Automatic Edge Bander Machine With Trimmer For Chipboard MDF Wood
Product Description The BHM368F Edge Banding Machine is a high-performance,
industrially engineered machine designed for applying edge banding
to a variety of board materials. With an overall dimension of
3500×750×1500 mm and a robust weight of 1000 kg, this machine is
built for durability and precision in industrial environments. It
operates on a 380V/50Hz power supply with a total power consumption
of 7 kW, making it both efficient and powerful. The machine
supports board thicknesses from 10 mm to 60 mm and edge banding
thicknesses from 0.3 mm to 3 mm, offering versatility for different
production needs. Its conveyor system operates at a speed of 18–24
m/min, ensuring efficient and continuous operation. Technical Specifications
model | BH-368F | edge thickness | 0.3-3mm | motor power | 7KW | Minimum width of board | 50mm | machine size | 3500X750X1500mm | air presssure | 0.6-0.8mpa | panel thickness | 10-60mm | weight | 1000kg | feed speed | 18~24m/min | weight after packaging | 1100kg |
Product FeaturesIntelligent Control System The machine is equipped with a standard PLC microcomputer control
system, utilizing time-control principles to enhance operational
stability and safety. An encoder ensures precise control over all
machine actions, resulting in sensitive response and a low failure
rate. Glue Application System The glue tank uses a spiral structure to heat and evenly apply hot
melt adhesive, ensuring strong and consistent bonding between the
edge banding and the board. End Cutting Featuring a single guide rail system, the machine accurately trims
the edges of the board at both ends, ensuring clean and precise
finishes. Fine Trimming A high-speed oblique cutting motor with an adjustable alloy disc
allows for smooth and even trimming, enhancing the overall finish
quality. Scraping Function This function eliminates ripple marks caused by non-linear cutting
during the edge trimming process, resulting in smoother and neater
edges. Buffing/Polishing The buffing unit polishes the edge sealing section to a smooth and
effective finish, improving both appearance and durability. High-Quality Components The machine incorporates premium brand components such as Schneider
electrics, SICK sensors, controls, and CC motors, ensuring
reliability and longevity.
Product AdvantagesHigh Precision and Consistency: The combination of PLC control, encoder, and high-frequency motors
ensures accurate and repeatable results. Efficient Production: With a conveyor speed of up to 24 m/min and quick setup for small
boards (min. 50mm width, 70mm length), the machine supports
high-volume production. Durability and Reliability: Built with industrial-grade components and a sturdy structure, the
BHM368F is designed for long-term use in demanding environments. Ease of Operation: The touch screen interface and adjustable trimming mechanisms make
the machine user-friendly and easy to configure. Versatility: Capable of handling a wide range of board and edge banding
thicknesses, the machine is suitable for various materials and
applications. Enhanced Finish Quality: Functions such as scraping and buffing ensure a superior surface
finish, reducing the need for manual rework.
ApplicationsThe BHM368F Edge Banding Machine is widely used in the woodworking
and furniture manufacturing industries. It is ideal for: Furniture Production: Applying edge banding to desks, cabinets, shelves, and tables. Kitchen and Wardrobe Manufacturing: Ensuring clean and durable edges for modular kitchen and wardrobe
panels. Office Furniture: Providing a polished finish to desks, partitions, and storage
units. Door and Window Frame Production: Sealing edges for improved aesthetics and moisture resistance. Custom Woodworking Projects: Supporting small-scale and custom production with its ability to
handle minimal board sizes.
With its advanced features, robust construction, and intelligent
control system, the BHM368F Edge Banding Machine is an excellent
choice for manufacturers seeking to enhance productivity, quality,
and efficiency in edge processing operations.
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