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A process for printing mobile phone antenna

A mobile phone antenna and printing antenna technology, which is applied in the field of mobile phone antenna ink, can solve problems such as drop, short circuit, antenna and metal or plastic frame are not firmly bonded, to improve productivity, shorten time, and shorten printing hours Effect

Active Publication Date: 2016-01-27
SHENZHEN HAIDEMEN ELECTRONICS CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, in these existing methods, the antenna is not firmly bonded to the metal or plastic frame, and it falls to the PCB board to cause a short circuit

Method used

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  • A process for printing mobile phone antenna
  • A process for printing mobile phone antenna
  • A process for printing mobile phone antenna

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0028] (1) Insert the PIN pin into the frame or case of the antenna to be printed;

[0029] (2) Print ink with strong adhesion on the PIN needle;

[0030] (3) drying at 60-200°C;

[0031] (4) Print the antenna on the frame or casing with conductive ink;

[0032] (5) Drying at 60-200°C to obtain the product.

[0033] A process for printing mobile phone antennas, the process comprises the following steps:

[0034] (1) Melt the PIN needle on the plastic casing of the antenna to be printed using conventional hot-melt technology, and the PIN needle is made of copper material;

[0035] (2) Print ink with strong adhesion on the PIN pin by screen printing;

[0036] (3) drying at 60°C;

[0037] (4) Use conductive ink to print the antenna on the frame or casing by screen printing;

[0038] (5) drying at 80°C to obtain the product.

[0039] The strong printing ink (being Primer printing ink) of the adhesive strength that adopts in the above-mentioned steps comprises the component ...

Embodiment 2

[0047] A process for printing mobile phone antennas, the process comprises the following steps:

[0048] (1) Insert the PIN needle into the frame or casing of the antenna to be printed using conventional ultrasonic technology, and the material of the PIN needle is a gold-plated plastic PIN needle;

[0049] (2) Print ink with strong adhesion on the PIN pin by transfer printing;

[0050] (3) drying at 200°C;

[0051] (4) Use conductive ink to print the antenna on the ferrite frame by transfer printing;

[0052] (5) drying at 200°C to obtain the product.

[0053] The strong printing ink (being Primer printing ink) that adopts in the above-mentioned steps comprises the component of following weight portion content: basic resin acrylic resin (Acrylresin) 50; Auxiliary resin isocyanate resin (Isocyanateresin) 15; Adhesive agent 2.0; Thickener 2.0; organic solvent xylene 21. The above-mentioned inks can be prepared by conventional methods. The following method can be used to pre...

Embodiment 3

[0056] A process for printing mobile phone antennas, the process comprises the following steps:

[0057] (1) Insert the PIN needle into the frame or casing of the antenna to be printed by conventional cold pressing technology, and the material of the PIN needle is copper material;

[0058] (2) Print ink with strong adhesion on the PIN needle by pad printing;

[0059] (3) drying at 100°C;

[0060] (4) Use conductive ink to print the antenna on the frame by transfer printing;

[0061] (5) drying at 100°C to obtain the product.

[0062] The strong printing ink (being Primer printing ink) that adopts in the above-mentioned steps comprises the component of following weight portion content: basic resin alkyd resin (Alkydresin) 35; Auxiliary resin amino resin (Aminoresin) 8; Adhesive agent 1; Thickening Agent 1; organic solvent acetic acid 30. The above-mentioned inks can be prepared by conventional methods. The following method can be used to prepare the raw materials according...

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PUM

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Abstract

The invention relates to a technological method used for printing a mobile phone antenna. The technological method comprises following steps: (1) PIN needles are printed with an ink with high adhesive force; (2) the PIN needles are dried at a temperature of 60 to 200 DEG C; (3) the PIN needles, which are printed with the ink and obtained in step (2), are inserted into a frame or a casing of the mobile phone antenna which is to be printed; and (4) the frame or the casing is printed with the mobile phone antenna using a conductive printing ink; and (5) the mobile phone antenna is dried at a temperature of 60 to 200 DEG C so as to obtain the mobile phone antenna. Compared with existing technology, printing times of the technological method are reduced, production yield is increased, and production cost is reduced.

Description

technical field [0001] The invention relates to an ink for a mobile phone antenna, in particular to a process for printing a mobile phone antenna. Background technique [0002] Nowadays, the development of electronic products is changing with each passing day, and the functions are becoming more and more powerful, while the products are getting smaller and thinner. As one of the important components of electronic products, the performance and size of antennas are directly related to the quality of electronic products. With the miniaturization of wireless communication products, built-in antennas gradually replace external antennas and become the mainstream of antenna design. [0003] For example, the existing mobile phone antennas are usually prepared by the following methods: first. Utilize the Flexible Printed Circuit Board (Flexible Printed Circuit Board) process, referred to as FPCB or FPC, which is a printed circuit board with graphics made of flexible substrates. It c...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B41M5/00C09D11/107C09D11/105C09D11/104H01Q1/24H01Q1/38H01Q1/50
Inventor 李起忠杨流国
Owner SHENZHEN HAIDEMEN ELECTRONICS CO LTD
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