CN108303165A - Linear microcomputer combination balance - Google Patents
Linear microcomputer combination balance Download PDFInfo
- Publication number
- CN108303165A CN108303165A CN201810134115.8A CN201810134115A CN108303165A CN 108303165 A CN108303165 A CN 108303165A CN 201810134115 A CN201810134115 A CN 201810134115A CN 108303165 A CN108303165 A CN 108303165A
- Authority
- CN
- China
- Prior art keywords
- plate
- vibration plate
- connect
- linear
- weighing hopper
- Prior art date
- 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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Classifications
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01G—WEIGHING
- G01G13/00—Weighing apparatus with automatic feed or discharge for weighing-out batches of material
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01G—WEIGHING
- G01G13/00—Weighing apparatus with automatic feed or discharge for weighing-out batches of material
- G01G13/02—Means for automatically loading weigh pans or other receptacles, e.g. disposable containers, under control of the weighing mechanism
- G01G13/022—Material feeding devices
- G01G13/026—Material feeding devices by mechanical conveying means, e.g. belt or vibratory conveyor
Abstract
The invention discloses a kind of linear microcomputer combination balances, including main body, pedestal, conveyer belt mechanism, buffering bucket, weighing hopper, loading plate, main vibration plate and line vibration plate, main body is mounted on the base, loading plate, main vibration plate and line vibration plate are from top to bottom installed on main body upper end successively, loading plate, main vibration plate and line vibration plate are sequentially connected, buffering bucket and weighing hopper all have two groups, and two groups of buffering buckets are respectively arranged in the upper end of main body both sides, and two groups of buffering buckets are symmetrical arranged;Two groups of weighing hoppers are respectively arranged in the lower end of main body both sides, and two groups of weighing hoppers are symmetrical arranged;Buffering bucket and weighing hopper positioned at the same side connect one to one, and the both ends of pedestal are equipped with skewed slot, and skewed slot is connect with weighing hopper, and conveyer belt mechanism is installed below skewed slot, and the blanking port of conveyer belt mechanism and skewed slot connects, and the both ends of conveyer belt mechanism are equipped with aggregate bin.The present invention can shorten the length of line vibration plate, can not only reduce line and shake the load and power of machine, also improve the uniformity that material is distributed in line vibration plate.
Description
Technical field
The present invention relates to weighing technology equipment, and in particular to a kind of linear microcomputer combination balance.
Background technology
It is usually used in material of weighing in product processing in linear microcomputer combination balance, to facilitate material being subsequently packaged.
Though current linear microcomputer combination balance can carry out weighing operation, there is also with technological deficiency:
1, main vibration plate length is long, and no decree material is uniformly distributed in main vibration plate, therefore when falling into main vibration plate, and each master shakes
Material on disk has and has less.
2, in order to make the length of line vibration plate reduce as possible, line vibration plate arrangement straggly, but this can cause line vibration plate to be stretched out too far,
And line vibration plate length is still longer, then the line machine load that shakes is big, it has to increase line and shake power of motor.
3, in products such as quantitative weighing potatoes, since volume of material is bigger, heavier-weight.Buffering is fallen into from line vibration plate
Hopper, then successively pass through weighing hopper and skewed slot when, material causes to damage due to by larger impact force.
Invention content
The purpose of the invention is to overcome above the shortcomings of the prior art, provide it is a kind of simple and reasonable for structure,
Space use can be reduced, can reduce line shake motor load and linear microcomputer combination balance that material is evenly distributed.
The purpose of the present invention is realized by the following technical solution:This linear microcomputer combination balance, including it is main body, pedestal, defeated
Tape-feed, buffering bucket, weighing hopper, loading plate, main vibration plate and line vibration plate, the main body are mounted on the base, the loading plate,
Main vibration plate and line vibration plate are from top to bottom installed on main body upper end successively, and loading plate, main vibration plate and line vibration plate are sequentially connected, described
Buffering bucket and weighing hopper all have two groups, and two groups of buffering buckets are respectively arranged in the upper end of main body both sides, this two groups of buffering buckets are symmetrical
Setting;Two groups of weighing hoppers are respectively arranged in the lower end of main body both sides, this two groups of weighing hoppers are symmetrical arranged;Buffering positioned at the same side
Bucket and weighing hopper connect one to one, and the both ends of the pedestal are equipped with skewed slot or feeding belt;
When the both ends of pedestal are equipped with skewed slot, this skewed slot is connect with weighing hopper, and the conveyer belt mechanism is installed under skewed slot
Side, and the blanking port of the conveyer belt mechanism and skewed slot connects, the both ends of the conveyer belt mechanism are equipped with aggregate bin;
When the both ends of pedestal are equipped with feeding belt, for feeding belt between weighing hopper and conveyer belt mechanism, the weighing hopper is logical
Feeding belt is crossed with conveyer belt mechanism to be connected.
Preferably, the buffering bucket is identical with the structure of weighing hopper, and the buffering bucket and weighing hopper include bucket body, bucket
Door, driving mechanism and bindiny mechanism, the bucket body include two side plates and bearing plate, and two side plates are fixed on the two of bearing plate
Side, and the bearing plate is tilted relative to the vertical edges of side plate, angle between the bearing plate and the vertical edges of side plate it is big
Small is 20 °~30 °, and the upper end of the sluice gate is connect by shaft with two side plates, and when hopper is closed, described
Medial surface of the lower end of sluice gate close to bearing plate;The driving mechanism is connect by bindiny mechanism with sluice gate.
Preferably, the driving mechanism includes motor and returning spring, this motor is installed on by mounting base under bucket body
End, the power output shaft of the motor are equipped with crank throw part, and one end of this crank throw part is equipped with roller, this roller and bindiny mechanism
Connection, described returning spring one end are connect with mounting base, and the other end of the returning spring is connect with bindiny mechanism.
Preferably, the bindiny mechanism includes pull rod, linking arm, connecting rod and replys axis, and one end of the linking arm is logical
It crosses rotary shaft and is installed on mounting base, the middle part replied axis and be fixed on linking arm, the connecting rod is installed on the another of linking arm
One end, the roller is adjacent to connecting rod to be connect;One end of the pull rod is connect with connecting rod, the other end and bucket of the pull rod
Door connection;Described returning spring one end is connect with axis connection, the other end of the returning spring is replied with mounting base.
Preferably, the sluice gate includes two wing plates and door-plate, and two wing plates are individually fixed in the both sides of door-plate, two wings
The upper end of plate is connect by shaft with two side plates respectively, the medial surface of the lower end of the door-plate close to main body.
Preferably, two wing plates and door-plate are integrally formed.
Preferably, two side plates and bearing plate are integrally formed.
Preferably, it is 170 °~180 ° that the top of the main vibration plate, which has certain angle, this angular dimension,.
Preferably, the angle of inclination size of the skewed slot is 50 °~65 °.
Preferably, it is equipped with striker plate above the line vibration plate and in conveying mechanism.
The present invention has the following advantages compared with the existing technology:
1, buffering bucket and weighing hopper are divided into two groups by this linear microcomputer combination balance, to be respectively arranged in the both sides of main body,
Then this can shorten the length of line vibration plate, improve the uniformity that material is distributed in line vibration plate.
2, buffering bucket and weighing hopper are divided into two groups by this linear microcomputer combination balance, to be respectively arranged in the both sides of main body,
To shorten the length of line vibration plate, line vibration plate does not need arrangement straggly, this not only facilitates installation, can also reduce line shake machine load and
Power.
3, as bucket structure of weighing, the bearing plate inclination in bucket body is set the buffering bucket in this linear microcomputer combination balance
It sets, so that material glides along the inclined surface of bearing plate, impact force when blanking is reduced, to reduce the damage of material.
4, buffering bucket and weighing hopper are divided into two groups by this linear microcomputer combination balance, to be symmetrically arranged on the both sides of main body,
This can reduce the length of conveyer belt in conveying mechanism, reduce the shipping time, improve work efficiency.
Description of the drawings
Fig. 1 is the structural schematic diagram of the linear microcomputer combination balance of embodiment 1.
Fig. 2 is the front view of the linear microcomputer combination balance of embodiment 1.
Fig. 3 is the side view of the linear microcomputer combination balance of embodiment 1.
Fig. 4 is the sectional view in the directions A-A in Fig. 3.
Fig. 5 is that the buffering bucket of the present invention and the structural diagrams of weighing hopper are intended to.
Fig. 6 is the perspective view of the buffering bucket and weighing hopper of the present invention.
Fig. 7 is the rearview of the buffering bucket and weighing hopper of the present invention.
Fig. 8 is the schematic diagram in the open state of the buffering bucket and weighing hopper of the present invention.
Fig. 9 is the schematic diagram of the buffering bucket and weighing hopper of the present invention being closed.
Figure 10 is the sectional view of the linear microcomputer combination balance of embodiment 2.
Wherein, based on 1,2 be pedestal, and 3 be conveyer belt mechanism, and 4 be buffering bucket, and 5 be weighing hopper, and 6 be loading plate, and 7 are
Main vibration plate, 8 be line vibration plate, and 9 be aggregate bin, and 10 be skewed slot, and 11 be bucket body, and 11-1 is side plate, and 11-2 is bearing plate, and 12 be bucket
Door, 12-1 wing plates, 12-2 is door-plate, and 13 be driving mechanism, and 13-1 is motor, and 13-2 is returning spring, and 14 be bindiny mechanism,
14-1 is pull rod, and 14-2 is linking arm, and 14-3 is connecting rod, and 14-4 is to reply axis, and 15 be shaft, and 16 be mounting base, and 17 be song
Part is turned, 18 be roller, and 19 be feeding belt, and 20 be striker plate, and a is the angle of inclination of skewed slot, and b is the vertical edges of bearing plate and side plate
Between angle.
Specific implementation mode
The invention will be further described with reference to the accompanying drawings and examples.
Embodiment 1
Linear microcomputer combination balance as shown in Figures 1 to 4, including main body, pedestal, conveyer belt mechanism, buffering bucket, weigh
Bucket, loading plate, main vibration plate and line vibration plate, the main body are mounted on the base, the loading plate, main vibration plate and line vibration plate by upper and
Under be installed on main body upper end successively, and loading plate, main vibration plate and line vibration plate are sequentially connected, and the buffering bucket and weighing hopper all have
Two groups, two groups of buffering buckets are respectively arranged in the upper end of main body both sides, this two groups of buffering buckets are symmetrical arranged;Two groups of weighing hoppers are pacified respectively
Lower end loaded on main body both sides, this two groups of weighing hoppers are symmetrical arranged;Buffering bucket and weighing hopper positioned at the same side, which correspond, to be connected
It connecing, the both ends of the pedestal are equipped with skewed slot, this skewed slot is connect with weighing hopper, and the conveyer belt mechanism is installed below skewed slot, and
The blanking port of the conveyer belt mechanism and skewed slot connects, and the both ends of the conveyer belt mechanism are equipped with aggregate bin.Specifically, conveyer belt
Mechanism is made of two groups of existing conveyer belt assemblies, this conveyer belt assembly is by conveyer belt, driving wheel, driven wheel and feeder motor structure
At.The conveyer belt of two groups of conveyer belt assemblies is corresponding with positioned at the skewed slot at pedestal both ends, i.e., the conveyer belt of conveyer belt assembly is defeated
The lower section for sending plane to be located at skewed slot feed opening, when material as skewed slot from when falling on corresponding conveyer belt, this conveyer belt send material
To corresponding aggregate bin.
In actual operation, after material is introduced into loading plate, these materials fall on main vibration plate from loading plate again, then the main machine that shakes
It drives main vibration plate to vibrate, so that the material in main vibration plate is uniformly fallen in each line vibration plate, then fallen on accordingly by each line vibration plate
Buffering bucket, then these materials be slipped to weighing hopper from buffering bucket again, then these materials pass sequentially through skewed slot and conveyer again
Enter corresponding aggregate bin after structure, to realize weighing operation.To realize above-mentioned work, buffering bucket and weighing hopper are divided into two
Group, and be respectively arranged in the both sides of main body, to avoid line vibration plate is long and arrangement straggly, This reduces both line shake machine load and
Power, also improves the uniformity of material distribution, and also improves the convenience of line vibration plate installation.
Buffering bucket is identical with the structure of weighing hopper as described in Fig. 5 to Fig. 9, the buffering bucket and weighing hopper include bucket body,
Sluice gate, driving mechanism and bindiny mechanism, the bucket body include two side plates and bearing plate, and two side plates are fixed on the two of bearing plate
Side, and the bearing plate is tilted relative to the vertical edges of side plate, angle between the bearing plate and the vertical edges of side plate it is big
Small is 20 °~30 °, and the upper end of the sluice gate is connect by shaft with two side plates, and when hopper is closed, described
The lower end of sluice gate is adjacent to the medial surface of bearing plate;The driving mechanism is connect by bindiny mechanism with sluice gate.Specifically, will bucket
Bearing plate in body is obliquely installed, and is enabled material that can be slided along the inclined surface of bearing plate and is fallen, subsequent parts are fallen on to reduce material
Impact force, avoid material from damaging.Angle of inclination size (the folder i.e. between the vertical edges of bearing plate and side plate of bearing plate
Angle) it is to be selected as 25 °.The inclined angular dimension of this bearing plate can determine such as according to actual demand, such as 20 ° or 30 °.It is working
In, as shown in figure 9, when hopper is closed, the lower end of sluice gate is mutually adjacent to bearing plate, and material stop is in hopper at this time
It is interior;As shown in figure 8, working as hopper in the open state, power output shaft of the motor by crank throw part around motor rotates, to push
Side is connected, to pull sluice gate by linking arm and pull rod, enables material slowly be slid along the inclined surface of bearing plate, to reduce object
Expect the impact force to fall.And when hopper needs to restore closed state again, motor rotates again, and roller is enabled not push connection
Bar, connecting rod is risen by the elastic force of returning spring at this time, so that sluice gate resets.This is easy to operate, reliable operation.
The driving mechanism includes motor and returning spring, this motor is installed on the lower end of bucket body by mounting base, described
The power output shaft of motor is equipped with crank throw part, and one end of this crank throw part is equipped with roller, this roller is connect with bindiny mechanism, institute
It states returning spring one end to connect with mounting base, the other end of the returning spring is connect with bindiny mechanism.Using motor as drive
Motivation structure, simple in structure, reliable operation, this drives roller to be rotated with the power output shaft of motor using motor by crank throw part,
To drive sluice gate open or close.This is easy to operate, reliable operation.And hydraulic cylinder also can be used in driving mechanism or cylinder replaces
Motor drives sluice gate open or close, to realize same effect by the telescopic rod of hydraulic cylinder or cylinder.
The bindiny mechanism includes pull rod, linking arm, connecting rod and replys axis, and one end of the linking arm passes through rotary shaft
It is installed on mounting base, the middle part replied axis and be fixed on linking arm, the connecting rod is installed on the other end of linking arm, described
Roller is adjacent to connecting rod and connect;One end of the pull rod is connect with connecting rod, and the other end of the pull rod is connect with sluice gate;Institute
It states returning spring one end and is connect with mounting base with axis connection, the other end of the returning spring is replied.The structure of this bindiny mechanism
Simply, easy for installation.To be further ensured that stability, linking arm are two, the two linking arms are respectively arranged in the two of motor
Side.
The sluice gate includes two wing plates and door-plate, and two wing plates are individually fixed in the both sides of door-plate, two wing plates it is upper
End is connect by shaft with two side plates respectively, and the lower end of the door-plate is adjacent to the medial surface of main body.The structure of this sluice gate is simple,
It is easily manufactured, and reliable operation.
Two wing plates and door-plate are integrally formed.Two side plates and bearing plate are integrally formed.This bucket body and sluice gate are all made of one
Body forming is made, this is easy to make, and stability is high.
It is 170 °~180 ° that the top of the main vibration plate, which has certain angle, this angular dimension,.Using larger angle,
It can prevent material from just being tumbled down without vibration, blanking quantity, blanking direction and the blanking of effective control material
Speed.The angular dimension of main vibration plate is 175 ° in the present embodiment.
The angle of inclination size of the skewed slot is 50 °~65 °.Skewed slot avoids material using angle appropriate and tumbled
Soon, reduction is damaged.
Striker plate is equipped with above the line vibration plate and in conveying mechanism.Striker plate can avoid material and snap into machine exterior,
It is further ensured that material is accurately transported to corresponding position.The striker plate in conveying mechanism can reduce material simultaneously
Spring ensures conveying speed.Backgauge above its center line vibration plate can be adjusted highly by screw, and the striker plate in conveying mechanism
Positioned at the both sides of conveyer belt.
Embodiment 2
This linear microcomputer combination balance is in addition to following technical characteristic with embodiment 1:Linear microcomputer combination balance, including main body, bottom
Seat, conveyer belt mechanism, buffering bucket, weighing hopper, loading plate, main vibration plate and line vibration plate, the main body are mounted on the base, it is described on
Charging tray, main vibration plate and line vibration plate it is upper again and under be installed on main body upper end successively, and loading plate, main vibration plate and line vibration plate connect successively
It connects, the buffering bucket and weighing hopper all have two groups, and two groups of buffering buckets are respectively arranged in the upper end of main body both sides, this two groups of bufferings
Bucket is symmetrical arranged;Two groups of weighing hoppers are respectively arranged in the lower end of main body both sides, this two groups of weighing hoppers are symmetrical arranged;Positioned at the same side
Buffering bucket and weighing hopper connect one to one, the both ends of the pedestal are equipped with feeding belt, and feeding belt is located at weighing hopper and conveying
Between band mechanism, the weighing hopper is connected by feeding belt with conveyer belt mechanism.This is replaced oblique in embodiment using feeding belt
Slot, to realize same splicing feeding effect.Existing feeding band structure, i.e. this implementation can be used in feeding belt in the present embodiment
Feeding belt in example is mainly made of belt and belt pulley.Because belt has certain elasticity, then the material to fall from weighing hopper
When falling on belt, impact force is few, further reduces the damage of material.Meanwhile skewed slot is replaced using conveyer belt mechanism, this can
The time transported is reduced, whole working efficiency is improved.
Above-mentioned specific implementation mode is the preferred embodiment of the present invention, can not be limited the invention, and others are appointed
The change or other equivalent substitute modes what is made without departing from technical scheme of the present invention, are included in the protection of the present invention
Within the scope of.
Claims (10)
1. linear microcomputer combination balance, it is characterised in that:Including main body, pedestal, conveyer belt mechanism, buffering bucket, weighing hopper, feeding
Disk, main vibration plate and line vibration plate, the main body are mounted on the base, and the loading plate, main vibration plate and line vibration plate are from top to bottom successively
It being installed on main body upper end, and loading plate, main vibration plate and line vibration plate are sequentially connected, the buffering bucket and weighing hopper all have two groups,
Two groups of buffering buckets are respectively arranged in the upper end of main body both sides, this two groups of buffering buckets are symmetrical arranged;Two groups of weighing hoppers are respectively arranged in
The lower end of main body both sides, this two groups of weighing hoppers are symmetrical arranged;Buffering bucket and weighing hopper positioned at the same side connect one to one, institute
The both ends for stating pedestal are equipped with skewed slot or feeding belt;
When the both ends of pedestal are equipped with skewed slot, this skewed slot is connect with weighing hopper, and the conveyer belt mechanism is installed below skewed slot, and
The blanking port of the conveyer belt mechanism and skewed slot connects, and the both ends of the conveyer belt mechanism are equipped with aggregate bin;
When the both ends of pedestal are equipped with feeding belt, feeding belt is between weighing hopper and conveyer belt mechanism, and the weighing hopper is by sending
Material strip is connected with conveyer belt mechanism.
2. linear microcomputer combination balance according to claim 1, it is characterised in that:The structure phase of the buffering bucket and weighing hopper
Together, the buffering bucket and weighing hopper include bucket body, sluice gate, driving mechanism and bindiny mechanism, and the bucket body includes two side plates
And bearing plate, two side plates are fixed on the both sides of bearing plate, and the bearing plate is tilted relative to the vertical edges of side plate, described to hold
The size of angle between fishplate bar and the vertical edges of side plate is 20 °~30 °, and the upper end of the sluice gate passes through shaft and two side plates
Connection, and when hopper is closed, the medial surface of the lower end of the sluice gate close to bearing plate;The driving mechanism passes through
Bindiny mechanism connect with sluice gate.
3. linear microcomputer combination balance according to claim 2, it is characterised in that:The driving mechanism includes motor and reply
Spring, this motor are installed on the lower end of bucket body by mounting base, and the power output shaft of the motor is equipped with crank throw part, this crank throw
One end of part is equipped with roller, this roller is connect with bindiny mechanism, and described returning spring one end is connect with mounting base, the reply
The other end of spring is connect with bindiny mechanism.
4. linear microcomputer combination balance according to claim 3, it is characterised in that:The bindiny mechanism includes pull rod, connection
Arm, connecting rod and reply axis, one end of the linking arm are installed on mounting base by rotary shaft, and the reply axis is fixed on connection
The middle part of arm, the connecting rod are installed on the other end of linking arm, and the roller is adjacent to connecting rod to be connect;The one of the pull rod
End is connect with connecting rod, and the other end of the pull rod is connect with sluice gate;Described returning spring one end and reply axis connection, described time
The other end of multiple spring is connect with mounting base.
5. linear microcomputer combination balance according to claim 2, it is characterised in that:The sluice gate includes two wing plates and door
Plate, two wing plates are individually fixed in the both sides of door-plate, and the upper end of two wing plates is connect by shaft with two side plates respectively, described
Medial surface of the lower end of door-plate close to main body.
6. linear microcomputer combination balance according to claim 5, it is characterised in that:Two wing plates and door-plate are integrally formed.
7. linear microcomputer combination balance according to claim 1, it is characterised in that:Two side plates and bearing plate are integrally formed.
8. linear microcomputer combination balance according to claim 1, it is characterised in that:The top of the main vibration plate has certain
Angle, this angular dimension are 170 °~180 °.
9. linear microcomputer combination balance according to claim 1, it is characterised in that:The angle of inclination size of the skewed slot is
50 °~65 °.
10. linear microcomputer combination balance according to claim 1, it is characterised in that:The line vibration plate top and conveying mechanism
In be equipped with striker plate.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810134115.8A CN108303165A (en) | 2018-02-09 | 2018-02-09 | Linear microcomputer combination balance |
PCT/CN2018/085167 WO2019153541A1 (en) | 2018-02-09 | 2018-04-28 | Linear microcomputer combined balance |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810134115.8A CN108303165A (en) | 2018-02-09 | 2018-02-09 | Linear microcomputer combination balance |
Publications (1)
Publication Number | Publication Date |
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CN108303165A true CN108303165A (en) | 2018-07-20 |
Family
ID=62864712
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201810134115.8A Withdrawn CN108303165A (en) | 2018-02-09 | 2018-02-09 | Linear microcomputer combination balance |
Country Status (1)
Country | Link |
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CN (1) | CN108303165A (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108871528A (en) * | 2018-07-25 | 2018-11-23 | 中山市康必威自动化机械有限公司 | A kind of low adhesion of combination balance does not bond structure |
CN110081959A (en) * | 2019-04-12 | 2019-08-02 | 广州广田包装机械有限公司 | A kind of breakage-proof type combination balance |
-
2018
- 2018-02-09 CN CN201810134115.8A patent/CN108303165A/en not_active Withdrawn
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108871528A (en) * | 2018-07-25 | 2018-11-23 | 中山市康必威自动化机械有限公司 | A kind of low adhesion of combination balance does not bond structure |
CN110081959A (en) * | 2019-04-12 | 2019-08-02 | 广州广田包装机械有限公司 | A kind of breakage-proof type combination balance |
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Application publication date: 20180720 |
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