GuangZhou ShengXiang Technology Equipment CO,LTD

 power cables, hoist controllers, flight boxes and power distribution box factory

Power Distribution Equipment Factory in China

Shengxiang Company established in 2004, concentrate on offering the custom flight case and power distribution box business with cable assemblies to a range of stage related equipment till now.Our factory take over 2000 square meters places in Panyu district Guangzhou city, and have 2 different workshops for different products, one for flight case and hardware, another for power distribution box and related items, with 11-50 experience workers, include the QC persons, designers and international sales executives.

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Our Vesion

Our vision is to lead the industry in innovative, high-quality power distribution box solutions, ensuring customer satisfaction, fostering employee growth, and fulfilling our social responsibility through sustainable practices. We aspire to be the preferred choice for customers, a supportive environment for employees, and a responsible corporate citizen in the community, contributing to a better future for all.

OEM/ODM Service

As a dedicated OEM/ODM company, we are committed to providing customized solutions that meet our customers’ unique needs and requirements. With advanced production facilities and a professional team, we can flexibly handle various projects. Through close collaboration with our clients, we offer end-to-end services from product design and development to production and delivery. We prioritize quality and innovation to ensure we deliver high-performance, reliable, and cost-effective products. Our goal is to be the preferred partner for our customers, bringing them lasting value and success.

Power distribution product customization process

20 years of customization experience, giving you the most professional advice

  1. Design and Engineering: Engineers create the design for the power distribution box based on the requirements and specifications provided by the customer. This includes determining the layout, selecting appropriate components, and ensuring compliance with safety standards and regulations.
  2. Component Procurement: Once the design is finalized, the necessary components are sourced and procured. This includes circuit breakers, relays, switches, connectors, wiring, and enclosure materials.

  3. Assembly: The components are assembled according to the design specifications. This typically involves mounting circuit breakers, relays, and other electrical components onto a back panel within the enclosure. Wiring is then connected to these components according to the wiring diagram.

  4. Testing: After assembly, each power distribution box undergoes thorough testing to ensure proper functionality and safety. This includes testing for electrical continuity, verifying proper operation of circuit breakers and other components, and checking for any wiring faults or insulation issues.

  5. Quality Control: Quality control measures are implemented throughout the production process to ensure that the power distribution boxes meet the required standards. This may include visual inspections, functional testing, and verification of compliance with safety regulations.

  6. Labeling and Marking: Once testing and quality checks are complete, the power distribution boxes are labeled and marked according to industry standards. This includes labeling each circuit breaker and indicating the intended voltage and current rating.

  7. Packaging: The finished power distribution boxes are packaged for shipment. This may involve adding protective packaging materials and ensuring that all necessary documentation, such as instruction manuals and wiring diagrams, is included.

  8. Shipping: The packaged power distribution boxes are then shipped to customers or distributors, ready for installation in various industrial or commercial settings.

  1. Design and Engineering: Engineers design the hoist controller based on the specifications and requirements provided. This involves determining the electrical and mechanical components needed, as well as the layout and functionality of the controller.

  2. Component Procurement: Once the design is finalized, the necessary components are procured. This may include electronic components such as circuit boards, sensors, switches, relays, as well as mechanical components like casings, buttons, and connectors.

  3. Assembly: The components are assembled according to the design specifications. This involves soldering electronic components onto circuit boards, connecting wires, and mounting components within the controller casing.

  4. Testing: After assembly, each hoist controller undergoes rigorous testing to ensure proper functionality and safety. This includes testing electrical connections, verifying sensor readings, checking for proper response to inputs, and ensuring that all safety features are working correctly.

  5. Quality Control: Hoist controllers are inspected for quality at various stages of production. This includes visual inspections, functional testing, and adherence to industry standards and regulations.

  6. Packaging: Once the hoist controller passes all tests and inspections, it is packaged for shipment. This may involve adding instruction manuals, warranty information, and any necessary accessories.

  7. Shipping: The packaged hoist controllers are then shipped to customers or distributors.

  1. Design and Planning: Engineers and designers create the design for the flight case based on the specific requirements of the customer. This includes determining the dimensions, materials, and features needed to protect and transport the equipment.

  2. Material Selection and Procurement: Once the design is finalized, materials such as plywood, aluminum extrusions, hardware, foam inserts, and protective coatings are sourced and procured.

  3. Cutting and Shaping: The plywood sheets are cut to size according to the design specifications. Aluminum extrusions may also be cut and shaped to form the frame of the flight case.

  4. Assembly: The cut plywood panels and aluminum extrusions are assembled together to form the basic structure of the flight case. This may involve techniques such as screwing, riveting, or welding depending on the design.

  5. Foam Insert Installation: Foam inserts are custom-cut to fit the specific equipment that will be stored in the flight case. These inserts provide cushioning and protection during transportation. They are installed into the interior of the flight case.

  6. Hardware Installation: Handles, latches, hinges, and other hardware components are installed onto the flight case. These components ensure secure closure and easy handling of the case.

  7. Finishing: The flight case undergoes finishing touches, which may include sanding, painting, or applying protective coatings to enhance durability and appearance.

  8. Quality Control: Each flight case is inspected to ensure that it meets quality standards and that all components are properly installed and functioning.

  9. Labeling and Customization: Flight cases may be labeled with logos, markings, or other customizations according to the customer’s specifications.

  10. Packaging: Once the flight case passes quality control, it is packaged securely for shipment. This may involve wrapping in protective material and adding any necessary documentation.

  11. Shipping: Packaged flight cases are then shipped to customers or distributors, ready for use in transporting equipment safely and securely.

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