CN106391927A - Skew rolling rubbing and kneading type diode straightening machine - Google Patents
Skew rolling rubbing and kneading type diode straightening machine Download PDFInfo
- Publication number
- CN106391927A CN106391927A CN201610796214.3A CN201610796214A CN106391927A CN 106391927 A CN106391927 A CN 106391927A CN 201610796214 A CN201610796214 A CN 201610796214A CN 106391927 A CN106391927 A CN 106391927A
- Authority
- CN
- China
- Prior art keywords
- plate
- rolling
- belt
- rolling belt
- diode
- 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.)
- Granted
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21F—WORKING OR PROCESSING OF METAL WIRE
- B21F1/00—Bending wire other than coiling; Straightening wire
- B21F1/02—Straightening
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Apparatuses And Processes For Manufacturing Resistors (AREA)
- Control Of Conveyors (AREA)
Abstract
The invention belongs to the production technology of electronic parts, and particularly relates to a skew rolling rubbing and kneading type diode straightening machine. According to the skew rolling rubbing and kneading type diode straightening machine, first side baffles and second side baffles are arranged on the two side edges of a rack, and a material channel formed between the two second side baffles is connected with a material channel formed between the two first side baffles; a diode to be straightened passes through the material channels and is subject to rolling pressing through cooperation of two sets of rolling belts and rolling cylinders, and the diode with a bent pin is straightened. According to the straightening machine, certain included angles are formed between the rolling belts and the rolling cylinders, one end of the diode enters, and then the whole diode gradually enters, the end which enters firstly is gradually straightened, and finally the complete straightening effect is achieved. The motion directions of the second set of rolling cylinders and the motion directions of the rolling belts are opposite, the rubbing and kneading effect is formed, and the straightening effect of the whole diode is improved.
Description
Technical field
The invention belongs to electronic component production technology part, specifically a kind of tiltedly rolling rubbing type diode straightener.
Background technology
Diode is conventional electronic component in electronic circuit.Although the SMD electronic component of encapsulation miniaturization goes out now
Existing, the electronic product produced can reduce volume, may also adapt to mechanization simultaneously and automatically install, but in high current field
Close it is desired nonetheless to plug-in type encapsulates.Diode is the more electronic component of retention plug formula encapsulation, particularly commutation diode,
Because running voltage is high, electric current is big, when using paster type encapsulation, accepts the limit of use occasion creep age distance and radiating condition
System, many times or using plug-in type encapsulation.During plug-in type diode production, need through welding, encapsulation and
The techniques such as coating, the pin of the plug-in type diode finally produced not is too straight, needs to diode when dispatching from the factory
Pin carries out alignment process.Existing diode straightener mostly is through multiple choosing operations and alignment process, exists and is sieved
Except diode is more, alignment not thoroughly problem.
Content of the invention
The present invention is directed to above-mentioned deficiency, there is provided a kind of tiltedly rolling rubbing type diode straightener.
The present invention is achieved in that a kind of tiltedly rolling rubbing type diode straightener, it is characterized in that including frame, frame two
Side arranges the first side plate plate and the second side shield, the material channel of formation and two pieces first side block between two pieces second side shield
The material channel being formed between plate is connected;
Machine adds top and arranges the first feeding belt, the first feeding belt feed end setting charging baffle plate, the first feeding belt discharge end
Bottom setting pendulum shake plate, pendulum shake plate is connected with pendulum shake device outfan, and described pendulum shake plate is obliquely installed, pendulum shake plate charging side position
Under the first feeding belt discharge end and higher than pendulum shake plate discharging side, pendulum shake plate upper surface arranges the first sub-material bar, the first sub-material
Bar is extended from putting shake plate charging side to pendulum shake plate discharging side;
Pendulum shake plate lower end setting jolting plate, jolting plate is connected with shaking device outfan, and described jolting plate is obliquely installed, shake
Dynamic plate charging side is located at pendulum shake plate discharging side bottom and is higher than jolting plate discharging side, and jolting plate arranges the second sub-material
Bar, the second sub-material bar is extended from jolting plate charging side to jolting plate discharging side;
Jolting plate discharging side is divided into and is put the first taper slide, and the first taper slide is obliquely installed, the first taper slide charging side
Below jolting plate discharging side and be higher than the first taper slide discharging side, curved strip and the are gone in setting first on the first taper slide
Two go curved strip, and first goes change bar and second to go curved strip to be extended from the first oblique flitch charging side to the first taper slide discharging side,
Described first goes curved strip length to go curved strip and be crisscross arranged more than second;
First taper slide discharging side is divided into and is put the first rolling belt, arranges the first drum roll above the first rolling belt,
First drum roll rotating shaft is vertical with material direct of travel in material channel, and the first drum roll rotating shaft rolls ribbon feeding table with first
Face is parallel;First lastics plate between first drum roll and the first taper slide, described first lastics plate and the first rolling strap surface hang down
Directly, it is provided with punishment in advance gap, described first rolling belt movement driven roller rotating shaft between the first lastics plate and the first rolling belt
Projecting angle with the first drum roll rotating shaft in horizontal plane is 10 to 15 degree;
Setting the second rolling belt below first rolling belt exit side, setting second rolling above the second rolling belt
Cylinder, the second drum roll rotating shaft is vertical with material direct of travel in material channel, and the second drum roll rotating shaft is sent with the second rolling belt
Material surface is parallel;Second lastics plate, the second lastics plate and the second rolling skin are set between the second drum roll and the first rolling belt
Belt surface is vertical, is provided with punishment in advance gap between the second weak flitch and the second rolling belt, and described second rolling belt movement drives
Dynamic roller rotating shaft with and two drum roll rotating shafts horizontal plane projection angle be 10 to 15 spend;
Second rolling the belt upper surface direction of motion identical with material traveling side in material channel, the second drum roll bottom surface and
Second rolling belt is contrary with material traveling side in material channel near place's direction of motion, and the second drum roll bottom surface rolls with second
Belt is less than the second rolling belt upper surface linear velocity numerical value near place's linear velocity numerical value;
Below second rolling belt exit side, the second taper slide is set, the second taper slide is obliquely installed, and the second taper slide enters
Material side is located at below the second rolling belt exit side and is higher than the second taper slide discharging side, and the second taper slide arranges V
Shape flow distribution plate, the passage that gathers materials of inverted V-shaped flow distribution plate formation is just right with sub-material conjunction;Described Riving Box is arranged at the second taper slide discharging
On the sub-material base plate of side-lower, frame also sets up marker board, fluted disc, described choosing are chosen in setting between marker board and sub-material base plate
Fluted disc and Riving Box is taken to correspond, that chooses setting and face of cylinder axle equality on the fluted disc face of cylinder selects teeth groove, selects fluted disc by tooth
Dish axle drives.
Further, in order to improve the flowing smoothness of diode, described pendulum shake plate inclination angle is 8-10 degree, jolting plate inclination angle
For 8-10 degree, the first oblique flitch inclination angle is 50-60 degree, and the second oblique flitch inclination angle is 50-60 degree.
Further, in order to improve the flowing smoothness of diode on rolling belt, described first rolling belt and level
Face angle is 5-8 degree, and the second rolling belt and horizontal plane angle are 5-8 degree.
Further, in order to adapt to the diodes of different encapsulation, it is characterized in that, the first drum roll with first roll belt it
Between this adjustable setting of gap;This adjustable setting of gap between second drum roll and the second rolling belt.
The oblique rolling rubbing type diode straightener of the present invention, the direction of motion and the drum roll of rolling Belt Conveying diode with
Rolling belt contacts spot moving direction has the mode of angle, and the rolled belt of diode is driven the gap and drum roll between
When, one end of diode can be made to select and to enter, then gradually whole diode enters again, the one end being introduced into can by gradually alignment,
Finally reach the effect of complete alignment.By way of gradually alignment, improve the overall alignment effect of diode.Second group of rolling
In pressure device, drum roll rotation direction is contrary with rolling belt, and two contrary motions are applied on diode, can form rubbing
Effect.Rolling belt speed is higher than drum roll, and diode is totally rearward advanced, and completes the flowing of diode.By using stranding
Rub mode, further increase diode and quote alignment effect.
Brief description
Fig. 1 is the schematic top plan view of the present invention.
Fig. 2 is the A-A cross-sectional schematic of Fig. 1.
Fig. 3 is to choose fluted disc schematic diagram.
Fig. 4 is drum roll and rolling belt schematic diagram.
Fig. 5 is rolling motion schematic diagram.
Reference:1- frame, 2- shaking device, 3- pendulum shake device, 4- feeds baffle plate, 5- first feeding belt, 6- first
Side shield, 7- pendulum shake plate, 8- jolting plate, 9- first taper slide, 10- the first lastics plate, 11- first drum roll, 12- first rolls
Belt, 13- the second lastics plate, 14- second drum roll, 15- second rolling belt, 16- second side shield, 17- second taper slide,
18- Riving Box, 19- sub-material base plate, 20- selection fluted disc, 21- marker board, 22- the first sub-material bar, 23- the second sub-material bar, 24, the
One goes curved strip, and 25- second goes curved strip, and 26- gathers materials baffle plate, 27- inverted V-shaped flow distribution plate, 28- fluted disc axle, 29- punishment in advance gap, and 30- selects
Teeth groove.
Specific embodiment
In conjunction with Fig. 1 to Fig. 5, a kind of tiltedly rolling rubbing type diode straightener, it is characterized in that including frame 1,1 liang of side of frame
First side plate plate and the second side shield 16 are set, the material channel of formation and two pieces first side block between two pieces the second side shield 16
The material channel being formed between plate 6 is connected;
Machine adds top and arranges the first feeding belt 5, the first feeding belt 5 feed end setting charging baffle plate 4, and the first feeding belt 5 goes out
Material end bottom setting pendulum shake plate 7, pendulum shake plate 7 is connected with pendulum shake device 3 outfan, and described pendulum shake plate 7 is obliquely installed, pendulum shake plate 7
Charging side is located under the first feeding belt 5 discharge end and higher than pendulum shake plate 7 discharging side, and pendulum shake plate 7 upper surface arranges first point
Material strip 22, the first sub-material bar 22 feeds side from pendulum shake plate 7 and extends to pendulum shake plate 7 discharging side;
Pendulum shake plate 7 lower end setting jolting plate 8, jolting plate 8 is connected with shaking device 2 outfan, and described jolting plate 8 tilts to set
Put, jolting plate 8 charging side is located at pendulum shake plate 7 discharging side bottom and is higher than jolting plate 8 discharging side, and jolting plate 8 is arranged
Second sub-material bar 23, the second sub-material bar 23 feeds side from jolting plate 8 and extends to jolting plate 8 discharging side;
Jolting plate 8 discharging side is divided into and is put the first taper slide 9, and the first taper slide 9 is obliquely installed, and the first taper slide 9 feeds
Side is located at below jolting plate 8 discharging side and is higher than the first taper slide 9 discharging side, and setting first on the first taper slide 9 is gone
Curved strip 24 and second goes curved strip 25, and first goes change bar and second to go curved strip 25 from the first oblique flitch charging side to the first taper slide
9 discharging sides extend, and described first goes curved strip 24 length to go curved strip 25 and be crisscross arranged more than second;
First taper slide 9 discharging side is divided into and is put the first rolling belt 12, the first rolling belt 12 top setting the first rolling
Pressure cylinder 11, the first drum roll 11 rotating shaft is vertical with material direct of travel in material channel, and the first drum roll 11 rotating shaft is rolled with first
Pressure belt 12 feeding surface is parallel;First lastics plate 10 between first drum roll 11 and the first taper slide 9, described first lastics plate
10 is vertical with the first rolling belt 12 face, is provided with punishment in advance gap 29, institute between the first lastics plate 10 and the first rolling belt 12
Stating the first rolling belt 12 motion driven roller rotating shaft and projecting angle with the first drum roll 11 rotating shaft in horizontal plane is 10 to 15 degree;
Setting the second rolling belt 15 below first rolling belt 12 exit side, the second rolling belt 15 top setting second
Drum roll 14, the second drum roll 14 rotating shaft is vertical with material direct of travel in material channel, the second drum roll 14 rotating shaft and second
Rolling belt 15 feeding surface is parallel;Second lastics plate 13 is set between second drum roll 14 and the first rolling belt 12, second
Lastics plate 13 is vertical with the second rolling belt 15 surface, is provided with punishment in advance gap between the second weak flitch and the second rolling belt 15
29, described second rolling belt 15 motion driven roller rotating shaft with and two drum roll rotating shafts horizontal plane project angle be 10 to 15
Degree;
The second rolling belt 15 upper surface direction of motion is identical with material traveling side in material channel, the second drum roll 14 bottom
Face is contrary with material traveling side in material channel near place's direction of motion with the second rolling belt 15, the second drum roll 14 bottom surface and
Second rolling belt 15 is less than the second rolling belt 15 upper surface linear velocity numerical value near place's linear velocity numerical value;
Below second rolling belt 15 exit side, the second taper slide 17 is set, the second taper slide 17 is obliquely installed, and second is oblique
Slide plate 17 charging side is located at below the second rolling belt 15 exit side and is higher than the second taper slide 17 discharging side, and second tiltedly slides
Inverted V-shaped flow distribution plate 27 is arranged on plate 17, the passage that gathers materials of inverted V-shaped flow distribution plate 27 formation is just right with sub-material conjunction, the second taper slide 17
Both sides arrange the baffle plate 26 that gathers materials, and make all diodes can reach Riving Box 18;Described Riving Box 18 is arranged at the second taper slide
On sub-material base plate 19 below 17 exit sides, frame 1 also sets up marker board 21, arrange between marker board 21 and sub-material base plate 19
Choose fluted disc 20, described selection fluted disc 20 is corresponded with Riving Box 18, chooses setting and face of cylinder axle on fluted disc 20 face of cylinder
Equality select teeth groove 30, select fluted disc to be driven by fluted disc axle 28.
Further, in order to improve the flowing smoothness of diode, described pendulum shake plate 7 inclination angle is 8-10 degree, and jolting plate 8 inclines
Angle is 8-10 degree, and the first oblique flitch inclination angle is 50-60 degree, and the second oblique flitch inclination angle is 50-60 degree.
Further, in order to improve the flowing smoothness of diode on rolling belt, described first rolling belt 12 and water
Plane included angle is 5-8 degree, and the second rolling belt 15 and horizontal plane angle are 5-8 degree.
Further, in order to adapt to the diode of different encapsulation, it is characterized in that, the first drum roll 11 and first rolls belt
This adjustable setting of gap between 12;This adjustable setting of gap between second drum roll 14 and the second rolling belt 15.
When work, treat that alignment diode is added to the first feeding belt 5, alignment diode treated by the first feeding belt 5
It is sent on pendulum shake plate 7, the swing of pendulum shake device 3 output and vibrations are delivered on pendulum shake plate 7, and pendulum shake plate 7 feed side is higher than
Material side, swings simultaneously and the pendulum shake plate 7 of vibrations makes to treat that alignment diode is gradually mobile to jolting plate 8, set on pendulum shake plate 7
First sub-material bar 22 pendulum shake plate 7 is divided into wind region, can make to treat that alignment diode is relatively uniform on pendulum shake plate 7, will not
Focus on a region.Jolting plate 8 receives after alignment diode, diode also be surface the second sub-material bar 23 be divided into several
Individual region, diode is relatively uniform, will not focus on a region because of vibrations.After jolting plate 8, diode becomes diode
Relative loose, more set first go to become bar and second and go curved strip 25 on the first taper slide 9, the first taper slide 9, can
The diode very big to remove camber, when diode slips over the first taper slide 9, first goes curved strip 24 and second to go curved strip 25 to push up
Portion is set to inverted V-shaped tip, the not straight diode in diode, if camber is very big, has such as become C-shaped, V-arrangement etc., has been suspended to
First goes in curved strip 24.Curved strip 24 and second is gone to remove the diode that curved strip 25 tangles by first, by manually removing.First goes curved strip
24 length go curved strip 25 length more than second, are interspersed, that is, curved strip 24 is gone in installation one first, then install one second
Go curved strip 25, next install first again and go curved strip 24, be so interspersed.Curved strip 24 and second is gone to go curved strip 25 through first
Diode, generally be the less diode of camber.The diode that landing is got off from the first taper slide 9, through the first bullet
Flitch 10 blocks, then from the first lastics plate 10 surface slide first rolling belt 12, first rolling belt 12 do not stop be driven,
First rolling belt 12 upper surface takes to diode below the first drum roll 11, when the first drum roll 11 rotates, with the first rolling
Pressure belt 12 acts on, diode lead alignment simultaneously.In conjunction with Fig. 5, the direction of motion of the first rolling belt 12 upper surface, with the
One drum roll 11 drives the diode direction of motion to have an angle, and the rolled belt of diode is driven and drum roll between
During gap, one end of diode can be made to select and to enter, then gradually whole diode enters again.Simultaneously because the first rolling belt 12
The direction of motion of upper surface, drives the diode direction of motion to have an angle with the first drum roll 11, diode can be made to supplement
During rolling, the power with drum roll diameter parallel can be subject to, this stress is also roughly the same with diode lead direction, makes two
Pole pipe lead produces a drawing effect, is conducive to the location of a college.The one end being introduced into can be finally reached complete alignment by gradually alignment
Effect.By way of gradually alignment, improve the overall alignment effect of diode.
Act on through the second rolling belt 15 and the second drum roll 14 again, again diode alignment.
The second rolling belt 15 upper surface direction of motion is identical with material traveling side in material channel, the second drum roll 14 bottom
Face is contrary with material traveling side in material channel near place's direction of motion with the second rolling belt 15, the second drum roll 14 bottom surface and
Second rolling belt 15 is less than the second rolling belt 15 upper surface linear velocity numerical value near place's linear velocity numerical value.Diode is by school
When straight, contact with the second drum roll 14 and the second rolling belt 15, two contact point movement velocitys are contrary, and diode can be produced simultaneously
A raw rubbing effect, submits alignment effect further to, and the second rolling rubber-insulated wire line of motion velocity amplitude is more than the second drum roll simultaneously
14, diode can be made to travel forward along belt.
After the second rolling belt 15, diode enters into the second taper slide 17, and the inverted V-shaped on the second taper slide 17 divides
Stream plate can arrive diode in different Riving Boxes 18, when diode reaches Riving Box 18 bottom, enter into and choose fluted disc 20
Select in teeth groove 30, when choosing fluted disc 20 rotation, take on marker board 21 selecting the diode in teeth groove 30.After alignment, many
The pin of number diode is aligned, and the diode after being only aligned just can be slipped to and select in teeth groove 30, that is, only quilt
The diode of alignment gets to marker board 21.The diode so skidding off from marker board 21, is the diode after being aligned.
Claims (4)
1. a kind of tiltedly rolling rubbing type diode straightener, is characterized in that, including frame (1), frame (1) two side arranges the first side
Plate plate and the second side shield (16), the material channel being formed between two pieces second side shield (16) and two pieces first side shield (6)
Between formed material channel be connected;
Machine adds top and arranges the first feeding belt (5), the first feeding belt (5) feed end setting charging baffle plate (4), the first feeding belt
(5) discharge end bottom setting pendulum shake plate (7), pendulum shake plate (7) is connected with pendulum shake device (3) outfan, and described pendulum shake plate (7) tilts
Setting, pendulum shake plate (7) charging side is located under the first feeding belt (5) discharge end and higher than pendulum shake plate (7) discharging side, pendulum shake plate
(7) upper surface arranges the first sub-material bar (22), and the first sub-material bar (22) is from pendulum shake plate (7) charging side to pendulum shake plate (7) discharging
Side extends;
Pendulum shake plate (7) lower end setting jolting plate (8), jolting plate (8) is connected with shaking device (2) outfan, described jolting plate (8)
It is obliquely installed, jolting plate (8) charging side is located at pendulum shake plate (7) discharging side bottom and is higher than jolting plate (8) discharging side, shake
Dynamic plate (8) is upper to arrange the second sub-material bar (23), and the second sub-material bar (23) is from jolting plate (8) charging side to jolting plate (8) discharging
Side extends;
Jolting plate (8) discharging side is divided into and is put the first taper slide (9), and the first taper slide (9) is obliquely installed, the first taper slide (9)
Charging side is located at below jolting plate (8) discharging side and is higher than the first taper slide (9) discharging side, on the first taper slide (9)
Setting first goes curved strip (24) and second to go curved strip (25), and first goes change bar and second to go curved strip (25) by the first oblique flitch charging
Side extends to the first taper slide (9) discharging side, and described first goes curved strip (24) length to go curved strip (25) more than second and hand over
Wrong setting;
First taper slide (9) discharging side is divided into and is put the first rolling belt (12), arranges first above the first rolling belt (12)
Drum roll (11), the first drum roll (11) rotating shaft is vertical with material direct of travel in material channel, the first drum roll (11) rotating shaft
Parallel with the first rolling belt (12) feeding surface;First lastics plate between first drum roll (11) and the first taper slide (9)
(10), described first lastics plate (10) is vertical with the first rolling belt (12) face, and the first lastics plate (10) rolls belt with first
(12) it is provided with punishment in advance gap (29), described first rolling belt (12) motion driven roller rotating shaft and the first drum roll (11) between
Rotating shaft is 10 to 15 degree in horizontal plane projection angle;First rolling belt
Setting second rolling belt (15) below first rolling belt (12) exit side, setting the above the second rolling belt (15)
Two drum rolls (14), the second drum roll (14) rotating shaft is vertical with material direct of travel in material channel, and the second drum roll (14) turns
Axle is parallel with the second rolling belt (15) feeding surface;Second is arranged between second drum roll (14) and the first rolling belt (12)
Lastics plate (13), the second lastics plate (13) is vertical with the second rolling belt (15) surface, and the second weak flitch and second rolls belt
(15) it is provided with punishment in advance gap (29), described second rolling belt (15) motion driven roller rotating shaft and and two drum roll rotating shafts between
It is 10 to 15 degree in horizontal plane projection angle;Second rolling belt (15) the upper surface direction of motion is advanced with material in material channel
Fang Xiangtong, is advanced near place's direction of motion and material in material channel with the second rolling belt (15) in the second drum roll (14) bottom surface
Side is contrary, and the second drum roll (14) bottom surface is less than the second rolling belt with the second rolling belt (15) near place's linear velocity numerical value
(15) upper surface linear velocity numerical value;
Below second rolling belt (15) exit side, the second taper slide (17) is set, the second taper slide (17) is obliquely installed, second
Taper slide (17) charging side is located at below the second rolling belt (15) exit side and is higher than the second taper slide (17) discharging side,
Second taper slide (17) is upper to arrange inverted V-shaped flow distribution plate (27), and what inverted V-shaped flow distribution plate (27) was formed with sub-material conjunction is just gathering materials passage
Right;Described Riving Box (18) is arranged on the sub-material base plate (19) below the second taper slide (17) exit side, and frame also sets on (1)
Put marker board (21), between marker board (21) and sub-material base plate (19) setting choose fluted disc (20), described selection fluted disc (20) with
Riving Box (18) correspond, choose fluted disc (20) face of cylinder on setting with face of cylinder axle equality select teeth groove (30), select fluted disc
Driven by fluted disc axle (28).
2. oblique rolling rubbing type diode straightener according to claim 1, is characterized in that, described pendulum shake plate (7) inclination angle is
8-10 degree, jolting plate (8) inclination angle is 8-10 degree, and the first oblique flitch inclination angle is 50-60 degree, and the second oblique flitch inclination angle is 50-60 degree.
3. oblique rolling rubbing type diode straightener according to claim 1, is characterized in that, described first rolling belt (12)
It is 5-8 degree with horizontal plane angle, the second rolling belt (15) and horizontal plane angle are 5-8 degree.
4. oblique rolling rubbing type diode straightener according to claim 1, is characterized in that, the first drum roll (11) and first
This adjustable setting of gap between rolling belt (12);Between second drum roll (14) and the second rolling belt (15), this is adjustable in gap
Setting.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610796214.3A CN106391927B (en) | 2016-08-31 | 2016-08-31 | A kind of tiltedly rolling rubbing type diode straightener |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610796214.3A CN106391927B (en) | 2016-08-31 | 2016-08-31 | A kind of tiltedly rolling rubbing type diode straightener |
Publications (2)
Publication Number | Publication Date |
---|---|
CN106391927A true CN106391927A (en) | 2017-02-15 |
CN106391927B CN106391927B (en) | 2018-08-28 |
Family
ID=58001888
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201610796214.3A Active CN106391927B (en) | 2016-08-31 | 2016-08-31 | A kind of tiltedly rolling rubbing type diode straightener |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN106391927B (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108598010A (en) * | 2018-07-18 | 2018-09-28 | 连云港丰达电子有限公司 | Draw straight machine |
CN111014504A (en) * | 2019-12-09 | 2020-04-17 | 河北汉光重工有限责任公司 | Many pins device forming device |
CN112059065A (en) * | 2020-07-28 | 2020-12-11 | 宿迁学院 | Diode pin reshaping device |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB1462272A (en) * | 1974-03-09 | 1977-01-19 | Kopczynski J F | Machine for straightening wire-like leads of electric compo nents or other workpieces |
CN203003013U (en) * | 2013-01-07 | 2013-06-19 | 张成骏 | Primary alignment device of diode outgoing lines |
CN203140495U (en) * | 2013-02-18 | 2013-08-21 | 南通皋鑫科技开发有限公司 | Axial tube leading straightener device |
CN203541371U (en) * | 2013-09-24 | 2014-04-16 | 黄山市祁门鼎峰电子有限公司 | Diode straightening and screening machine |
-
2016
- 2016-08-31 CN CN201610796214.3A patent/CN106391927B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB1462272A (en) * | 1974-03-09 | 1977-01-19 | Kopczynski J F | Machine for straightening wire-like leads of electric compo nents or other workpieces |
CN203003013U (en) * | 2013-01-07 | 2013-06-19 | 张成骏 | Primary alignment device of diode outgoing lines |
CN203140495U (en) * | 2013-02-18 | 2013-08-21 | 南通皋鑫科技开发有限公司 | Axial tube leading straightener device |
CN203541371U (en) * | 2013-09-24 | 2014-04-16 | 黄山市祁门鼎峰电子有限公司 | Diode straightening and screening machine |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108598010A (en) * | 2018-07-18 | 2018-09-28 | 连云港丰达电子有限公司 | Draw straight machine |
CN108598010B (en) * | 2018-07-18 | 2024-02-20 | 连云港瑞而盛电子科技有限公司 | Straightening machine |
CN111014504A (en) * | 2019-12-09 | 2020-04-17 | 河北汉光重工有限责任公司 | Many pins device forming device |
CN111014504B (en) * | 2019-12-09 | 2021-05-14 | 河北汉光重工有限责任公司 | Many pins device forming device |
CN112059065A (en) * | 2020-07-28 | 2020-12-11 | 宿迁学院 | Diode pin reshaping device |
Also Published As
Publication number | Publication date |
---|---|
CN106391927B (en) | 2018-08-28 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN106391927A (en) | Skew rolling rubbing and kneading type diode straightening machine | |
CN112137161A (en) | Tobacco feeding and strip forming device | |
CN210231382U (en) | Feeding adjusting mechanism of flat plate type thread rolling machine | |
CN103737482A (en) | Automatic feeding machine of centerless grinding machine | |
CN106391928A (en) | Skew rolling type diode straightening machine | |
CN102415421B (en) | Multi-surface static washboard of fried dough twist machine and array fried dough twist twisting machine | |
CN205169605U (en) | Steel wire horizontal migration pay -off frame | |
CN104985391A (en) | Machining equipment for steel wire balls | |
CN104934143B (en) | The lining paper adding set of composite conductor | |
CN204487644U (en) | The special diced system of sheath | |
CN203712492U (en) | Automatic feeding machine for centerless grinding machine | |
CN203876270U (en) | Straw pressing block forming machine | |
CN106424173A (en) | Wire drawing device for large-specification copper alloy flat wires | |
CN209546863U (en) | The orienting device of capsicum stoner | |
CN207361477U (en) | Plug-in type receives board apparatus | |
CN206552761U (en) | Drug delivery device for welding wire production | |
CN207125302U (en) | A kind of vibratory sieve that feeds intake of Feed Manufacturing | |
CN206384496U (en) | It is a kind of that the feed arrangement of self-feeding can be realized to pin tooth | |
CN206009485U (en) | A kind of Netcom's signal end produces bending equipment | |
CN219238303U (en) | Automatic feeding device for coating machine and facilitating uniform feeding | |
CN204792187U (en) | Slip sheet of composite conductor adds device | |
CN211248126U (en) | Improved thread rolling device | |
CN106311594A (en) | A uniform material distribution device | |
CN206610689U (en) | A kind of cable twist device that character code is sprayed with automatic belting layer | |
CN219244192U (en) | Tea processing and drying equipment |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |