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Printing screen plate manufacturing device applied to conductive film silk screen

A technology for printing stencils and conductive films, used in printing, plate preparation, final product manufacturing, etc., and can solve problems such as mesh clogging of stencils

Pending Publication Date: 2022-05-24
深圳市亿线通电子有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In order to overcome the problem that more meshes of the stencil are easily blocked due to insufficient lamination of the stencil mold in the current stencil production process, the present invention provides a printing stencil production device applied to conductive film screens

Method used

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  • Printing screen plate manufacturing device applied to conductive film silk screen
  • Printing screen plate manufacturing device applied to conductive film silk screen
  • Printing screen plate manufacturing device applied to conductive film silk screen

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] refer to Figure 1-6, a printing screen manufacturing device applied to a conductive film screen, comprising two pipe bases 1 and 2 9 with the same structure and parallel to each other, and the whole of the pipe base 1 is a square tubular structure or a cuboid box structure , and between the upper surface of the tube seat 1 and the upper surface of the tube seat 2 9, a pallet frame 8 with a groove-shaped structure with the same opening and an upward cross-section is fixed, and an anti-stick pallet 14 is provided in the middle of the groove bottom of the pallet frame 8, And the upper surface of the anti-sticking plate 14 is polished, the upper surface of the anti-sticking plate 14 is placed with a screen mold 2, the lower surface of the screen mold 2 is also polished, and the middle of the screen mold 2 is opened with a number of mutual Through the mesh holes 26, the upper surface of the mesh plate mold 2 is fixed with a number of parallel connection bars 3, the upper su...

Embodiment 2

[0037] refer to Figure 1-7 , a printing screen manufacturing device applied to a conductive film screen. Compared with the first embodiment, the present embodiment also includes two tube bases 1 and 9 with the same structure and parallel to each other, and the tube bases 1 and 1 The whole is a square tubular structure or a cuboid box structure, and the same opening is fixed between the upper surface of the tube seat 1 and the upper surface of the tube seat 2 9 with a groove-shaped structure. The middle part of the groove bottom is provided with an anti-sticking plate 14, and the upper surface of the anti-sticking plate 14 is polished, the upper surface of the anti-sticking plate 14 is placed with a screen mold 2, and the lower surface of the screen mold 2 is also polished. And the middle of the screen mold 2 is provided with a number of mesh holes 26 that pass through each other, the upper surface of the screen mold 2 is fixed with a number of connecting bars 3 that are paral...

Embodiment 3

[0047] refer to Figure 8 , a printing screen manufacturing device applied to a conductive film screen. Compared with the first embodiment, this embodiment also includes an arcuate pressing plate 37 hinged to the end of the anti-sticking plate 14, and the inner side of the arcuate pressing plate 37 is close to the middle. The top rod 39 is fixed, the outer wall of the shaft rod 16 is sleeved with a stepped pressing wheel 38 of the same height as the top rod 39, and a tension spring 240 is fixed between the inner side of the arcuate pressing plate 37 and the end of the anti-sticking plate 14, Therefore, in use, the arcuate pressing plate 37 can be driven continuously away from the end of the anti-sticking plate 14 under the action of the stepped pressing wheel 38, and hit the end of the anti-sticking plate 14 in stages under the action of the tension spring 40. , the tremor is generated so that the solution can be uniformly fused in the mesh 26 .

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Abstract

The invention belongs to the technical field of screen plate manufacturing, particularly relates to a printing screen plate manufacturing device applied to a conductive film silk screen, and provides the following scheme aiming at the problem that in the existing screen plate manufacturing process, due to the fact that screen plate molds are not tightly attached, the number of meshes of a screen plate is large, and the screen plate is blocked. Comprising a first tube seat and a second tube seat which are identical in structure and parallel to each other, the first tube seat is integrally of a square tube structure, a supporting plate frame with an upward opening and a groove-shaped section is fixed between the upper surface of the first tube seat and the upper surface of the second tube seat, and an anti-sticking supporting plate is arranged in the middle of the groove bottom of the supporting plate frame. And the upper surface of the anti-sticking supporting plate is polished. The arch-shaped pressing plate can be driven to continuously leave from the end part of the anti-sticking supporting plate under the action of the stepped pressing wheel, and the arch-shaped pressing plate impacts the end part of the anti-sticking supporting plate stage by stage under the action of the tension spring, so that a solution can be uniformly fused in meshes due to vibration.

Description

technical field [0001] The invention relates to the technical field of stencil fabrication, in particular to a printing stencil fabrication device applied to a conductive film screen. Background technique [0002] The existing ground heating materials for buildings with electric energy as the heat source include constant power heating cables and infrared carbon thermal plastic films, all of which are single functional materials. Among them, the structure of constant power heating cable floor heating is complicated. First, lay a 25mm thick polystyrene foam board insulation layer on the concrete floor, and then lay a steel mesh, then distribute the constant power heating cables in a serpentine manner and bind them on the steel mesh, pour 30-40mm thick fine stone concrete, concrete After setting, the wooden floor is laid according to the conventional method. This kind of floor heating structure is generally thick, especially the constant power heating cable is buried in the f...

Claims

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Application Information

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IPC IPC(8): B41C1/14
CPCB41C1/14Y02P70/50
Inventor 王鹏飞王林生
Owner 深圳市亿线通电子有限公司