and development. The quality, intensity, and spectrum of light determine photosynthesis efficiency, flowering cycles, and overall plant health. Among various horticultural lighting options, CMH Sodium Light has gained attention due to its full-spectrum output and relatively high efficiency. Understanding how the spectral distribution of this type of light affects different stages of plant growth is essential for optimizing yields and maintaining healthy vegetation. Full-Spectrum Lighting Benefits CMH Sodium Light is designed to provide a broad spectrum of light that closely resembles natural sunlight. Unlike traditional high-pressure sodium lamps, which emit primarily in the yellow and red regions, CMH lamps deliver significant blue, red, and green wavelengths. Blue light is particularly important for vegetative growth, influencing leaf development, compactness, and stem strength. Red light, on the other hand, plays a critical role in promoting flowering, fruiting, and overall biomass production. The balanced spectral output ensures that plants receive the right combination of wavelengths throughout their life cycle, promoting consistent growth and higher yields. Effects on Photosynthesis The efficiency of photosynthesis is directly related to the wavelengths of light absorbed by chlorophyll and other pigments. CMH Sodium Light’s spectrum includes strong peaks in both the blue (400–500 nm) and red (600–700 nm) regions, which correspond to the absorption maxima of chlorophyll a and b. By delivering energy in these suitable wavelengths, the lamp enhances photosynthetic activity, causing faster growth and healthier plants. Additionally, the inclusion of green wavelengths allows light to penetrate deeper into the plant canopy, improving overall light utilization and ensuring that lower leaves receive sufficient energy for growth. Influence on Plant Morphology The spectral composition of light also affects plant morphology. Blue light promotes compact growth with shorter internodes and thicker leaves, making plants more robust and better suited for indoor cultivation. Red light, especially when paired with far-red wavelengths, encourages flowering and fruit development. By adjusting the proportion of blue and red light within CMH Sodium Light setups, growers can manipulate plant form and function to suit specific cultivation goals. For example, higher blue ratios can be used during vegetative stages, while red dominance can be emphasized during flowering phases. Practical Implications for Cultivation For commercial growers, understanding the spectral benefits of CMH Sodium Light helps optimize both plant quality and energy efficiency. Its full-spectrum output reduces the need for supplemental lighting, allowing for a more straightforward setup compared to combining multiple light sources. The lamp’s consistent color temperature and spectral balance also minimize stress on plants, which can improve disease resistance and reduce the likelihood of nutrient deficiencies. When paired with appropriate photoperiods, CMH lighting can significantly enhance growth cycles, resulting in faster production and higher yields. The spectral distribution of CMH Sodium Light plays a fundamental role in supporting plant growth from vegetative stages to flowering and fruiting. Its full-spectrum output, with strong contributions in both blue and red wavelengths, enhances photosynthesis, influences plant morphology, and improves overall cultivation efficiency. By leveraging the benefits of this lighting technology, growers can achieve healthier, more productive plants while maintaining energy-efficient and effective horticultural systems. Understanding the impact of the light spectrum is essential for optimizing plant development and achieving desired agricultural outcomes
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When choosing the diameter of the pipe for the greenhouse arch, what factors should be taken into consideration?
Sep 02.2025
When choosing the diameter of the arch support tubes for a home greenhouse, multiple factors need to be systematically considered. The core of this is to find the great balance among safety, durability and cost. 1. Geographical location and climatic conditions (Most important!)This is the primary basis for choosing the pipe diameter and wall thickness.   Wind Load: Wind-prone areas (coastal, plains, mountainous regions): Greater wind resistance is required. The wind will cause uplift and shear forces on the greenhouse. Therefore, it is necessary to select thicker and wider pipes (for example: Φ32mm x 1.2mm). Windless areas (inland, urban courtyards): The requirements can be appropriately lowered, but still need to meet the basic safety standards.   Snow Load: Snowy areas: The accumulated snow acts as a significant static pressure, which may directly collapse the greenhouse. The pipe diameter and wall thickness must be strengthened, and a round-arch roof (which facilitates the sliding of snow) should be preferred over a flat roof. Snow-free areas: The main concern is the issue of wind resistance.   2. Dimensions and Span of the Greenhouse   Span (Width): This is the very direct influencing factor. The larger the span, the higher the strength requirements for the arch members.  ≤ 4 meters span: Consider using a pipe diameter of Φ25mm.  4-meter span: It is strongly recommended to use pipes with a diameter of 32mm or larger. Height: An increase in height will enlarge the wind exposure area and thus require a stronger structure. Length (Length): The length has little impact, but the longer greenhouse requires a greater number of longitudinal braces to ensure overall stability.   3. Types of covering materials The weight of the covering material is directly borne by the arch beam.   Glass: The heaviest, therefore a very sturdy frame must be used (such as 40x40mm square tubes with a wall thickness of ≥ 1.5mm). PC solar panel / endurance board: Medium weight. Requires precision and strength of the frame (recommended: Φ32mm x 1.0mm or above). Plastic film: The lightest in weight, exerting the least pressure on the framework. The choice is mainly based on considerations of resisting snowstorms.   4. Steel material and anti-corrosion process (affects lifespan)   Material: Prefer galvanized steel. Absolutely avoid using ordinary carbon steel that is prone to rust (even painted steel is not acceptable). Surface treatment (sorted by durability):      Hot-Dip Galvanized: The great choice. The zinc coating is thick, with strong corrosion resistance, and the service life can reach 10-15 years. It is a must-have for outdoor use.     Electro-galvanizing: The zinc layer is thin, has moderate rust prevention ability, has a short lifespan, and is not recommended.     Painting / Applying anti-rust paint: The anti-rust effect is the poorest. Regular maintenance is required. It can generally be used once.
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