| Quantity: | |
|---|---|
Adjustable Lighting Coverage: The scalable arm allows users to adjust the height and angle of the light source. This flexibility ensures that lighting can be customized to cover specific areas as needed, optimizing illumination and reducing wasted light.
Easy Installation: The scalable arm design simplifies the installation process, allowing for easy adjustment and setup without the need for complex mounting systems.
Space Efficiency: Due to the scalable arm design, these solar street lights can be collapsed or adjusted to fit a smaller footprint during transportation. This leads to more efficient packing, reducing shipping volume and costs.
Reduced Handling: The design of the scalable arm light minimizes the need for special handling during shipping. They can be easily packed and unpacked, and their robust construction allows for fewer breakages during transit.
How does it come cheaper shipping cost?
Scalable Arm Design: The key benefit of a scalable arm is that it can be adjusted to collapse or shorten during shipping. Traditional split-arm fixtures are fixed in size, which means they require more space and larger packaging. The scalable arm model can be shipped in a more compact form, reducing the space required on the shipping palette or in containers, thus saving on freight costs.
Minimalist Packaging: Due to the smaller shipping footprint of the scalable arm design, less packaging material is required. This not only saves on material costs but also reduces the weight of the package, leading to further savings in shipping costs.
3. Ease of Assembly:
Simple Setup: Scalable arm models are typically easier to assemble than traditional fixtures. This means that the unassembled components can be shipped in a more compact form and then assembled on-site with ease. Reducing the complexity of the assembly can lead to savings in labor costs, as well as time, which can be a significant factor when installing multiple units.
4. Modular Construction:
Modular Components: Modular design allows parts to be stacked or nested within one another, leading to a more efficient packing arrangement. This can significantly reduce the volume of the package and therefore the shipping cost compared to traditional fixtures, which might have non-modular parts that cannot be efficiently packed.
5. Fewer Handling Needs:
Reduced Fragility: Traditional split-arm fixtures might have multiple fragile parts that require careful handling to prevent damage during shipping. A scalable arm design tends to be more robust and easier to handle, reducing the risk of damage and the associated costs for special handling or insurance.
6. Optimized Shipping Methods:
Adaptability to Various Transport Modes: The compact and lightweight nature of the scalable arm model allows for more flexibility in choosing different modes of transportation (such as air, sea, or road), as it can easily adapt to the constraints and pricing of various shipping options.
7. Standardized Shipping Costs:
With a consistent and smaller shipping size, buyers can expect more predictable and consistent shipping charges, as opposed to the fluctuating costs associated with the variable sizes and weights of traditional split-arm fixtures.
In conclusion, the design of the solar street light with a scalable arm is optimized to minimize the shipping volume, weight, and complexity. These factors collectively work to lower transportation costs for buyers, making the scalable arm model a more cost-effective choice when considering the entire logistics chain, from the manufacturer to the final installation site.
Specification
Power |
1000/1200W |
Battery |
12,000/20,000mAh |
Solar panel |
15/30W |
Working time |
24-36H |
Charging time |
5H |
Lamp size |
443*346*60/630*347*67mm |
N.W |
2.7KG |
Material |
New ABS Plastic |
Working mode |
Light control + remote control + radar sensor |
Luminous |
160/200m2 |
Color box size |
50*36*8/69*36*8cm NEW CHIP 39*37*8.5/64*37*8.5cm |
PCS/CTN |
5 |
CTN size |
42*37*52/70*43*37cm NEW CHIP 76*43*40cm (10PCS) 65*43*39cm (5PCS) |
Adjustable Lighting Coverage: The scalable arm allows users to adjust the height and angle of the light source. This flexibility ensures that lighting can be customized to cover specific areas as needed, optimizing illumination and reducing wasted light.
Easy Installation: The scalable arm design simplifies the installation process, allowing for easy adjustment and setup without the need for complex mounting systems.
Space Efficiency: Due to the scalable arm design, these solar street lights can be collapsed or adjusted to fit a smaller footprint during transportation. This leads to more efficient packing, reducing shipping volume and costs.
Reduced Handling: The design of the scalable arm light minimizes the need for special handling during shipping. They can be easily packed and unpacked, and their robust construction allows for fewer breakages during transit.
How does it come cheaper shipping cost?
Scalable Arm Design: The key benefit of a scalable arm is that it can be adjusted to collapse or shorten during shipping. Traditional split-arm fixtures are fixed in size, which means they require more space and larger packaging. The scalable arm model can be shipped in a more compact form, reducing the space required on the shipping palette or in containers, thus saving on freight costs.
Minimalist Packaging: Due to the smaller shipping footprint of the scalable arm design, less packaging material is required. This not only saves on material costs but also reduces the weight of the package, leading to further savings in shipping costs.
3. Ease of Assembly:
Simple Setup: Scalable arm models are typically easier to assemble than traditional fixtures. This means that the unassembled components can be shipped in a more compact form and then assembled on-site with ease. Reducing the complexity of the assembly can lead to savings in labor costs, as well as time, which can be a significant factor when installing multiple units.
4. Modular Construction:
Modular Components: Modular design allows parts to be stacked or nested within one another, leading to a more efficient packing arrangement. This can significantly reduce the volume of the package and therefore the shipping cost compared to traditional fixtures, which might have non-modular parts that cannot be efficiently packed.
5. Fewer Handling Needs:
Reduced Fragility: Traditional split-arm fixtures might have multiple fragile parts that require careful handling to prevent damage during shipping. A scalable arm design tends to be more robust and easier to handle, reducing the risk of damage and the associated costs for special handling or insurance.
6. Optimized Shipping Methods:
Adaptability to Various Transport Modes: The compact and lightweight nature of the scalable arm model allows for more flexibility in choosing different modes of transportation (such as air, sea, or road), as it can easily adapt to the constraints and pricing of various shipping options.
7. Standardized Shipping Costs:
With a consistent and smaller shipping size, buyers can expect more predictable and consistent shipping charges, as opposed to the fluctuating costs associated with the variable sizes and weights of traditional split-arm fixtures.
In conclusion, the design of the solar street light with a scalable arm is optimized to minimize the shipping volume, weight, and complexity. These factors collectively work to lower transportation costs for buyers, making the scalable arm model a more cost-effective choice when considering the entire logistics chain, from the manufacturer to the final installation site.
Specification
Power |
1000/1200W |
Battery |
12,000/20,000mAh |
Solar panel |
15/30W |
Working time |
24-36H |
Charging time |
5H |
Lamp size |
443*346*60/630*347*67mm |
N.W |
2.7KG |
Material |
New ABS Plastic |
Working mode |
Light control + remote control + radar sensor |
Luminous |
160/200m2 |
Color box size |
50*36*8/69*36*8cm NEW CHIP 39*37*8.5/64*37*8.5cm |
PCS/CTN |
5 |
CTN size |
42*37*52/70*43*37cm NEW CHIP 76*43*40cm (10PCS) 65*43*39cm (5PCS) |
