Single Color Pad
Printing Machine | | Pad Printing Machine
is a Pad Printing machine which is light weight table top and economical version
of Pad Printing machines. This machine is 100% on durable CE frame and linear
guides and Bearings for trouble free operations for years. |
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| Specifications |
| Product
Code | BTTPn-55 |
| Printing
Area | Dia-55mm |
| Colour | Single |
| Plate
Size | 70X140X12mm |
| Max
Speed | 1600Print/hr |
| Drive | Pneumatic |
| Control | Microcontrol |
| Air
Consumption | 0.35
m 3/hr | | Power
Supply | 220V50hz |
| Power
Consumption | 15W |
| | | | Single
Color Pad Printing Machines | | We are counted
among the well-established BTPN-85 Pad Printing Machinery, Exporters from India.
To attain complete customer satisfaction, we offer customization as per the specifications
to our clients. This heavy duty precision model is easy to operate and provide
high output along with high quality resolution. Our machine is available in single
color, and has pneumatic drive with micro control. |
| Specifications |
| Product
Code | BTTPn-85 |
| Printing
Area | Dia-85mm |
| Colour | Single |
| Plate
Size | 100X210X12mm |
| Max
Speed | 1600Print/hr |
| Drive | Pneumatic |
| Control | Microcontrol |
| Air
Consumption | 0.65
m 3 /hr | | Power
Supply | 220V50hz |
| Power
Consumption | 15W |
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| Pad
printing is a printing process that can transfer a 2-D image onto a 3-D object.
This is accomplished using an indirect offset (gravure) printing process that
involves an image being transferred from the cliché via a silicone pad
onto a substrate. Pad printing is used for printing on otherwise impossible products
in many industries including medical, automotive, promotional, apparel, and electronic
objects, as well as appliances, sports equipment and toys. It can also be used
to deposit functional materials such as conductive inks, adhesives, dyes and lubricants.
Physical changes within the ink film both on the cliché and on the pad
allow it to leave the etched image area in favor of adhering to the pad, and to
subsequently release from the pad in favor of adhering to the substrate.The unique
properties of the silicone pad enable it to pick the image up from a flat plane
and transfer it to a variety of surfaces, such as flat, cylindrical, spherical,
compound angles, textures, concave, or convex surfaces. While crude forms of pad
printing have existed for centuries, it was not until the twentieth century that
the technology became suitable for widespread use. First gaining a foothold in
the watch-making industry following World War II, developments in the late 60s
and early 70s, such as silicone pads and more advanced equipment, made the printing
method far more practical. The ability to print on formerly unprintable surfaces
caught the imaginations of engineers and designers, and as a result pad printing
exploded into the mass production marketplace. Today,
pad printing is a well established technology covering a wide spectrum of industries
and applications. | Pad
printing cycle
From the home position, the sealed ink cup (an inverted
cup containing ink) sits over the etched artwork area of the printing plate, covering
the image and filling it with ink.
The sealed ink cup moves away from the
etched artwork area, taking all excess ink and exposing the etched image, which
is filled with ink. The top layer of ink becomes tacky as soon as it is exposed
to the air; that is how the ink adheres to the transfer pad and later to the substrate.
The transfer pad presses down onto the printing plate momentarily. As the pad
is compressed, it pushes air outward and causes the ink to lift (transfer) from
the etched artwork area onto the pad.
As the transfer pad lifts away, the
tacky ink film inside the etched artwork area is picked up on the pad. A small
amount of ink remains in the printing plate.
As the transfer pad moves forward,
the ink cup also moves to cover the etched artwork area on the printing plate.
The ink cup again fills the etched artwork image on the plate with ink in preparation
for the next cycle.
The transfer pad compresses down onto the substrate, transferring
the ink layer picked up from the printing plate to the substrate surface. Then,
it lifts off the substrate and returns to the home position, thus completing one
print cycle.
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