Zipper Type Liquid Crystal Module Packaging Bag and Method for Packaging Liquid Crystal Module with Same
Abstract
The present invention provides a zipper type liquid crystal module packaging bag and a method for packaging a liquid crystal module with the packaging bag. The packaging bag includes a bag body and a zipper mounted to the bag body. The bag body forms an opening for receiving entry of a liquid crystal module into the bag body. The zipper is mounted to the opening. Through zipping up and down the zipper, the opening is opened or closed. The bag body has inside surfaces and outside surfaces that are respectively opposite to each other. The inside surfaces are made of a soft antistatic material. The arrangement of zipper allows packaging and deposition/removal of the liquid crystal module to be done conveniently. The inside surfaces of soft antistatic material provide excellent resistance against static electricity and good protection of the surface of the liquid crystal module.
Claims
exact text as granted — not AI-modified1 . A zipper type liquid crystal module packaging bag, comprising: a bag body and a zipper mounted to the bag body, the bag body forming an opening for receiving entry of a liquid crystal module into the bag body, the zipper being mounted to the opening, whereby through zipping up and down the zipper, the opening is opened or closed, the bag body comprising inside surfaces and outside surfaces that are respectively opposite to each other, the inside surfaces being made of a soft antistatic material, the outside surfaces being structured to prevent a substantial flow of fluid therethrough so as to completely enclose and protect the liquid crystal module when the zipper is zipped up.
2 . The zipper type liquid crystal module packaging bag as claimed in claim 1 , wherein the bag body comprises a first major surface and a second major surface that are opposite to each other and a plurality of side faces connecting between the first and second major surfaces, the opening being formed in at least one of the side faces.
3 . The zipper type liquid crystal module packaging bag as claimed in claim 2 , wherein the opening is formed consecutively in three side faces, the three side faces collectively forming a U-shape, the opening being of a corresponding U-shape.
4 . The zipper type liquid crystal module packaging bag as claimed in claim 1 , wherein the bag body has an outer circumference that is shaped to correspond to an outer circumferential shape of a liquid crystal module to be packaged.
5 . The zipper type liquid crystal module packaging bag as claimed in claim 1 , wherein the soft antistatic material comprises a soft antistatic fabric or sponge.
6 . A zipper type liquid crystal module packaging bag, comprising: a bag body and a zipper mounted to the bag body, the bag body forming an opening for receiving entry of a liquid crystal module into the bag body, the zipper being mounted to the opening, whereby through zipping up and down the zipper, the opening is opened or closed, the bag body comprising inside surfaces and outside surfaces that are respectively opposite to each other, the inside surfaces being made of a soft antistatic material, the outside surfaces being structured to prevent a substantial flow of fluid therethrough so as to completely enclose and protect the liquid crystal module when the zipper is zipped up;
wherein the bag body comprises a first major surface and a second major surface that are opposite to each other and a plurality of side faces connecting between the first and second major surfaces; wherein the opening is formed consecutively in three side faces, the three side faces collectively forming a U-shape, the opening being of a corresponding U-shape; wherein the bag body has an outer circumference that is shaped to correspond to an outer circumferential shape of a liquid crystal module to be packaged; and wherein the soft antistatic material comprises a soft antistatic fabric or sponge.
7 . A method for packaging a liquid crystal module, comprising the following steps:
(1) providing a zipper type liquid crystal module packaging bag and a liquid crystal module to be packaged, wherein the zipper type liquid crystal module packaging bag comprises a bag body and a zipper mounted to the bag body, the bag body forming an opening, the zipper being mounted to the opening, the bag body comprising an inside surface and an outside surfaces that are opposite to each other, the inside surface being made of a soft antistatic material, the outside surfaces being structured to prevent a substantial flow of fluid therethrough so as to completely enclose and protect the liquid crystal module when the zipper is zipped up; (2) zipping down the zipper so as to open the opening of the bag body to allow deposition of the liquid crystal module to be packaged into the bag body; and (3) zipping up the zipper to close the opening of the bag body thereby packaging the liquid crystal module within the bag body.
8 . The method for packaging a liquid crystal module as claimed in claim 7 , wherein the bag body comprises a first major surface and a second major surface that are opposite to each other and a plurality of side faces connecting between the first and second major surfaces, the opening being formed in at least one of the side faces.
9 . The method for packaging a liquid crystal module as claimed in claim 8 , wherein the opening is formed consecutively in three side faces, the three side faces collectively forming a U-shape, the opening being of a corresponding U-shape.
10 . The method for packaging a liquid crystal module as claimed in claim 7 , wherein the bag body has an outer circumference that is shaped to correspond to an outer circumferential shape of a liquid crystal module to be packaged.
11 . The method for packaging a liquid crystal module as claimed in claim 7 , wherein the soft antistatic material comprises a soft antistatic fabric or sponge.Join the waitlist — get patent alerts
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