A kind of ignition coil rubber coating machine
The present invention relates to ignition coil process equipment field, more particularly to a kind of ignition coil rubber coating machine.
The core component of igniter is ignition coil and switching device, wherein, the structure of partial firing coil is in sky
Two groups of coils are wound on stem bar, the adhesive tape by insulating in the middle of two groups of coils separates.
Existing patent, such as Authorization Notice No. are CN104409207A, the applying date is the Chinese patent on December 18 in 2014
Disclose a kind of ignition coil rubber coating machine.Including frame, frame is provided with control cabinet, and the framework platform is provided with mounting bracket,
The bottom surface of installing plate is provided with horizontal slide rail, and slide rail is provided with along the glue feeding device of its transverse shifting, and glue feeding device front side sets
There is knife rest, knife rest front side is provided with pinch roller, and the frame of pinch roller side is provided with work stage, and work stage is provided with the work coordinated with pinch roller
Clamps, the first driver, the second driver, the 3rd driver, stepper motor are connected with control cabinet respectively by circuit.
The invention realizes the work of automatic quick parcel insulating tape, reduces artificial occupancy and improves production efficiency,
The application is to provide the work that another structure realizes automatic quick parcel.
The content of the invention
It is an object of the invention to provide a kind of ignition coil rubber coating machine, with the excellent of the quick parcel insulating tape of automation
Above-mentioned technical purpose of the invention technical scheme is that：
A kind of ignition coil rubber coating machine, including film apparatus for placing, coating unit, motor, arrangement of clutch and cut-out dress
Put, adhesive tape is bonded on the ignition coil being fixed on coating unit after being pulled out from the film apparatus for placing；During startup, institute
State motor to be connected with coating unit in the presence of arrangement of clutch, drive coating unit by adhesive tape on ignition coil
After completing cladding, the arrangement of clutch separates motor and coating unit, and motor is connected with shearing device
Drive the adhesive tape between shearing device cut-out ignition coil and film；
After cut-out adhesive tape, the motor drives shearing device to reset and out of service.
Using said structure, by the use of arrangement of clutch, it is only necessary to can simultaneously drive bag using a motor
Coating device and shearing device work, and cause that coating unit and the startup time of shearing device mutually stagger, and realize automation bag
Glue, meanwhile, reduce driving component number in equipment and without using control circuit, simplify device structure.
More preferably：The coating unit includes rotating disk and two positioned at the center of rotation both sides of rotating disk and in same
Frock clamp on the vertical curve for crossing center of rotation.
Using said structure, an ignition coil is first fixed on the frock clamp of top, adhesive tape is drawn from film
Go out to be bonded on ignition coil, now, then an ignition coil is fixed on the frock clamp of lower section, and start rotating disk rotation
180 ° so that adhesive tape clings two ignition coils simultaneously, then cuts off the adhesive tape between two ignition coils by cutoff tool, in cut-out
Afterwards, the ignition coil of lower section is to complete encapsulated, then next ignition coil is fixed on frock clamp, repeats above-mentioned action and is
More preferably：The shearing device includes pivoted arm, cutoff tool and the slide rail for cutoff tool sliding, the cut-out
It is provided with to be rotationally connected with sliding block in the sliding block slid on cutoff tool, the pivoted arm and be controlled by motor on knife and turns
Dynamic, the cutoff tool is rotated with pivoted arm and reciprocatingly moved.
Using said structure, drive cutoff tool along being resetted after slide rail sliding cut-out adhesive tape by pivoted arm rotation, drive electricity
Machine rotates one and encloses（I.e. 360 °）Cutoff tool completes a reciprocating action.
More preferably：The arrangement of clutch is including the first travelling gear for driving rotating disk, for driving pivoted arm
The second travelling gear and be controlled by motor rotation clutch gear, the clutch gear be a sector gear, it is described
Sector gear is engaged with the first travelling gear and the second travelling gear successively in rotation process.
Using said structure, drive sector gear to rotate by motor, nibbled with the first travelling gear in sector gear
During conjunction, the first travelling gear is rotated and drives rotating disk rotation to realize encapsulated action；When sector gear is separated with the first travelling gear,
Sector gear turns to side where the second travelling gear, the second travelling gear of drive is now engaged with the second travelling gear and is rotated,
Second travelling gear is rotated and drives pivoted arm to rotate realization cut-out adhesive tape.
More preferably：The segment angle of the sector gear is equal to 180 °.
180 ° are rotated because the first travelling gear needs to drive, and the second travelling gear needs to drive pivoted arm to rotate
360 °, so their gearratios between sector gear are different, using said structure, it is easy to implement the setting of traditional ratio.
More preferably：The arrangement of clutch includes that the first driving member, the second driving member, clutch part and clutch drive
Device, the clutch part is controlled by clutch-drive and produces the opposite reciprocating action of two moving directions, in first reciprocal shape
During state, the clutch part connects the first driving member and motor and drives the rotation of the first driving member, and the rotating disk is controlled by the
One driving member；During in second reciprocal state, the clutch part is separated with the first driving member and connects the second driving member and drive
Dynamic motor drives the second driving member to rotate, and the pivoted arm is controlled by the second driving member.
Using said structure, motor drives clutch part to rotate, while clutch part is produced in the presence of clutch-drive
The opposite reciprocating action of raw two moving directions, the first driving member and the are connected to by two reciprocating actions by clutch part successively
On two driving members, realize successively to the control of the first driving member and the second driving member, so as to drive rotating disk and pivoted arm work successively.
More preferably：The clutch part includes embedded eccentric stiffener and is rotatably connected on embedded eccentric stiffener two ends
The first rotary shaft and the second rotary shaft, the clutch-drive is a stepper motor and its rotating shaft is inclined with embedded eccentric stiffener
Heart wheel is connected；The first drive gear and the second drive gear are provided with the motor, it is fixed in first rotary shaft
Have the 3rd travelling gear for being engaged with the first drive gear all the time, be fixed with second rotary shaft all the time with the second sliding tooth
Take turns the 4th travelling gear of engagement.
Using said structure, the first rotary shaft and second is driven to rotate by the first drive gear and the second drive gear
Axle is rotated, reverse reciprocal to drive the first rotary shaft and the second rotary shaft to take turns doing with movable eccentric wheel by clutch-drive
More preferably：Clutch connection part is provided between first rotary shaft and the first driving member, the clutch connects
Fitting includes that the plug connector being respectively arranged on the first rotary shaft, the first driving member and clamping are grabbed, and the clamping is grabbed and is available for plug connector
Grafting simultaneously slides, and the end face that the plug connector is grabbed towards clamping is in circular arc, and the clamping packet capturing includes two claw bars and located at pawl
The SDeflector of boom end；The clutch connection part is also equipped between second rotary shaft and the second driving member.
Using said structure, realized by clutch connection part between the first rotary shaft and the first driving member（Or second rotate
Between axle and the second driving member）Connection, simultaneously as the first rotary shaft be connected with the first driving member drive the first driving member turn
When dynamic, in order to keep rotary state, the first rotary shaft may proceed to towards the movement of the first driving member, therefore be provided by the setting of claw bar
Movement of the plug connector in clamping is grabbed.
More preferably：The first Helical gear Transmission group is provided between first driving member and rotating disk, described second passes
The second Helical gear Transmission group is provided between moving part and pivoted arm.
Using said structure, the rotation of rotating disk and pivoted arm is realized by two Helical gear Transmission groups.
More preferably：The film apparatus for placing includes idler roller and the lacquer disk(-sc) of putting for placing film, described
Tight roller is located to be put between lacquer disk(-sc) and rotating disk.
Using said structure, tensioning and transportation rubber belt are provided for by idler roller so that winding it is even closer smooth.
In sum, the invention has the advantages that：By the setting of arrangement of clutch, dress is driven using one or two
Put and be capable of achieving and background technology identical effect, and realize the quick parcel insulating tape of automation.
Brief description of the drawings
Fig. 1 is the structural representation of embodiment one；
Fig. 2 is the A portions enlarged drawing of Fig. 1；
Fig. 3 is the partial structural diagram of the present embodiment；
Fig. 4 is the structural representation of frock clamp；
Fig. 5 is the structural representation of embodiment two；
Fig. 6 is the structural representation of arrangement of clutch in embodiment two.
In figure, 1, shell；11st, start button；2nd, lacquer disk(-sc) is put；21st, limiting plate；22nd, fixing axle；23rd, rotation dish；231st, spiral shell
Rasp bar；232nd, stop nut；233rd, through hole；234th, buckling groove；24th, idler roller；241st, bidirectional helical；25th, driven gear；26、
Regulating arm；261st, waist type groove；3rd, rotating disk；31st, frock clamp；311st, mounting seat；312nd, locating rod；3121st, spring jumps pearl；
3122nd, fixture block；32nd, driving gear；4th, adhesive tape；5th, ignition coil；6th, cutoff tool；61st, tool rest；611st, sliding block；62nd, blade；63、
Slide rail；64th, pivoted arm；65th, hairbrush；66th, chute；7th, motor；71st, the second drive gear；72nd, the first drive gear；8th, from
Attach together and put；81st, the second travelling gear；82nd, clutch gear；83rd, the first travelling gear；84th, the second driving member；85th, the first transmission
Part；86th, clutch-drive；87th, clutch part；871st, the second rotary shaft；8711st, the 4th travelling gear；872nd, eccentric stiffener is embedded；
8721st, framework；8722nd, eccentric wheel；873rd, the first rotary shaft；8731st, the 3rd travelling gear；9th, clutch connection part；91st, grafting
Part；92nd, clamping is grabbed；921st, SDeflector；10A, the second Helical gear Transmission group；10B, the first Helical gear Transmission group.
The present invention is described in further detail below in conjunction with accompanying drawing.
This specific embodiment is only explanation of the invention, and it is not limitation of the present invention, people in the art
Member can make the modification without creative contribution to the present embodiment as needed after this specification is read, but as long as at this
All protected by Patent Law in the protection domain of invention.
Embodiment 1：A kind of rubber coating machine of ignition coil 5, as shown in figures 1 and 3, including shell 1, it is provided with shell 1
Motor 7 and arrangement of clutch 8, are provided with film apparatus for placing, coating unit and shearing device outside shell 1, and adhesive tape 4 is from described
It is bonded on the ignition coil 5 being fixed on coating unit after being pulled out in film apparatus for placing；Arrangement of clutch 8 is used to switch driving
The driven object of motor 7, adhesive tape 4 is completed cladding when coating unit is driven on ignition coil 5, is filled when cut-out is driven
When putting, cut-out completes the ignition coil 5 after parcel and the connection between adhesive tape 4, and once-through operation is completed after completing cutting, and equipment is stopped
Reference picture 1, coating unit includes rotating disk 3 and frock clamp 31, and rotating disk 3 is rounded, and frock clamp 31 has two, edge
Vertical direction is in set one on the other, and two frock clamps 31 are respectively positioned at the both sides in the center of circle of rotating disk 3.As shown in figure 4, frock is pressed from both sides
Tool 31 includes mounting seat 311 and locating rod 312, and locating rod 312 is fixed in mounting seat 311, and two are provided with mounting seat 311
Waist-shaped hole, mounting seat 311 is fixed on rotating disk 3 by bolt through waist-shaped hole.The vertical dial 3 of locating rod 312 is set, in its side
One end of mounting seat 311 fixture block 3122 is provided with wall to coordinate to realize ignition coil 5 with the draw-in groove on ignition coil 5
It is circumferential spacing, spring is additionally provided with its side wall and jumps pearl 3121 to contradict and press the inwall of ignition coil 5, increased a little with this
Resistance between live wire circle 5 and locating rod 312.
Referring to Figures 1 and 2, film apparatus for placing includes idler roller 24 and puts lacquer disk(-sc) 2 for place film, puts lacquer disk(-sc) 2
The upper left corner of shell 1 is fixedly mounted on, a fixing axle 22 is provided with, a rotation dish is rotatably connected in fixing axle 22
23, the axial line of two threaded rods 231 parallel with fixing axle 22, two threaded rods 231 and fixing axle 22 is fixed with rotation dish 23
It is in the same plane, stop nut 232 is threaded with threaded rod 231, by spacing screw thread by the limiting plate of a circle
21 are removably mounted on threaded rod 231.Two through holes being oppositely arranged with threaded rod 231 are provided with the end face of limiting plate 21
233, the side of each through hole 233 is both provided with a buckling groove 234 connected with through hole 233, and buckling groove 234 sets in circular arc
Put, stop nut 232 is transferred in buckling groove 234 fixation for realizing limiting plate 21 by rotary spacing plate 21.
Idler roller 24 is located at rotating disk 3 and puts between lacquer disk(-sc) 2, its end for being installed on a regulating arm 26, in regulating arm 26
The other end is provided with waist type groove 261, and regulating arm 26 is fixed on shell 1 through waist type groove 261 by bolt.
Reference picture 1, shearing device includes pivoted arm 64, cutoff tool 6 and the slide rail 63 for the sliding of cutoff tool 6, and cutoff tool 6 is located at
Rotating disk 3 includes two horizontally disposed cylindrical slide bars, is set on the tool rest 61 of cutoff tool 6 relative to the side for putting lacquer disk(-sc) 2, slide rail 63
It is equipped with two through hole 233 to be passed through for slide bar and coordinated with slide bar, the blade 62 of cutoff tool 6 is in horizontal positioned and the blade court of blade 62
Set to rotating disk 3, hairbrush 65 is respectively and fixedly provided with both sides about 62 in the blade of cutoff tool 6.
Wherein, reference picture 2, are provided with driving gear 32 on the excircle of rotating disk 3, and one end of idler roller 24 is through regulation
Arm 26 is fixedly connected with a driven gear 25, and driving gear 32 is engaged with driven gear 25, and between idler roller 24 and regulating arm 26
Connection is rotated, bidirectional helical 241 is provided with the lateral wall of idler roller 24.
Reference picture 3, arrangement of clutch 8 includes the first travelling gear 83, the second travelling gear 81 and clutch gear 82, and first passes
Moving gear 83 is parallel with rotating disk 3 and is fixed with the center of circle of rotating disk 3 by a rotating shaft.Second travelling gear 81 is by a rotating shaft and turns
The end connection of arm 64, pivoted arm 64 is provided with what is vertically set located at the outside of shell 1 on the tool rest 61 of cutoff tool 6
Chute 66, the other end of pivoted arm 64 is matched somebody with somebody with chute 66 by a cylindrical slider 611 and merges and can be slid along chute 66.
Clutch gear 82 is a sector gear, and sector gear is fixedly connected in the rotating shaft of motor 7 and its segment angle
Equal to 180 °, sector gear, the first travelling gear 83 and the second travelling gear 81 are located at and are same as in plane, are rotated in sector gear
During, engaged with the first travelling gear 83 and the second travelling gear 81 successively, wherein, the number of teeth on sector gear is the first biography
The half of the number of teeth on moving gear 83 is identical with the number of teeth on the second travelling gear 81.
Motor 7 is a stepper motor, and rotating one after starting every time encloses.
Start button 11 is additionally provided with shell 1 to control motor 7.
Encapsulated principle：After film installation is completed, an ignition coil 5 is plugged into determining on the frock clamp 31 of top
On the bar 312 of position and fix, then the adhesive tape 4 on film is pulled out, its back side is abutted idler roller 24, after idler roller 24 is bypassed
It is adhered on ignition coil 5, and an ignition coil 5 is installed on the frock clamp 31 of lower section.Now started by press button 11
Start motor 7, now clutch gear 82 engages drive rotating disk 3 with the first travelling gear 83 and rotates, when rotating disk 3 rotates 180 °
Clutch gear 82 separates beginning with the first travelling gear 83 and is engaged with the second travelling gear 81 afterwards, and now rotating disk 3 stops operating, on
Just mutually replace lower two frock clamps 31 position.
Because clutch gear 82 is engaged with the second travelling gear 81, now pivoted arm 64 rotates, and drives cutoff tool 6 to cut off
Adhesive tape 4 between two frock clamps 31, pivoted arm 64 returns to starting point after rotating 360 °, and now motor 7 just rotates 360 °.And glue
The surface of ignition coil 5 is pressed onto after being cut off with 4 in the presence of hairbrush 65 so that connect between the ignition coil 5 and adhesive tape 4 of top
Junction product becomes big, and connectivity robustness is higher.
Embodiment 2：As shown in figure 5, be with the difference of embodiment 1, arrangement of clutch 8 include the first driving member 85,
Second driving member 84, clutch part 87 and clutch-drive 86, clutch-drive 86 are a stepper motor, its rotation after starting every time
Reference picture 6, clutch part 87 includes embedded eccentric stiffener 872, the first rotary shaft 873 and the second rotary shaft 871, embeds
Eccentric stiffener 872 includes eccentric wheel 8722 and framework 8721, and eccentric wheel 8722 is fixedly connected in the rotating shaft of clutch-drive 86
And in framework 8721, when eccentric wheel 8722 is rotated, framework 8721 is moved left and right with eccentric wheel 8722.First rotary shaft
873 and second rotary shaft 871 be rotatably connected on the both sides of framework 8721 respectively and moved with framework 8721, in turning for motor 7
The first drive gear 72 and the second drive gear 71, the rotating shaft of motor 7 and the first rotary shaft 873 and second are provided with axle
Rotary shaft 871 is parallel, and the 3rd travelling gear for being engaged with the first drive gear 72 all the time is fixed with the first rotary shaft 873
8731, the 4th travelling gear 8711 for being engaged with the second drive gear 71 all the time is fixed with the second rotary shaft 871, wherein, the
The rotating ratio of one rotary shaft 873 and the second rotary shaft 871 is 1：2.
First driving member 85 and the second driving member 84 are located at the both sides of the first rotary shaft 873 and the second rotary shaft 871 respectively,
First driving member 85 and the second driving member 84 are a helical gear, and a rotating shaft and a helical gear are fixed with the circle of rotating disk 3
Connect it and the first Helical gear Transmission group of formation is engaged with the first driving member 85, a rotating shaft is fixed with pivoted arm 64 and is connected with a helical gear
Connect it and the second Helical gear Transmission group 10A of formation is engaged with the second driving member 84.
Wherein, reference picture 5 and Fig. 6, clutch connection part 9, clutch are provided between the first driving member 85 and the first rotary shaft 873
Connector 9 includes that plug connector 91 and clamping grab 92, and plug connector 91 is fixed on the end of the first rotary shaft 873, and it is in cuboid
Shape, one end for grabbing 92 towards clamping is in circular arc.92 back sides for being fixed on the first driving member 85 are grabbed in clamping, and clamping grabs 92 includes two
Claw bar and the SDeflector 921 located at claw bar end, clamping grab the setting of claw bar on 92 for can be in clamping after the grafting of plug connector 91
To grab continue in 92 and slide to keep the rotation of the first driving member 85.It is also provided between the second driving member 84 and the second rotary shaft 871
There is above-mentioned clutch connection part 9.