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Quick Details

  • Application: Laser Engraving
  • Condition: New
  • Laser Type: CO2
  • Engraving Area: 20*16CM
  • Engraving Speed: 600mm/s
  • CNC or Not: Yes
  • Cooling Mode: Water Cooling
  • Applicable Material: Acrylic, Crytal, Glass, Leather, Plexiglax, Plywood, Rubber, Wood
  • Graphic Format Supported: AI, BMP, DST, DWG, DXP, LAS, PLT
  • Place of Origin: Guangdong, China (Mainland)
  • Brand Name: Disen
  • Model Number: DS-40W-14
  • Dimension(L*W*H): 70*43*25cm
  • Certification: alibaba
  • Locating Precision: <0.01mm
  • Laser Power: 40W
  • Resolution ratio: ≤4500dpi
  • Name: Mini laser stamp engraving machine
  • Operating Temperature: 5°C-35°C
  • Min Shaping Character: Character 2*2mm Letter:1*1mm
  • Compatible Software: CorelDraw, AutoCAD
  • Control Configuration: DSP
  • Cooling Way: Water Cooling and Protection System
  • Packing: carton case

Packaging & Delivery

Packaging Details cartons package,Package diamension:94*59*37cm,weight:45kg,High precision laser stamp machine
Delivery Time one week

 

Product video:    https://www.youtube.com/watch?v=2clDxNVKKDE

 

High precision laser stamp machine technical Parameters

 

Laser Power

40W

Laser Type

Hermetic CO2 glass tube

Power Supply

AC220±10% 50HZ / AC110±10% 60HZ

Maximum Engraving Width

20X16cm

Engraving speed

600mm/s

Worktable

Fixed worktable

Locating Precision

<0.01mm

Min Shaping Character

Character 2*2mm Letter:1*1mm

Operating Temperature

5°C-35°C

Resolution ratio

≤4500dpi

Control Configuration

DSP

Data transfer Interface

USB

System Environment

WINDOWS XP

Cooling Way

Water Cooling and Protection System

Graphic Format Supported

files which CorelDraw,Photoshop, AutoCAD can identifyidentify

(BMP,GIF,JPGE,PCX,TGA,TIFF,PLT,CDR,DMG,DXF,PAT,CDT,

CLK,DEX,CSL,CMX,AI,WPG,WMF,EMF,CGM,SVG,SVGZ,PCT,FMV,

GEM,CMX)

Compatible Software

CorelDraw, AutoCAD

Cutting Thickness

0-10mm(depends on different material)

Color Separation

Separation of cutting up to 256 colors

Sloping Engraving

Yes,slope can be designed discretionarily

Cuts off the water supply the protection

Yes

Packing

carton case

Optional Parts

high-grade cooling system/imported focus lens

Net Weight/Gross Weight

26kg/45kg

Machine Dimension

70x43x25cm

Package Dimension

94×59×37cm  

 

 

 

 

 

Mini laser stamp engraving machine

A laser engraving machine can be thought of as three main parts: a laser, a controller, and a surface. The laser is like a pencil - the beam emitted from it allows the controller to trace patterns onto the surface. The controller (usually a computer) controls the direction, intensity, speed of movement, and spread of the laser beam aimed at the surface. The surface is picked to match what the laser can act on.  

 

There are three main genres of engraving machines: The most common is the X-Y table where, usually, the workpiece (surface) is stationary and the laser optics move around in X and Y directions, directing the laser beam to draw vectors. Sometimes the laser is stationary and the workpiece moves. Sometimes the workpiece moves in the Y axis and the laser in the X axis. A second genre is for cylindrical workpieces (or flat workpieces mounted around a cylinder) where the laser effectively traverses a fine helix and on/off laser pulsing produces the desired image on a raster basis. In the third method, both the laser and workpiece are stationary and galvo mirrors move the laser beam over the workpiece surface. Laser engravers using this technology can work in either raster or vector mode.  

 

laser engraving cutting machine  

The point where the laser (the terms "laser" and "laser beam" may be used interchangeably) touches the surface should be on the focal plane of the laser's optical system, and is usually synonymous with its focal point. This point is typically small, perhaps less than a fraction of a millimeter (depending on the optical wavelength). Only the area inside this focal point is significantly affected when the laser beam passes over the surface. The energy delivered by the laser changes the surface of the material under the focal point. It may heat up the surface and subsequently vaporize the material, or perhaps the material may fracture (known as "glass" or "glass up") and flake off the surface. This is how material is removed from the surface to create an engraving.  

 

laser engraving cutting machine

If the surface material is vaporized during laser engraving, ventilation through the use of blowers or a vacuum pump are almost always required to remove the noxious fumes and smoke arising from this process, and for removal of debris on the surface to allow the laser to continue engraving.  

 

A laser can remove material very efficiently because the laser beam can be designed to deliver energy to the surface in a manner which converts a high percentage of the light energy into heat. The beam is highly focused and collimated - in most non-reflective materials like wood, plastics and enamel surfaces, the conversion of light energy to heat is more than {x%} efficient.[citation needed] However, because of this efficiency, the equipment used in laser engraving may heat up rather quickly. Elaborate cooling systems are required for the laser. Alternatively, the laser beam may be pulsed to decrease the amount of excessive heating.  

 

Different patterns can be engraved by programming the controller to traverse a particular path for the laser beam over time. The trace of the laser beam is carefully regulated to achieve a consistent removal depth of material. For example, criss-crossed paths are avoided to ensure that each etched surface is exposed to the laser only once, so the same amount of material is removed. The speed at which the beam moves across the material is also considered in creating engraving patterns. Changing the intensity and spread of the beam allows more flexibility in the design. For example, by changing the proportion of time (known as "duty-cycle") the laser is turned on during each pulse, the power delivered to the engraving surface can be controlled appropriately for the material.  

 

Since the position of the laser is known exactly by the controller, it is not necessary to add barriers to the surface to prevent the laser from deviating from the prescribed engraving pattern. As a result, no resistive mask is needed in laser engraving. This is primarily why this technique is different from older engraving methods.  

 

A good example of where laser engraving technology has been adopted into the industry norm is the production line. In this particular setup, the laser beam is directed towards a rotating or vibrating mirror. The mirror moves in a manner which may trace out numbers and letters onto the surface being marked. This is particularly useful for printing dates, expiry codes, and lot numbering of products traveling along a production line. Laser engraving has allowed materials made of plastic and glass to be marked "on the move". The location where the marking takes place is called a "marking laser station", an entity often found in packaging and bottling plants. Older, slower technologies such as hot stamping and pad printing have largely been phased out and replaced with laser engraving.

 

For more precise and visually decorative engravings, a laser table is used. A laser table (or "X-Y table") is a sophisticated setup of equipment used to guide the laser beam more precisely. The laser is usually fixed permanently to the side of the table and emits light towards a pair of movable mirrors so that every point of the table surface can be swept by the laser. At the point of engraving, the laser beam is focused through a lens at the engraving surface, allowing very precise and intricate patterns to be traced out.  

 

A typical setup of a laser table involves the fixed laser emitting light parallel to one axis of the table aimed at a mirror mounted on the end of an adjustable rail. The beam reflects off the mirror angled at 45 degrees so that the laser travels a path exactly along the length of the rail. This beam is then reflected by another mirror mounted to a movable trolley which directs the beam perpendicular to the original axis. In this scheme, two degrees of freedom (one vertical, and one horizontal) for etching can be represented.  

 

In other laser engraving devices such as flat table or drum engraving, the laser beam is controlled to direct most of its energy a fixed penetration depth into the material to be engraved. In this manner, only a particular depth of material is removed when the engraving takes place. A simple machined stick or angle-iron can be used as a tool to help trained technologists adjust the engraver to achieve the required focusing. This setup is preferred for surfaces which do not vary in height appreciably.

 

For surfaces that vary in height, more elaborate focusing mechanisms have been developed. Some are known as dynamic auto focus systems. They adjust the lasing parameters in real time to adapt to the changes to the material as it is being etched. Typically, the height and depth of the surface is monitored with devices tracking changes to ultrasound, infrared, or visible light aimed at the engraving surface. These devices, known as pilot beams or pilot lasers (if a laser is used) help guide the adjustments made to the lens of the laser in determining the optimal spot to focus on the surface and remove material effectively.

Laser engraving machine made in china  

"X-Y" laser engraving machines may operate in vector and raster mode.  

 

Vector engraving follows the line and curve of the pattern to be engraved, much like a pen-based plotter draws by constructing line segments from a description of the outlines of a pattern. Much early engraving of signs and plaques (laser or otherwise) used pre-stored font outlines so that letters, numbers or even logos could be scaled to size and reproduced with exactly defined strokes. Unfortunately, "fill[disambiguation needed]" areas were problematic, as cross-hatching patterns and dot-fills sometimes exhibited moiré effects or uber-patterns caused by the imprecise calculation of dot spacings. Moreover, rotations of a font or dynamic scaling often were beyond the capabilities of the font-rendering device. The introduction of the PostScript page-description language now allows much greater flexibility—now virtually anything that can be described in vectors by PostScript-enabled software like CorelDRAW or Adobe Illustrator can be outlined, filled with suitable patterns, and laser-engraved.

 

Raster engraving traces the laser across the surface in a back-and-forth slowly-advancing linear pattern that will remind one of the printhead on an inkjet or similar printer. The pattern is usually optimized by the controller/computer so that areas to either side of the pattern which aren't to be engraved are ignored and the trace across the material is thus shortened for better efficiency. The amount of advance of each line is normally less than the actual dot-size of the laser; the engraved lines overlap just slightly to create a continuity of engravure. As is true of all rasterized devices, curves and diagonals can sometimes suffer if the length or position of the raster lines varies even slightly in relation to the adjacent raster scan; therefore exact positioning and repeatability are critically important to the design of the machine. The advantage of rasterizing is the near effortless "fill" it produces. Most images to be engraved are bold letters or have large continuously-engraved areas, and these are well-rasterized. Photos are rasterized (as in printing), with dots larger than that of the laser's spot, and these also are best engraved as a raster image. Almost any page-layout software can be used to feed a raster driver for an X-Y or drum laser engraver. While traditional sign and plaque engraving tended to favor the solid strokes of vectors out of necessity, modern shops tend to run their laser engravers mostly in raster mode, reserving vector for a traditional outline "look" or for speedily marking out lines or "hatches" where a plate is to be cut.

 

Engraving Laser engraving function to improve the efficiency of the surface is carved at the smooth, rounded, carved rapidly reducing the temperature of the non-metallic material, reducing the carvings deformation and residual stress; can be widely used in a variety of non-metallic materials for fine carving fields.

 

With the complexity of cutting carving strengthen the traditional manual processing and machining equipment and technology subject to the constraints of the object to be processed low precision in certain extent, affected the quality of products and, furthermore affect economic efficiency.
Based on the laser energy density, operability, and other characteristics, in the years the production of laser equipment, based on the successful development of a new generation XP system high speed laser cutting and engraving machine. The wide range of materials processing equipment, cutting edge smooth burr-free finish, no noise, dust debris, processing speed, high precision, less waste, high efficiency, is essential for the industry and updating the best choice.

 

Mini laser stamp engraving machine

Precautions

1, the use of auto-focus, the focus should pay attention to automatic measuring rod must be tightened, otherwise the work surface to the top of the laser.
2, laser engraving machine at work, prohibit open the cover.
3, the processing time to open smoke, blowing smoke devices.
4, processing wood, paper, processing speed must be taken to avoid fire.
5, the initial user for irregular processing when the first red light positioning.
6, processing thin wood, material variability, to adjust the amplitude water for more than a small 1mm.
7, for cutting, the workpiece holder to use more than 2 cm away from the table.
8, reflective lenses and focal length lens cleaning: two fingers to pinch reflex lenses. The other hand and hold the camera lens cleaning paper to clean the lens.
9, the amount is usually carved documents, the resolution should be higher, engraving point CHEN file, the resolution should choose low point.

 

 

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