A laser engraving machine is used for engraving various materials including wood, plastic, paper, leather, bamboo, cardboard, aluminum oxide, stainless steel, MDF, acrylic, and more. It can be utilized to create personalized gifts, intricate artworks, and unique home decor items. It also aids in producing detailed branded products for businesses and in fashion design on leather and fabric.
¶ Introduction to the main components
How does the TTS-55Pro work?
The TTS-55Pro operates by using a stepper motor to drive a belt that moves the laser head. Engraving or cutting functions are achieved through the movement of the laser head and the emission of light. The TTS-55Pro requires software control, mechanical transmission, and a laser light source to function. Software serves as a crucial interface for human-machine interaction, allowing for image and text editing, parameter adjustment, and starting/stopping operations. The engraving speed of the TTS-55Pro laser machine is extremely fast, while maintaining high precision even at high speeds.
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¶ Left and right components
The left and right components are primarily composed of a motor, synchronous belt, and guide rail. The Y-axis utilizes two 42 stepper motors, while the X-axis employs a single 42 stepper motor. They are crucial components for the movement of the TTS-55Pro.
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¶ The motherboard components
The TTS-55Pro is equipped with the high-performance MKS LS ESP32 PRO V2.1 engraving machine motherboard. The LS ESP32 PRO V2.1 motherboard is a solution specially developed for desktop engraving machines. It features the ESP32 dual-core 32-bit super CPU, with a main frequency of up to 240MHz, ensuring excellent performance.
The motherboard is equipped with noiseless TMC22 drivers, capable of achieving a maximum working speed of 30,000mm/min, providing high efficiency while maintaining a quiet working environment. The LS ESP32 PRO V2.1 motherboard boasts high-performance features.
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¶ The laser head component
The TTS-55Pro engraving machine utilizes a 5.5W power laser module, employing compression point technology. The laser spot is very small and appears nearly rectangular, resulting in more concentrated light source energy, an extended effective energy range, and higher energy density. This enhances the cutting and engraving capabilities, leading to faster engraving speeds and finer laser spot sizes.
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