CN207802532U - The double-sided printed-circuit board of space-efficient - Google Patents
The double-sided printed-circuit board of space-efficient Download PDFInfo
- Publication number
- CN207802532U CN207802532U CN201820123265.4U CN201820123265U CN207802532U CN 207802532 U CN207802532 U CN 207802532U CN 201820123265 U CN201820123265 U CN 201820123265U CN 207802532 U CN207802532 U CN 207802532U
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- Prior art keywords
- plate body
- insulating layer
- circuit
- circuit plate
- flexible insulating
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Abstract
The utility model provides the double-sided printed-circuit board of a space-efficient comprising main circuit plate body, modular circuit plate body and the fixed frame for being fixed on modular circuit plate body on main circuit plate body;Main circuit plate body includes the bonding pad for link block circuit board body and the fixed area for being connected and fixed frame in bonding pad side is arranged, and the setting of modular circuit plate body is arranged in bonding pad, fixed frame in fixed area;Modular circuit plate body is removably secured by the first screw to be arranged in fixed frame, and fixed frame is removably secured by the second screw and is connected to main circuit plate body.The utility model is by the detachable setting of fixed frame so that after modular circuit plate body and the welding of main circuit plate body, fixed area can be used for connecting other electronic components, improve the space availability ratio of main circuit plate body.
Description
Technical field
The utility model is related to printed circuit board arrangement fields, more particularly to a kind of printed on both sides of space-efficient
Circuit board.
Background technology
With the development of printed circuit board, the development of printed circuit board is getting faster.In double-sided printed-circuit board, usually
With two ways, one is the designs that circuit layer is carried out in the front of a circuit board substrate;One is use a main circuit
Then plate is auxiliarily fixed multiple and different module boards and goes to realize double-sided design.Second of circuit design mode can be substantially
Degree promotes the efficiency of design, but in process of production, since the structure of each modular circuit is similar, frequently result in main circuit and
The problem of modular circuit docking dislocation, and existing main circuit and modular circuit docking mode, generally use contact pin or welding side
Formula realize, wherein the connection structure of contact pin once shift or loosens easily influence double-sided printed-circuit board stability.
In addition, with regard to the structure of welding manner, a fixed frame would generally be fixedly installed to fix module electricity in main circuit board
Road plate, and the two is made to carry out stable welding, but fixed frame occupies the space of a main circuit board part so that it is whole
Component arrangement pattern become smaller, be unfavorable for the space utilization of main circuit board.
Therefore, it is desirable to provide a kind of double-sided printed-circuit board of space-efficient, to solve the above technical problems.
Utility model content
The utility model embodiment provides a kind of double-sided printed-circuit board of space-efficient;It is existing two-sided to solve
The not high technical problem of the space availability ratio of main circuit board in printed circuit board.
The utility model embodiment provides a kind of double-sided printed-circuit board of space-efficient comprising main circuit plate body
With the modular circuit plate body being fixed on the main circuit plate body and for the modular circuit plate body to be fixed on institute
State the fixed frame on main circuit plate body;
The main circuit plate body includes for connecting the bonding pad of the modular circuit plate body and being arranged in the bonding pad
The fixed area for connecting the fixed frame of side, the modular circuit plate body are arranged in the bonding pad, the fixed frame
It is arranged in the fixed area;
Wherein, the modular circuit plate body is removably secured by the first screw and is arranged in the fixed frame, described
Fixed frame is removably secured by the second screw is connected to the main circuit plate body.
In the present invention, the fixed frame includes the fixation for placing the modular circuit plate body of upper and lower opening
Framework, the first fixed part for being arranged at the top of the fixed frame and extending to the fixed frame axis direction and setting are in institute
The second fixed part stated fixed frame bottom and extended backwards to the fixed frame axis direction, first fixed part are provided with
Across the first through hole of first screw, second fixed part is provided with for leading to across the second of second screw
Hole;
The module board dignity is provided with the first connecting hole, the main circuit board to one end of first fixed part
Dignity is provided with the second connecting hole to one end of second fixed part;
First screw is threadedly connected to across the first through hole in first connecting hole, and second screw is worn
Second through hole whorl is crossed to be connected in second connecting hole.
In the present invention, the main circuit plate body includes main circuit substrate, is arranged above and below the main circuit substrate
The first circuit layer on two surfaces, the first flexible insulation being arranged in the first circuit layer towards the modular circuit plate body
Layer and the first weldment for being arranged in first flexible insulating layer and being fixedly connected on the first circuit layer;
The modular circuit plate body includes modular circuit substrate, is arranged above and below the modular circuit substrate the of two surfaces
Two circuit layers, the second flexible insulating layer being arranged in the second circuit layer towards the main circuit plate body and setting are in institute
State in the second flexible insulating layer and be fixedly connected on the second weldment of the second circuit layer;
Wherein, first connecting hole includes positioned at the first perforation of the first circuit layer and positioned at the main circuit base
First threaded hole of plate;Second connecting hole includes positioned at the second perforation of the second circuit layer and positioned at module electricity
Second threaded hole of base board;First screw is threaded in across first perforation in first threaded hole, institute
The second screw is stated to be threaded in second threaded hole across second perforation.
In the present invention, it is provided with insulating layer between first screw and the first circuit layer, described second
It is provided with insulating layer between screw and the second circuit layer;The insulating layer covers the interior of first perforation and the second perforation
Wall.
In the present invention, first flexible insulating layer and the second flexible insulating layer are arranged in the fixed frame
Interior, the first circuit layer extends to the fixed area from the bonding pad.
In the present invention, the main circuit plate body further includes be electrically connected at upper and lower two first circuit layers
One via, the one end of first via towards first flexible insulating layer are arranged in first flexible insulating layer;
The modular circuit plate body further includes the second via for being electrically connected at the upper and lower the second circuit layer, and described second
The one end of via towards second flexible insulating layer is arranged in second flexible insulating layer.
In the present invention, first flexible insulating layer and the second flexible insulating layer are made of same material.
In the present invention, first flexible insulating layer and the second flexible insulating layer hot-melt adhesive paste, described
One weldment and the second weldment carry out hot weld by tin cream and are fixedly connected, and first flexible insulating layer includes one for accommodating
First holding tank of first weldment, the height of first weldment is less than the depth of first holding tank, described
Second flexible insulating layer includes one for accommodating the second holding tank of second weldment, and second weldment is from described the
Two holding tanks stretch into first holding tank.
In the present invention, first holding tank is a stepped groove, and the upper slot cross-section product of first holding tank is big
In the sectional area of first weldment, the tin cream is located in the upper slot.
In the present invention, the thickness of first weldment is more than the thickness of second weldment.
Double-sided printed-circuit board compared to the prior art, the circuitron of the space-efficient of the utility model
Plate is by the detachable setting of fixed frame so that after modular circuit plate body and the welding of main circuit plate body, fixed area can be used for connecting
Other electronic components improve the space availability ratio of main circuit plate body;Solves main electricity in existing double-sided printed-circuit board
The not high technical problem of the space availability ratio of road plate.
Description of the drawings
In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below in embodiment
Required attached drawing is briefly described.The accompanying drawings in the following description is only the section Example of the utility model, for
For those of ordinary skill in the art, without creative efforts, other can also be obtained according to these attached drawings
Attached drawing.
Fig. 1 is the structural representation of the preferred embodiment of the double-sided printed-circuit board of the space-efficient of the utility model
Figure;
Fig. 2 is after the preferred embodiment of the double-sided printed-circuit board of the space-efficient of the utility model removes fixed frame
Structural schematic diagram;
Fig. 3 is the enlarged drawing of A in Fig. 1.
Specific implementation mode
The schema in attached drawing is please referred to, wherein identical component symbol represents identical component.The following description is to be based on
Illustrated by the utility model specific embodiment, be not construed as limitation the utility model other specific realities not detailed herein
Apply example.
Referring to Fig.1 and 2, Fig. 1 is the preferred reality of the double-sided printed-circuit board of the space-efficient of the utility model
Apply the structural schematic diagram of example;Fig. 2 is that the preferred embodiment of the double-sided printed-circuit board of the space-efficient of the utility model is gone
Except the structural schematic diagram after fixed frame;Fig. 3 is the enlarged drawing of A in Fig. 1.
The double-sided printed-circuit board of the space-efficient of the present embodiment includes main circuit plate body 10 and is fixed at master
Modular circuit plate body 20 in circuit board body 10 and for modular circuit plate body 20 to be fixed on consolidating on main circuit plate body 10
Determine frame 40;
Main circuit plate body 10 includes the bonding pad 1a for link block circuit board body 20 and is arranged in the bonding pad sides 1a
For being connected and fixed the fixed area 1b of frame 40, the setting of modular circuit plate body 20 is arranged in bonding pad 1a, fixed frame 40 in fixation
Area 1b;
Wherein, modular circuit plate body 20 is fixed at by the first screw 32 in fixed frame 40, and fixed frame 40 passes through
Two screws 33 are fixedly connected on main circuit plate body 10.
The setting of fixed frame 40, on the one hand in order to improve main circuit plate body 10 and modular circuit plate body 20 when being welded
Stability, and improve protectiveness in transportational process;On the other hand, the circuit board before the present embodiment is welded
In test, the two can be subjected to contact connection by fixed frame 40, to directly be tested, provide working efficiency.
In addition, on the one hand, fixed frame 40 is threadedly coupled with main circuit plate body 10 and modular circuit plate body 20 respectively,
It is in order to keep fixed frame 40 detachable, in this way, subsequent electronics member device can be carried out using the fixed area 1b of main circuit plate body 10
The connection configuration of part, to improve the space availability ratio of main circuit plate body 10;On the other hand, using the first screw 32 and the second screw
The compaction degree of adjustment module circuit board body 20 and main circuit plate body 10 is convenient in 33 setting.
In the present invention, main circuit plate body 10 and modular circuit plate body 20 are detachably connected with fixed frame 40 respectively
Can also be to be attached by the form of plug connector or shackle member.
Specifically, please referring to Fig. 2, fixed frame 40 includes the fixed frame for placement module circuit board body 20 of upper and lower opening
Body 41, the first fixed part 42 for being arranged at the top of fixed frame 41 and extending to 41 axis direction of fixed frame and setting are in fixation
41 bottom of framework and the second fixed part 43 extended backwards to 41 axis direction of fixed frame, the first fixed part 42 are provided through the
The first through hole of one screw 32, the second fixed part 42 are provided with for the second through-hole across the second screw 33;
The one end of modular circuit plate body 20 towards the first fixed part 42 is provided with the first connecting hole 16,10 face of main circuit plate body
One end of second fixed part 43 is provided with the second connecting hole 26;
First screw 32 is threadedly connected to across first through hole in the first connecting hole 16, and the second screw 33 passes through the second through-hole
It is threadedly connected in the second connecting hole 26.
In the present embodiment, main circuit plate body 10 includes main circuit substrate 11, is arranged in about 11 two table of main circuit substrate
The first circuit layer 12 in face, 13 and of the first flexible insulating layer being arranged in the first circuit layer 12 of module oriented approach circuit board body 20
It is arranged in the first flexible insulating layer 13 and is fixedly connected on the first weldment 14 of first circuit layer 12;
Modular circuit plate body 20 includes modular circuit substrate 21, is arranged the second of about 21 two surface of modular circuit substrate
Circuit layer 22, the second flexible insulating layer 23 being arranged in the second circuit layer 22 towards main circuit plate body 10 and setting are second
Flexible insulating layer 23 is interior and is fixedly connected on the second weldment 24 of the second circuit layer 22;
Wherein the first connecting hole 16 includes positioned at the first perforation 161 of first circuit layer 12 and positioned at main circuit substrate 11
First threaded hole 162;Second connecting hole 26 includes positioned at the second perforation 261 of the second circuit layer and positioned at modular circuit substrate 21
The second threaded hole 262;First screw 32 is threaded in across the first perforation 161 in the first threaded hole 162, the second screw 33
It is threaded in the second threaded hole 262 across the second perforation 261.The setting of first perforation 161 and the second perforation 261, is
The first screw 32 and the electric connection of first circuit layer 12 and the second screw 33 and the second circuit layer 22 is avoided to be electrically connected, to
It improves main circuit plate body 10 and modular circuit plate body 20 avoids the dry of the first screw 32 and the second screw 33 when being tested
It disturbs.
Further, insulating layer 34, the second screw 33 and second are provided between the first screw 32 and first circuit layer 12
Insulating layer 34 is provided between circuit layer 22.Insulating layer 34 covers the inner wall of the first perforation 161 and the second perforation 261.It is such
Setting, it is ensured that the insulation of the first screw 32 and 12 insulating properties of first circuit layer and the second screw 33 and the second circuit layer 22
Property.
In the present embodiment, the first flexible insulating layer 13 and the second flexible insulating layer 23 are arranged in fixed frame 41, the
One circuit layer 12 extends to fixed area 1b from bonding pad 1a.Such setting is ensureing modular circuit plate body 20 and main circuit board
Under the premise of the connective stability of body 10 so that the fixed area 1b of main circuit plate body 10 can be used for after removing fixed frame 40
The other electronic components of connection, improve the space availability ratio of main circuit plate body 10.
In the present embodiment, main circuit plate body 10 further includes the first via for being electrically connected at upper and lower two first circuit layer 12
15, the one end of the first via 15 towards the first flexible insulating layer 13 is arranged in the first flexible insulating layer 13;Modular circuit plate body
20 further include the second via 25 for being electrically connected at upper and lower the second circuit layer 22, and the second via 25 is towards the second flexible insulating layer 23
One end be arranged in the second flexible insulating layer 23.
Such setting avoids the first via 15 and is electrically connected with the second circuit layer 22 and the second via 25 and the
While one circuit layer 12 is electrically connected, the connection area of the first flexible insulating layer 13 and the second flexible insulating layer 23 is improved,
To improve the stability of connection.
In the present embodiment, Fig. 1 and Fig. 3 are please referred to, the first flexible insulating layer 13 and the second flexible insulating layer 23 hot melt connect
It connects, the first weldment 14 carries out hot weld by tin cream 31 with the second weldment 24 and is fixedly connected, and the first flexible insulating layer 13 includes
One the first holding tank 131 for accommodating the first weldment 14, the height of the first weldment 14 are less than the depth of the first holding tank 131
Degree, the second flexible insulating layer 23 include one for accommodating the second holding tank 231 of the second weldment 24, and the second weldment 24 is from the
Two holding tanks 231 stretch into the first holding tank 131.
First weldment 14 is carried out hot weld with the second weldment 24 by tin cream 31 to be fixedly connected, while first is flexible exhausted
Edge layer 13 and the second flexible insulating layer 23 are welded together, and improve the stability of connection;In addition, the second weldment 24 is stretched into
The setting of first holding tank 131, plays the role of positioning, improves the precision and stability of connection.
Wherein, modular circuit plate body 20 and main circuit plate body 10 are fixed and are set into solder reflow device or wave-soldering
When being welded in standby, since the temperature in equipment is very high so that the first weldment 14 and the second weldment 24 are in tin cream 31
Weld together under effect;Simultaneously, the first flexible insulating layer 13 and the second flexible insulating layer 23 are in high temperature and fixed frame
Under 40 fixed press so that the first flexible insulating layer 13 and second insulating layer 23 generate welding effect, so that module is electric
The connection of road plate 20 and main circuit plate body 10 is more stable.
Further, the first flexible insulating layer 13 and the second flexible insulating layer 24 are made of same material.Convenient for the two
Welding when, rapidly merge, and improve the compatible degree of welding.
In the present embodiment, the first holding tank 131 is a stepped groove, and 132 sectional area of upper slot of the first holding tank 131 is more than
The sectional area of first weldment 14, tin cream 31 are located in upper slot 132.Such setting, by the upper slot 132 of the first holding tank 131
Sectional area is more than the sectional area of the first weldment 14 so that the first weldment 14 and the second weldment 24 are in the weldering for carrying out tin cream 31
When connecing, for tin cream 31 after the extruding by high temperature and fixed frame 40, extra tin cream 31 flows to the upper slot of the first holding tank 131
132;It avoids tin cream 31 to spread between the first flexible insulating layer 13 and the face of weld of the second flexible insulating layer 23, and influences to connect
The stability connect.
In the present invention, naturally it is also possible to be that the first weldment to the first holding tank stretches into the second holding tank, and
Two holding tanks are stepped groove;Can also be that the first weldment is arranged in the first holding tank, the setting of the second weldment is held second
It receives in slot, the first holding tank and the second holding tank are stepped groove;Certain tin cream is arranged always in the upper slot of stepped groove, so as to
After tin cream upper slot is flowed to after high temperature and extruding;In conclusion being provided in the side of tin cream 31 for accommodating the discharge that is squeezed
Tin cream overflow launder, overflow launder around tin cream be arranged.And in the present embodiment, upper slot 132 is overflow launder.
In the present embodiment, the thickness of the first weldment 14 is more than the thickness of the second weldment 24.Such setting so that
The endurance bigger of first weldment 14 improves stability when the two is fixed.
The operating process of the present embodiment is:
First, modular circuit plate body 20 is placed in fixed frame 40, and passes through the first screw 32,42 and of the first fixed part
The cooperation of second connecting hole 26, modular circuit plate body 20 is fixedly connected in fixed frame 40;
Then, the second plug connector 24 in modular circuit plate body 20 is directed at the first holding tank 131, and makes the second grafting
Part 24 is located in the upper slot 132 of the first holding tank 131, and tin cream 31 also is located in slot 132;
Secondly, the second fixed part 43 of fixed frame 40 is threadedly coupled by the second screw 33 and main circuit plate body 10,
And the compaction degree between adjustment module circuit board body 20 and main circuit plate body 10 so that the first flexible insulating layer 13 and second is flexible
Insulating layer 23 has a degree of crimp;
Then, the present embodiment is sent into welding equipment (solder reflow device etc.), is welded so that the first flexible insulating layer
13 and 23 welding of the second flexible insulating layer, the first weldment 14 and the second weldment 24 welded together by tin cream 31.
Finally, when needing fixed area 1b carrying out the connection of other electronic components, fixed frame 40 can be removed, will be consolidated
Determine the connection arrangement that area 1b carries out electronic component.
The operating process of the present embodiment is just completed in this way.
Double-sided printed-circuit board compared to the prior art, the circuitron of the space-efficient of the utility model
Plate is by the detachable setting of fixed frame so that after modular circuit plate body and the welding of main circuit plate body, fixed area can be used for connecting
Other electronic components improve the space availability ratio of main circuit plate body;Solves main electricity in existing double-sided printed-circuit board
The not high technical problem of the space availability ratio of road plate.
In conclusion although the utility model is disclosed above with preferred embodiment, above preferred embodiment is not used
To limit the utility model, those skilled in the art can make without departing from the spirit and scope of the utility model
It is various to change and retouch, therefore the scope of protection of the utility model is subject to the range that claim defines.
Claims (10)
1. a kind of double-sided printed-circuit board of space-efficient, which is characterized in that including main circuit plate body and be fixed at
Modular circuit plate body on the main circuit plate body and for the modular circuit plate body to be fixed on the main circuit plate body
On fixed frame;
The main circuit plate body includes for connecting the bonding pad of the modular circuit plate body and being arranged in the bonding pad side
For connecting the fixed area of the fixed frame, the modular circuit plate body setting is in the bonding pad, the fixed frame setting
In the fixed area;
Wherein, the modular circuit plate body is removably secured by the first screw and is arranged in the fixed frame, the fixation
Frame is removably secured by the second screw is connected to the main circuit plate body.
2. the double-sided printed-circuit board of space-efficient according to claim 1, which is characterized in that the fixed frame packet
It includes the fixed frame for placing the modular circuit plate body of upper and lower opening, be arranged at the top of the fixed frame and to described
The first fixed part and be arranged in the fixed frame bottom and backwards to the fixed frame axis that fixed frame axis direction extends
The second fixed part that line direction extends, first fixed part are provided through the first through hole of first screw, and described the
Two fixed parts are provided with for the second through-hole across second screw;
The module board dignity is provided with the first connecting hole, the main circuit board dignity to one end of first fixed part
One end of second fixed part is provided with the second connecting hole;
First screw is threadedly connected to across the first through hole in first connecting hole, and second screw passes through institute
The second through hole whorl is stated to be connected in second connecting hole.
3. the double-sided printed-circuit board of space-efficient according to claim 2, which is characterized in that the main circuit board
Body includes main circuit substrate, the first circuit layer on two surfaces is arranged above and below the main circuit substrate, is arranged towards the mould
The first flexible insulating layer and setting in the first circuit layer of block circuit board body is in first flexible insulating layer and solid
Surely it is connected to the first weldment of the first circuit layer;
The modular circuit plate body includes modular circuit substrate, second electricity on two surfaces above and below the modular circuit substrate is arranged
Road floor, the second flexible insulating layer being arranged in the second circuit layer towards the main circuit plate body and setting are described the
Two flexible insulating layers are interior and are fixedly connected on the second weldment of the second circuit layer;
Wherein, first connecting hole includes positioned at the first perforation of the first circuit layer and positioned at the main circuit substrate
First threaded hole;Second connecting hole includes positioned at the second perforation of the second circuit layer and positioned at the modular circuit base
Second threaded hole of plate;First screw is threaded in across first perforation in first threaded hole, and described
Two screws are threaded in across second perforation in second threaded hole.
4. the double-sided printed-circuit board of space-efficient according to claim 3, which is characterized in that first screw
It is provided with insulating layer between the first circuit layer, insulation is provided between second screw and the second circuit layer
Layer;The insulating layer covers the inner wall of first perforation and the second perforation.
5. the double-sided printed-circuit board of space-efficient according to claim 3, which is characterized in that described first is flexible
Insulating layer and the second flexible insulating layer are arranged in the fixed frame, and the first circuit layer extends to institute from the bonding pad
State fixed area.
6. the double-sided printed-circuit board of space-efficient according to claim 3, which is characterized in that the main circuit board
Body further includes the first via for being electrically connected at upper and lower two first circuit layers, and first via is flexible towards described first
One end of insulating layer is arranged in first flexible insulating layer;
The modular circuit plate body further includes the second via for being electrically connected at the upper and lower the second circuit layer, second via
One end towards second flexible insulating layer is arranged in second flexible insulating layer.
7. the double-sided printed-circuit board of space-efficient according to claim 3, which is characterized in that described first is flexible
Insulating layer and the second flexible insulating layer are made of same material.
8. the double-sided printed-circuit board of space-efficient according to claim 3, which is characterized in that described first is flexible
Insulating layer and the second flexible insulating layer hot-melt adhesive paste, first weldment and the second weldment carry out hot weld by tin cream
It being fixedly connected, first flexible insulating layer includes one for accommodating the first holding tank of first weldment, and described first
The height of weldment is less than the depth of first holding tank, and second flexible insulating layer includes one for accommodating described second
Second holding tank of weldment, second weldment stretch into first holding tank from second holding tank.
9. the double-sided printed-circuit board of space-efficient according to claim 8, which is characterized in that described first accommodates
Slot is a stepped groove, and the upper slot cross-section product of first holding tank is more than the sectional area of first weldment, the tin cream position
In in the upper slot.
10. the double-sided printed-circuit board of space-efficient according to claim 8, which is characterized in that first weldering
The thickness of fitting is more than the thickness of second weldment.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820123265.4U CN207802532U (en) | 2018-01-24 | 2018-01-24 | The double-sided printed-circuit board of space-efficient |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820123265.4U CN207802532U (en) | 2018-01-24 | 2018-01-24 | The double-sided printed-circuit board of space-efficient |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207802532U true CN207802532U (en) | 2018-08-31 |
Family
ID=63269164
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201820123265.4U Expired - Fee Related CN207802532U (en) | 2018-01-24 | 2018-01-24 | The double-sided printed-circuit board of space-efficient |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207802532U (en) |
-
2018
- 2018-01-24 CN CN201820123265.4U patent/CN207802532U/en not_active Expired - Fee Related
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Granted publication date: 20180831 Termination date: 20200124 |