U.S. patent application number 14/440102 was filed with the patent office on 2016-11-03 for a packaging structure of liquid crystal panel.
This patent application is currently assigned to SHENZHEN CHINA STAR OPTOELECTRONICS TECHNOLOGY CO., LTD.. The applicant listed for this patent is SHENZHEN CHINA STAR OPTOELECTRONICS TECHNOLOGY CO., LTD. Invention is credited to Shih Hsiang CHEN, Yuchun HSIAO, Liang YUE.
Application Number | 20160318698 14/440102 |
Document ID | / |
Family ID | 50663128 |
Filed Date | 2016-11-03 |
United States Patent
Application |
20160318698 |
Kind Code |
A1 |
YUE; Liang ; et al. |
November 3, 2016 |
A Packaging Structure of Liquid Crystal Panel
Abstract
A packaging structure of liquid crystal panel, for packaging the
liquid crystal panels during transporting, the packaging structure
comprises a plurality of storage grooves, the liquid crystal panels
are placed in the packaging structure, the packaging structure
further comprises two mutual attraction pads which set on the upper
and lower sides of the liquid crystal panel, the pads are provided
for preventing the liquid crystal panel swaying and impacting on
the side wall of the storage groove during transporting. The panel
is compressed tightly by the upper pad and the lower pad, and then
be attracted and attached between the two barrier layers with the
mutual attraction from the magnetic elements. The panel cannot be
moving and swaying in vertical direction with the attraction
between the upper pad and the lower pad, in horizontal direction by
the high friction force of the barrier layer.
Inventors: |
YUE; Liang; (Shenzhen,
Guangdong, CN) ; CHEN; Shih Hsiang; (Shenzhen,
Guangdong, CN) ; HSIAO; Yuchun; (Shenzhen, Guangdong,
CN) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
SHENZHEN CHINA STAR OPTOELECTRONICS TECHNOLOGY CO., LTD |
Guangdong |
|
CN |
|
|
Assignee: |
SHENZHEN CHINA STAR OPTOELECTRONICS
TECHNOLOGY CO., LTD.
Guangdong
CN
|
Family ID: |
50663128 |
Appl. No.: |
14/440102 |
Filed: |
January 31, 2014 |
PCT Filed: |
January 31, 2014 |
PCT NO: |
PCT/CN2014/071861 |
371 Date: |
May 1, 2015 |
Current U.S.
Class: |
1/1 |
Current CPC
Class: |
B65D 2313/04 20130101;
B65D 81/127 20130101; B65D 85/48 20130101; B65D 81/113 20130101;
B65D 81/022 20130101; B65D 81/3813 20130101 |
International
Class: |
B65D 85/48 20060101
B65D085/48; B65D 81/38 20060101 B65D081/38; B65D 81/113 20060101
B65D081/113 |
Foreign Application Data
Date |
Code |
Application Number |
Jan 23, 2014 |
CN |
201410033493.9 |
Claims
1. A packaging structure of liquid crystal panel, for packaging the
liquid crystal panels during transporting, the packaging structure
comprising a plurality of storage grooves, the liquid crystal
panels being placed in the packaging structure, the packaging
structure further comprising two mutual attraction pads which set
on the upper and lower sides of the liquid crystal panel, the pads
comprising a magnetic element and a barrier layer, the barrier
layer being provided for insulating the magnetic element and the
liquid crystal panel, the liquid crystal panel being attracted and
adhered on the barrier layer with the magnetic element, the pads
being provided for preventing the liquid crystal panel swaying and
impacting on the side wall of the storage groove during
transporting.
2. The packaging structure of liquid crystal panel according to
claim 1, wherein the pads comprise an upper pad and a lower pad,
the magnetic element comprises a magnet and a metal sheet which are
respectively embedded in the upper pad and the lower pad.
3. The packaging structure of liquid crystal panel according to
claim 2, wherein the upper pad comprises two barrier layers and the
metal sheet, the metal sheet embedding between the two barrier
layers, the lower pad comprises the barrier layer and the magnet
adhering on the bottom of the storage groove.
4. The packaging structure of liquid crystal panel according to
claim 2, wherein the upper pad comprises two barrier layers and the
magnet, the magnet embedding between the two barrier layers, the
lower pad comprises the barrier layer and the metal sheet adhering
on the bottom of the storage groove.
5. The packaging structure of liquid crystal panel according to
claim 1, wherein the barrier layer is made of a material with
anti-static and high friction coefficient.
6. The packaging structure of liquid crystal panel according to
claim 5, wherein the barrier layer is made of silica gel or
polyurethane, the friction coefficient of the barrier layer is
15-20.mu..
7. The packaging structure of liquid crystal panel according to
claim 6, wherein the friction coefficient of the barrier layer is
18.mu..
8. The packaging structure of liquid crystal panel according to
claim 2, wherein a plurality of liquid crystal panel is separated
by the upper pad and the lower pad, which are parallel overlapped
and embedded into the storage grooves.
9. The packaging structure of liquid crystal panel according to
claim 2, wherein the barrier layer and metal sheet are adhering
together with adhesive.
10. The packaging structure of liquid crystal panel according to
claim 2, wherein the width of the barrier layer and the metal sheet
are the same.
11. The packaging structure of liquid crystal panel according to
claim 2, wherein the width of the upper pad and the liquid crystal
panel is the same.
12. A packaging structure of liquid crystal panel, for packaging
the liquid crystal panels during transporting, the packaging
structure comprising a plurality of storage grooves, the liquid
crystal panels being placed in the packaging structure, the
packaging structure further comprising two mutual attraction pads
which set on the upper and lower sides of the liquid crystal panel,
the pads being provided for preventing the liquid crystal panel
swaying and impacting on the side wall of the storage groove during
transporting.
13. The packaging structure of liquid crystal panel according to
claim 12, wherein the pads comprises a magnetic element and a
barrier layer, the barrier layer is provided for insulating the
magnetic element and the liquid crystal panel, the liquid crystal
panel is attracted and adhered on the barrier layer with the
magnetic element.
14. The packaging structure of liquid crystal panel according to
claim 13, wherein the pad comprises an upper pad and a lower pad,
the magnetic element comprises a magnet and a metal sheet which are
respectively embedded in the upper pad and the lower pad.
15. The packaging structure of liquid crystal panel according to
claim 14, wherein the upper pad comprises two barrier layers and
the metal sheet, the metal sheet embedding between the two barrier
layers, the lower pad comprises the bather layer and the magnet
adhering on the bottom of the storage groove.
16. The packaging structure of liquid crystal panel according to
claim 14, wherein the upper pad comprises two bather layers and the
magnet, the magnet embedding between the two barrier layers, the
lower pad comprises the barrier layer and the metal sheet adhering
on the bottom of the storage groove.
17. The packaging structure of liquid crystal panel according to
claim 13, wherein the barrier layer is made of a material with
anti-static and high friction coefficient.
18. The packaging structure of liquid crystal panel according to
claim 17, wherein the barrier layer is made of silica gel or
polyurethane, the friction coefficient of the barrier layer is
15-20.mu..
19. The packaging structure of liquid crystal panel according to
claim 13, wherein a plurality of liquid crystal panel is separated
by the upper pad and the lower pad, which are parallel overlapped
and embedded into the storage grooves.
20. The packaging structure of liquid crystal panel according to
claim 14, wherein the width of the barrier layer and the metal
sheet are the same, the width of the upper pad and the liquid
crystal panel is the same.
Description
FIELD OF THE INVENTION
[0001] The present invention relates to a packaging structure, and
more particularly to a packaging structure of liquid crystal
panel.
BACKGROUND OF THE INVENTION
[0002] Refer to FIG. 1, the current small-size OLED liquid crystal
panel is made of thin material, so the ability on stress tolerance
is poorer. For achieved better showing effect, the COF on the PCB
of the small-size OLED liquid crystal panel is too wider, and the
distance between the COF and the panel is too short, then make the
COF cannot be set the retaining wall structure in the liquid
crystal panel. During transporting, the liquid crystal panel is
easy to move to be damaged or broken without fixing.
SUMMARY OF THE INVENTION
[0003] On account of the lack of the prior art, the object of the
present invention is to provide a packaging structure to prevent
the liquid crystal panel moving in the vertical direction and the
horizontal direction.
[0004] The present invention is provided a packaging structure of
liquid crystal panel for packaging the liquid crystal panels during
transporting. The packaging structure comprises a plurality of
storage grooves. The liquid crystal panels are placed in the
packaging structure. The packaging structure further comprises two
mutual attraction pads which set on the upper and lower sides of
the liquid crystal panel. The pads are provided for preventing the
liquid crystal panel swaying and impacting on the side wall of the
storage groove during transporting.
[0005] Perfectly, the pads comprises a magnetic element and a
barrier layer, the barrier layer is provided for insulating the
magnetic element and the liquid crystal panel. The liquid crystal
panel will be attracted and adhered on the barrier layer with the
magnetic element. The pad comprises an upper pad and a lower pad.
The magnetic element comprises a magnet and a metal sheet which are
respectively embedded in the upper pad and the lower pad. The
liquid crystal panel would not be moving or swaying in vertical
direction limited by mutual attracted between the magnet and the
metal sheet, and also not be moving or swaying in horizontal
direction with the closely attaching of the barrier layer and the
liquid crystal panel.
[0006] Perfectly, the upper pad comprises two barrier layers and
the metal sheet, wherein the metal sheet is embedding between the
two barrier layers. The lower pad comprises the barrier layer and
the magnet adhering on the bottom of the storage groove.
[0007] Perfectly, the upper pad comprises two barrier layers and
the magnet, wherein the magnet is embedding between the two barrier
layers. The lower pad comprises the barrier layer and the metal
sheet adhering on the bottom of the storage groove.
[0008] Perfectly, a plurality of liquid crystal panel is provided
for separating by the upper pad and the lower pad, which are
parallel overlapped and embedded into the storage grooves.
[0009] Perfectly, the barrier layer is made of silica gel or
polyurethane which the friction coefficient is 15-20.mu..
[0010] Perfectly, the barrier layer and metal sheet are adhering
together with adhesive. On the upper pad, the width of the barrier
layer and the metal sheet are the same, the width of the upper pad
and the liquid crystal panels are also the same as.
[0011] Compared to the prior art, in the packaging structure of
liquid crystal panel of the present invention, the liquid crystal
panel is compressed tightly by the upper pad and the lower pad. The
liquid crystal panel can be attracted and attached between the two
barrier layers with the mutual attraction from the magnetic
elements of the upper pad and the lower pad, and therefore the
liquid crystal panel cannot be moved or swayed in vertical
direction during transporting. Furthermore, the barrier layer is
made of a material with anti-static and high friction coefficient,
so the liquid crystal panel cannot be moved or swayed in horizontal
direction with high friction from the barrier layer and the liquid
crystal panel. Therefore, the moving and swaying of the liquid
crystal panel will be limited effectively in the storage groove,
and then avoiding it damaging on impacting to the storage groove,
and safely protecting it during transporting.
BRIEF DESCRIPTION OF THE DRAWINGS
[0012] FIG. 1 is a perspective view of the packaging structure of
liquid crystal panel according to the prior art;
[0013] FIG. 2 is a perspective view of the packaging structure of
liquid crystal panel according to the present invention;and
[0014] FIG. 3 is a sectional view of the packaging structure of
liquid crystal panel according to the present invention.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0015] During transporting, in order to protect the packaging
liquid crystal panel and prevent it from damaging by swaying to the
storage groove, the present invention provides a packaging
structure to prevent the liquid crystal panel moving and swaying
during transporting. Refer to FIGS. 2-3, the present invention is
provided a packaging structure of liquid crystal panel for
packaging the liquid crystal panels during transporting. The
packaging structure 1 comprises a plurality of storage grooves 10.
The liquid crystal panels 20 are placed in the packaging structure
1. The packaging structure 1 further comprises two mutual
attraction pads 22 which set on the upper and lower sides of the
liquid crystal panel 20. The pads 22 are provided for preventing
the liquid crystal panel 20 swaying and impacting on the side wall
of the storage groove 10 during transporting.
[0016] Refer to FIG. 2, the packaging structure 1 is an oblong
shape groove, which provided for a plurality of storage grooves 10
mutual paralleling. The storage grooves 10 are provided for
packaging the small size liquid crystal panel 20. The pads 22
comprise a magnetic element 220 and a barrier layer 221. The
magnetic element 220 and the liquid crystal panel 20 are insulated
by the barrier layer 221. The liquid crystal panel 20 can be
attracted and attached on the barrier layer 221 by the magnetic
element 220. The magnetic element 220 and the barrier layer 221 are
combined into the pad 22 with joining together. The liquid crystal
panel 20 is attracted by the two upper pads from up and down, so as
to prevent it moving in vertical direction.
[0017] The pads comprise an upper pad 22a and a lower pad 22b. With
packaging, the liquid crystal panel 20 is clamped between the upper
pad 22a and the lower pad 22b for fixed steadily. The magnetic
element 220 and the barrier layer 221 are separately embedded into
the upper pad 22a and the lower pad 22b. The magnetic element 220
comprises a magnet 220a and a metal sheet 220b which are separately
embedded in the upper pad 22a and the lower pad 22b.
[0018] In the first embodiment, the upper pad 22a comprises two
barrier layers 221 and a metal sheet 220b which is embedded between
the barrier layers 221. The barrier layer 221 below the metal sheet
220b is adhered to the liquid crystal panel 20. The liquid crystal
panel 20 can be packaged between the two barrier layers 221. The
lower pad 22b comprises the barrier layers 221 and the metal sheet
220a. The magnet 220a is adhered on the bottom of the storage
groove 10. The barrier layer 221 of the lower pad 22b is adhered to
the barrier layer 221. The barrier layer 221 and metal sheet 220b
are adhering together with adhesive. In the upper pad 22a, the
width of the barrier layer 221 and the metal sheet 220b are the
same, the width of the upper pad 22a and the liquid crystal panel
20 is the same. The magnet 220a and the metal sheet 220b of the
upper pad 22a and the lower pad 22b are mutual attracted in
vertical direction. The liquid crystal panel 20 can be compressed
by the upper pad 22a and the lower pad 22b, so that it can be
limited in vertical direction during transporting. The magnet 220a
is insulated from the metal sheet 220b and the liquid crystal panel
20 by the bather layer 221 of the upper pad 22a and the lower pad
22b. Therefore, the liquid crystal panel 20 cannot be moved in
horizontal direction. The bather layer 221 is made of a material
with anti-static and high friction coefficient. For example, the
barrier layer is made of silica gel or polyurethane, the friction
coefficient of the barrier layer is 15-20.mu., perfectly, the
friction coefficient is 18.mu.. The liquid crystal panel 20 cannot
be moving and swaying by the high friction force during
transporting.
[0019] The multilayer liquid crystal panel 20 can be separated by
the upper pads 22a and the lower pads 22b and then be placed in the
storage groove 10 in parallel. Accordingly, there is at least one
liquid crystal panel 20 setting in the storage groove 10. The
adjoined liquid crystal panels 20 are separated by the pads. Not
only prevent the mutual colliding, and also the packed rate is
improved.
[0020] In the second embodiment, the upper pad 22a comprises two
bather layers 221 and the magnet 220a which is embedded between the
barrier layers 221. The lower pad 22b comprises the barrier layer
221 and the metal sheet 220b, wherein the metal sheet 220b is
adhered on the bottom of the storage groove 10. The liquid crystal
panel 20 cannot be moving and swaying in vertical direction with
the attraction between the upper pad and the lower pad, and in
horizontal direction by the high friction force of the bather layer
221 during transporting.
[0021] In the third embodiment, the magnetic element 220 are the
mutual attracting magnets which embedded in the upper pad 22a and
the lower pad 22b.
[0022] In the packaging structure of liquid crystal panel of the
present invention, the liquid crystal panel is compressed tightly
by the upper pad and the lower pad. The liquid crystal panel can be
attracted and attached between the two barrier layers with the
mutual attraction from the magnetic elements of the upper pad and
the lower pad, and therefore the liquid crystal panel cannot be
moved or swayed in vertical direction during transporting.
Furthermore, the barrier layer is made of a material with
anti-static and high friction coefficient, so the liquid crystal
panel cannot be moved or swayed in horizontal direction with high
friction from the barrier layer and the liquid crystal panel.
Therefore, the moving and swaying of the liquid crystal panel will
be limited effectively in the storage groove, and then avoiding it
damaging on impacting to the storage groove, and safely protecting
it during transporting.
* * * * *