Drum Stencil
Abstract
The present invention relates to a drum stencil printing system for reliably and automatically printing materials on the inside of a concave surface. The drum stencil printing system includes a pliable drum stencil secured in place by a stencil spring. As the printhead applies radial pressure to the drum stencil, the portion of the stencil in contact with the printhead is deflected to make contact with the container sidewall. When the printhead rotates, the portion of the stencil contacting the container sidewall also rotates to match the nozzle of the printhead. After printing is complete, the printhead retracts, and the pliable stencil is returned to its undeflected position, breaking contact between the stencil and the container, and protecting the printed material from being rubbed or worn off of the container.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . A drum stencil printing system for printing on a concave surface, the drum stencil printing system comprising:
a securing mechanism configured to maintain a substrate having a concave surface in a secured position; a pliable drum stencil configured to be inserted into the concave surface of the substrate when the substrate is maintained in the secured position; and a rotating printhead positioned inside of the pliable drum stencil configured to print a slurry through the drum stencil onto the concave surface of the substrate; wherein the distance between the printhead and the drum stencil is decreased as the drum stencil inserts into the concave surface; wherein the printhead applies a pressure to the drum stencil, deflecting the drum stencil to be in contact with the substrate at the point where the printhead is printing the slurry through the drum stencil; wherein the undeflected areas of the drum stencil are not in contact with the substrate.
2 . The drum stencil printing system of claim 1 , wherein the drum stencil comprises a metallic alloy frame connected by a flexible elastomer to the drum stencil printing system.
3 . The drum stencil printing system of claim 1 , wherein the drum stencil printing system is configured to print a slurry with a viscosity between 10,000 and 1,000.00 centipoise (cP) on the substrate.
4 . A drum stencil printing system for printing on a concave surface, the drum stencil printing system comprising:
a securing mechanism configured to maintain a substrate having a concave surface in a printing position; a drum stencil; a printhead configured to be inserted inside of the drum stencil configured to print a slurry through the drum stencil onto the concave surface of the substrate;
5 . The drum stencil printing system of claim 4 , wherein the printhead rotates within the drum stencil as it presses the slurry through the drum stencil onto the substrate.
6 . The drum stencil printing system of claim 5 , wherein the printhead applies a pressure to the drum stencil, deflecting the drum stencil to be in contact with the substrate at the point where the printhead is printing the slurry through the drum stencil.
7 . The drum stencil printing system of claim 6 , wherein the undeflected areas of the drum stencil are not in contact with the substrate.
8 . The drum stencil printing system of claim 5 , wherein the drum stencil is pliable.
9 . The drum stencil printing system of claim 4 , wherein the distance between the printhead and the drum stencil is decreased as the drum stencil inserts into the concave surface.
10 . The drum stencil printing system of claim 4 , wherein the drum stencil comprises thermoset, thermoplastic, elastomeric polymer, a composite material such as fiber reinforced polymer, or a combination thereof.
11 . The drum stencil printing system of claim 4 , wherein the drum stencil comprises a metallic alloy such as steel, aluminum, titanium, brass, zinc, magnesium, including those subsequently coated with anodize, film, or other surface treatment to enhance performance.
12 . The drum stencil printing system of claim 4 , wherein the drum stencil comprises a polymer, metallic alloy, composite material, a composite material such as fiber reinforced polymer, or a combination thereof fabricated from additive manufacturing.
13 . The drum stencil printing system of claim 4 , wherein the drum stencil comprises a metallic alloy frame connected by a flexible elastomer to the drum stencil printing system.
14 . The drum stencil printing system of claim 4 , wherein the drum stencil printing system is configured to print a slurry with a viscosity between 10,000 and 1,000,000 centipoise (cP) on the substrate.
15 . The drum stencil printing system of claim 14 , wherein the drum stencil printing system prints a slurry comprising a combination of two or more materials, including at least a first material that is suspended in the slurry and at least a second material that is dissolved in the slurry.
16 . The drum stencil printing system of claim 14 , wherein the drum stencil printing system prints a slurry comprising a combination of two or more materials, wherein the first material and the second material are both suspended in the slurry, and none of the materials are dissolved in the slurry.
17 . The drum stencil printing system of claim 4 , wherein the drum stencil printing system prints a slurry comprising a combination of two or more materials, wherein the first material and the second material are both partially or fully dissolved in the slurry, and none of the materials are suspended in the slurry.
18 . The drum stencil printing system of claim 4 , wherein the drum stencil is pliable.
19 . The drum stencil printing system of claim 4 , wherein the printhead applies a pressure to the drum stencil, deflecting the drum stencil to be in contact with the substrate at the point where the printhead is printing the slurry through the drum stencil.
20 . The drum stencil printing system of claim 19 , wherein the undeflected areas of the drum stencil are not in contact with the substrate.Cited by (0)
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