Summary of the invention
The utility model in view of the above shortcomings of the prior art, provide a kind of reasonable in design, tube forming quality compared with
Intelligent automatic bobbin-winding machine good, maintenance cost is cheap.
Technical problem to be solved in the utility model is achieved through the following technical solutions.The utility model is one
The intelligent automatic bobbin-winding machine of kind, including rack, its main feature is that, it is anti-equipped with being set gradually along yarn moving direction in the rack
Break wire device, Wire Wheel, tension force meter length measuring mechanism, pendulum yarn feeding device and coiling apparatus, coiling apparatus include shaft, and shaft passes through
Bearing block is rotatably arranged in rack, and shaft is set upwards there are two bendable cylinder arm arranged side by side, two cylinder arms it is mutually inside
Side is symmetrically arranged with the supporting element of the support yarns cylinder in a manner of clamping or loosen yarn bobbin, is equipped on front side of cylinder arm corresponding with yarn bobbin
It is arranged and is supported the drive roll that the yarn bobbin of part clamping moves in a circle to contact friction mode driving, the machine on the outside of drive roll
Frame is equipped with bracket, and the both ends roll shaft of drive roll passes through bearing respectively and is rotatably installed on bracket, sets in the rack on the outside of bracket
Dynamic cabinet and revolving power mechanism, wherein one end roll shaft of drive roll pass through power box and drive phase with revolving power mechanism
It connects;
The pendulum yarn feeding device includes the swing rod being located at below drive roll, and one end of swing rod beyond drive roll and is equipped with for yarn
The yarn guiding ring passed through, the other end of swing rod are connected with down-set balance staff, and balance staff is connected by bearing with gantry rotation, swing rod
The rack of lower section is equipped with cylindrical cam, and the axis of cylindrical cam and the axis of drive roll are arranged in parallel, and revolving power mechanism is logical
It crosses and is located at headstock intracorporal transmission device driving cylindrical cam and rotates about the axis thereof, curve ditch is provided on the cylindrical cam
Slot, cylindrical cam outside, which is equipped with, passes through guide runner and curved grooves with swing rod guide rod disposed in parallel, one end of guide rod
It abuts, the other end balance staff of guide rod is affixed.
Further, the cylinder arm includes upper clamping end and lower connecting pin, and supporting element is located at clamping end, and cylinder arm passes through
Lower connecting pin connects with shaft in synchronous rotary, and the cylinder arm between upper clamping end and lower connecting pin is by the first bent plate, the second bent plate
And wave-shape board or buckplate composition between the first and second bent plate, the first and second bent plate is arranged in parallel, and the first and second bent plate
Bending angle be 110-165 °.
Further, the transmission device includes transmission shaft, the driving wheel being located on transmission shaft side by side and seperated belt wheel,
And eccentric wheel assembly, the power output end of revolving power mechanism are equipped with output wheel, output wheel is by driving belt and is located at master
Driving wheel on the roll shaft of dynamic roller is drivingly connected, and driving wheel is connected by the first belt with driving wheel, and seperated belt wheel is only by two
Vertical symmetrical wheel disc composition, is equipped with the distance adjustor of two wheel disc spacing of adjustment, eccentric wheel assembly packet on transmission shaft
Include eccentric wheel and driven wheel, eccentric wheel is connected by gear drive with driven wheel, driven wheel by belt gear with
Seperated belt wheel connects, and belt gear includes drive shaft, is installed with main drive wheel and time driving wheel, main driving in drive shaft side by side
Wheel is connected by the second belt with seperated belt wheel, and eccentric wheel is located in the second belt between main drive wheel and seperated belt wheel and opens
Tight second belt, secondary driving wheel are connected by third belt with driven wheel.
Further, the wire breakage preventing device includes the top plate, guide rail and pedestal from top to bottom successively to connect, and pedestal is solid
Determine on the rack, top plate is equipped with the fast pulley wound for yarn to fixing axle, fixing axle is externally provided with, and fast pulley passes through bearing and turns
Dynamic to be mounted in fixing axle, guide rail is equipped with counterweight block, and counterweight block is slidably connected with guide rail, and counterweight block is equipped with and consolidates
The axis of dead axle shifting axle disposed in parallel, shifting axle are equipped with the movable pulley wound for yarn, and movable pulley is rotated by bearing
It is mounted on shifting axle, the first microswitch is additionally provided on guide rail, counterweight block is equipped with and is correspondingly arranged with the first microswitch
Touch pressing plate.
Further, the bobbin-winding machine further includes the output device of yarn bobbin, and output device includes that winding is pushed to complete
Yarn bobbin be detached from active roller surface pushing assisted plate and reception be propelled the yarn bobbin that plate pushes down and the output board output it, help
Push plate and output board are respectively provided at the front and rear sides of drive roll, and output board includes the separation set gradually along yarn bobbin outbound course
The check plate and supporting plate of formula, pushing assisted plate, check plate and supporting plate pass through corresponding overturning regulating mechanism respectively and rotationally set
On the rack, check plate is bent downwardly extension close to one end of drive roll and forms oblique backplate, the downward extended line of oblique backplate and master
The tangent line of dynamic roller is parallel, and check plate is equipped with the thread cutting mechanism of yarn below one end of supporting plate, supporting plate be located at two cylinder arms it
Between and thereafter end beyond cylinder arm and extending to form the limit plate for preventing an arm from rotating backward to the left and right;
The overturning regulating mechanism of the check plate includes torsion shaft, connection swing arm and adjusts cylinder, and torsion shaft is fixed on only
Board bottom portion is gone back to, the one end for connecting swing arm is fixed on torsion shaft, is connected the other end of swing arm and is adjusted the piston rod head of cylinder
Hingedly, the cylinder body for adjusting cylinder is fixed on the rack, and the torsion shaft between check plate and connection swing arm passes through connection frame and bracket
Connect, is rotatablely connected between torsion shaft and connection frame by bearing;
The trailing arm for pushing the axis rotation around the shaft of cylinder arm is equipped between drive roll and cylinder arm, trailing arm is close to one end of cylinder arm
Equipped with the idler wheel being slidably matched with cylinder arm lower surface, trailing arm is close to one end of drive roll on the torsion shaft of check plate bottom.
Further, pass through return spring phase between the connection swing arm lower part and the bracket of close connection swing arm side
It connects, the rack on the outside of return spring is equipped with the second microswitch, connects the touch that the second microswitch is correspondingly provided in swing arm
Briquetting.
Further, the thread cutting mechanism includes the cutter seat being located on swing rod on methods, rack, and cutter seat includes blade,
Blade and positioning sliding block are equipped in blade, positioning sliding block is slidably matched with blade, and cutter groove is equipped in positioning sliding block, and blade is removable
Dynamic is located in cutter groove, and the rear end face of positioning sliding block is equipped with the anti-drop block of blade, and anti-drop block is equipped with the through-hole penetrated through with cutter groove,
Cutting cylinder is equipped in blade on rear side of positioning sliding block, the piston rod surface movable sleeve for cutting cylinder is connected to reset spring, resets
The both ends of spring are abutted with the cylinder body of cutting cylinder and anti-drop block respectively, and the end for cutting the piston rod of cylinder is logical by being threaded through
Push rod in hole connects with blade, be additionally provided in blade towards blade cutting edge setting blade block, blade block with
Blade between positioning sliding block is equipped with yarn slot, is provided with the yarn communicated with yarn slot on blade and leads mouth, blade rear portion is downward
Protrusion forms the base portion of cutter seat, is symmetrically arranged on the outside of the left and right of cutter seat and grabs line plate, grabs one end and the base hinge of line plate,
The other end for grabbing line plate, which is equipped with, to be arranged towards yarn and leads the corresponding gripper of mouth with yarn, is grabbed line plate and is passed through articulated linkage and rack
Connect, rack is equipped with the rotating drive mechanism to connect by being located at the rotating connector below articulated linkage with base portion.
Further, which further includes shock attenuation device, which includes being located at the intracorporal linkage swinging of headstock
Arm, power box include vertically arranged boxboard, and linkage swing arm connects with the intracorporal shaft of headstock is protruded into synchronous rotary, connection
Convex pressure arm is equipped with above movable pendulum arm, the upper end for the swing arm that links and the lower end surface of convex pressure arm slide against, convex pressure
One end of arm and boxboard are hinged and form fixed rotating fulcrum, and the other end of convex pressure arm is hinged with hingedly connecting of setting up
The upper end of bar, articulated linkage is hinged by articulated shaft and boxboard, and articulated linkage surface is arranged with compressed spring, compressed spring upper end
It is abutted with the articulated shaft, the articulated linkage of compressed spring lower end is equipped with the adjusting nut for adjusting compressed spring decrement.
Further, the linkage swing arm top is equipped with the rotation that can be rotated on optical axis on optical axis to optical axis is externally provided with
Block is abutted, linkage swing arm is slid against by the arc lower end face that rotation abuts block and convex pressure arm.
Further, the bobbin-winding machine further includes barrel-clamping device, and barrel-clamping device includes the cylinder casket being located on front side of drive roll,
Rack is equipped with drives a rotational power mechanism for casket rotation in such a way that cylinder casket is close to or far from drive roll, and cylinder casket has above to enter
Mouth and lower outlet, the space between upper inlet and lower outlet are the down going channel of empty yarn bobbin, and down going channel is provided with several skies
Yarn bobbin is equipped with the elastic compression wheel for preventing sky yarn bobbin from falling in the lower exit of cylinder casket, and the left and right sides of cylinder casket is set respectively
There is the baffle for preventing sky yarn bobbin from moving along its axis direction, the cylinder casket between the baffle of the left and right sides is equipped with connecting rod, gear
Plate is rotatably arranged in connecting rod, and connecting rod is equipped with torsional spring, and the both ends of torsional spring are stuck under baffle upper end and connecting rod simultaneously
On the cylinder casket of side.
Compared with prior art, yarn successively passes through wire breakage preventing device, Wire Wheel, tension force meter leader to the utility model
It after structure, pendulum yarn feeding device, is wound by coiling apparatus, the cylinder arm for being symmetrical arranged and being relatively rotated with rack using two is to yarn
Cylinder is clamped, when cylinder arm, which carries empty yarn bobbin, to be rotated to drive roll, the gravity of cylinder arm and yarn bobbin self weight in part
Under the action of, yarn bobbin can tightly push down drive roll.In winding thread, revolving power mechanism drives cylindrical cam rotation, guiding
Sliding block is relatively moved with the curved grooves on cylindrical cam, and then guide rod is driven to do reciprocal fortune along cylinder cam axle
It is dynamic, so that swing rod and yarn guiding ring move back and forth on the direction parallel with the axis of cylindrical cam simultaneously, at the same time, drive roll
Also it rotates under the action of revolving power mechanism, and is rotated using frictional force drives yarn bobbin, realize yarn on yarn bobbin
Steady winding fundamentally changes using bad phenomenons such as yarn overlying, lousiness caused by groove drum guide.Moreover, because cylinder
It is to be slidably connected between cam curve groove, reduces the frictional force between components, reduce frictional dissipation when operation, from
And it ensure that the service life of bobbin-winding machine.The utility model structure is simple, and tube forming quality is high, and maintenance cost is low, uses the longevity
Life length.
Specific embodiment
Specific embodiment of the present utility model is described in detail with reference to the accompanying drawings.
As shown in Figs. 1-5, a kind of intelligent automatic bobbin-winding machine, including rack 1, equipped with along yarn moving direction in rack 1
Wire breakage preventing device 2, Wire Wheel 15, tension force meter length measuring mechanism 8, pendulum yarn feeding device 6 and the coiling apparatus 5 set gradually, spiral dress
Setting 5 includes shaft 502, and shaft 502 is rotatably arranged in rack 1 by bearing block, and shaft 502 sets that there are two arranged side by side upwards
Bendable cylinder arm 501, the phase of two cylinder arms 501 is symmetrically arranged with inwardly supports yarn in a manner of clamping or loosen yarn bobbin 11
The supporting element of spool 11 is equipped on front side of cylinder arm 501 and is correspondingly arranged with yarn bobbin 11 and is supported part to contact friction mode driving
The rack 1 of the drive roll 504 that the yarn bobbin 11 of clamping moves in a circle, 504 outside of drive roll is equipped with bracket 17, drive roll
504 both ends roll shaft 5041 is rotatably installed on bracket 17 by bearing respectively, and it is dynamic that the rack 1 in 17 outside of bracket is equipped with rotation
Force mechanisms 52 and power box 14, wherein one end roll shaft 5041 of drive roll 504 pass through power box 14 and and rotating power machine
Structure 52 is drivingly connected;The revolving power mechanism 52 can be disclosed in the prior art or commercially available any one can answer
For the revolving power mechanism 52 of the utility model, such as rotary drive motor, rotary drive motor can be by the prior art
Existing transmission mechanism (such as driving belt, the belt pulley on the power output shaft of rotary drive motor and is mounted in roll shaft
Belt pulley on 5041) connect with the roll shaft 5041 of drive roll 504, the speed under the drive of rotary drive motor of drive roll 504
Up to 1200/min.Set curved boom structure for cylinder arm, both increased when being contacted with drive roll 504 yarn bobbin 11 downwards by
Pressure, also leave installation space for other components of bobbin-winding machine.If other of 501 lower section of drive roll 504 or cylinder arm
When part occurs abnormal, lifting cylinder arm 501, easy access can be directly rotated.
Tension force meter length measuring mechanism 8 described in the utility model can be disclosed in the prior art or commercially available any one
Kind can control yarn tension, keep yarn tension constant, be provided simultaneously with the tension force meter length measuring mechanism for counting long function,
Such as: manufacturer is U.S. Textrol labs company, and product name is the tensometer of Horizontal Tension Meter.
Cylinder arm 501 includes upper clamping end 5011 and lower connecting pin 5015, and supporting element is located at clamping end 5011, cylinder arm 501
Connected with shaft 502 in synchronous rotary by lower connecting pin 5015, the cylinder arm between upper clamping end 5011 and lower connecting pin 5015
501 by the first bent plate 5012, the second bent plate 5013 and 5014 structure of wave-shape board or buckplate between the first and second bent plate
At the first and second bent plate is arranged in parallel, and the bending angle of the first and second bent plate is obtuse angle.Built-in wave-shape board and buckplate 5014
Structure can save manufacture raw material, reduce cost on the basis of guaranteeing 501 structural stability of cylinder arm.
When manufacturing cylinder arm, the bending angle of the first and second bent plate can be selected between 105-165 °, certainly, most
It is 110 ° well.The bendable structure of cylinder arm can be made up of casting technique.
Supporting element is gripper cylinder 503, and the power output end of gripper cylinder 503 is equipped with clamping disk 16, sets in clamping disk 16
There is the clamping head (not shown) with the cooperation of the axial end face of yarn bobbin 11, clamping head can be rotated by bearing and clamping disk 16
Connection.
Arc-shaped mounting groove 5016 is provided on the upper clamping end 5011 of cylinder arm 501, when cylinder arm 501 drives empty yarn bobbin 11
When being contacted with drive roll 504, arc-shaped mounting groove 5016 it is opening down, the cylinder body of gripper cylinder 503 is located at arc-shaped installation
It is fixedly connected in slot 5016 and by bolt with cylinder arm 501.It, can be by the spiral shell on cylinder arm when situation occurs in gripper cylinder 503
Bolt is backed out, and is directly removed gripper cylinder 503 and is overhauled, convenient for operation.Moreover, arc-shaped mounting groove 5016 is semi-surrounding structure
Rather than structure is surrounded entirely, save manufacturing cost.
As shown in Figures 6 and 7, pendulum yarn feeding device 6 includes the swing rod 607 for being located at 504 lower section of drive roll, and one end of swing rod 607 is super
Drive roll 504 and it is equipped with the yarn guiding ring 606 that passes through for yarn out, the other end of swing rod 607 is connected with down-set balance staff
610, balance staff 610 is connected by bearing with the rotation of rack 1, and the rack 1 of 607 lower section of swing rod is equipped with cylindrical cam 608, and cylinder is convex
The axis of axis and drive roll 504 of wheel 608 is arranged in parallel, and revolving power mechanism 52 passes through the transmission that is located in power box 14
Device driving cylindrical cam 608 rotates about the axis thereof, and curved grooves 609, cylindrical cam 608 are provided on the cylindrical cam 608
Outside, which is equipped with, passes through guide runner 605 and curved grooves with the guide rod 604 disposed in parallel of swing rod 607, one end of guide rod 604
609 abut, and the other end balance staff 610 of guide rod 604 is affixed.
When in use, when cylinder arm 501 carries at the empty rotation to drive roll 504 of yarn bobbin 11, the cylinder arm 501 in part
Under the action of gravity and yarn bobbin 11 are self-possessed, yarn bobbin 11 can be pressed on drive roll 504, and yarn passes through yarn guiding ring 606 simultaneously
It is located between drive roll 504 and yarn bobbin 11.In winding thread, revolving power mechanism 52 drives cylindrical cam 608 to rotate, and guiding is slided
Block 605 is to slide along the curved grooves 609 of cylindrical cam 608, drives 604 transverse reciprocating of guide rod to swing, guide rod 604 is again
It is swung laterally by the drive swing rod 607 of balance staff 610, the swing angle and time consistency of guide rod 604 and swing rod 607, cylinder is convex
Wheel 608 turns around, and swing rod 607 and yarn guiding ring 606 complete a reciprocally swinging stroke, i.e. a cycle.At the same time, drive roll
504 also rotate under the action of revolving power mechanism 52, and are rotated using frictional force drives yarn bobbin 11, realize yarn in yarn
Steady winding on cylinder 11.
In order to avoid stress concentration, guarantee the service life of swing rod 607, swing rod 607 can be driven to one that yarn is swung
End is set as the arcuate structure being bent upwards, and certainly, this structure is also that the installation of other components has reserved space.
Yarn guiding ring 606 is ring structure, and its internal ring wall is smooth arc surface, and this structure can reduce yarn and lead
Friction between yarn ring 606 reduces the wear rate of yarn guiding ring 606, reduces Yarn filoplume, improves yarn quality.It is above-mentioned in order to make
Effect is more obvious, and in actual production, yarn guiding ring 606 can be made of wear-resistant ceramic material or tungsten carbide material.
Swing rod 607 can be manufactured using carbon fibre material, light-weight, and rigidity is good, and indeformable, itself inertia is small, Neng Gou
In quick situation, commutate rapidly.
Guide runner 605 slides in curved grooves 609, moves back and forth, and constantly commutates.In order to reduce punching caused by commutation
Hit power, can be used elastic deformation material production guide runner 605, elastic deformation material include polyurethane, polyacrylamide and
Polyether ester, lower cost for material are replaced at any time when guide runner 605 is worn.
As shown in FIG. 8 and 9, transmission device includes transmission shaft 39, the driving wheel being located on transmission shaft 39 side by side 40 and fission
35 component of belt wheel 34 and eccentric wheel, the power output end of revolving power mechanism 52 are equipped with output wheel (not shown), output
Wheel is drivingly connected by driving belt (not shown) and the driving wheel 25 being located on the roll shaft 5041 of drive roll 504, actively
Wheel 25 is connected by the first belt 26 with driving wheel 40, and seperated belt wheel 34 is by two independent 3401 groups of symmetrical wheel discs
At equipped with the distance adjustor for adjusting two 3401 spacing of wheel disc on transmission shaft 39,35 component of eccentric wheel includes 35 He of eccentric wheel
Driven wheel 30, eccentric wheel 35 are connected by gear drive with driven wheel 30, and driven wheel 30 is by belt gear and divides
Body belt wheel 34 connects, and belt gear includes drive shaft 27, is installed with main drive wheel 37 and time driving wheel in drive shaft 27 side by side
28, main drive wheel 37 is connected by the second belt 36 with seperated belt wheel 34, and eccentric wheel 35 is located at main drive wheel 37 and seperated belt wheel
In the second belt 36 between 34 and it is tensioned the second belt 36, secondary driving wheel 28 is connected by third belt 29 with driven wheel 30.
Distance adjustor includes the adjustment spring 33 and spring limiting board 38 being located on transmission shaft 39, and spring limiting board 38 is fixed
On transmission shaft 39, one end of adjustment spring 33 is abutted with seperated belt wheel 34, adjusts the other end and spring limiting board of spring 33
38 abut.
Gear drive includes pinion gear 31 and gear wheel 32, and pinion gear 31 and driven wheel 30 be coaxial to connect and and canine tooth
32 engagement of wheel, gear wheel 32 are connected with eccentric shaft (being not drawn into figure) by flat key, and eccentric wheel 35 is mounted on the output of eccentric shaft
End.Wherein, pinion gear 31 and the reduction ratio of gear wheel 32 can be adjusted according to practical condition, such as 4:1.
When in use, the rotation of eccentric wheel 35 can be tensioned the first belt 26, and the track of the first belt 26 is also with eccentric wheel
35 tensioning degree constantly elongates, shortens, and since the elasticity of driving belt is almost nil, leads to the wheel disc of seperated belt wheel 34
3401 occur radial displacement, and the decrement of adjustment spring 33 changes, and the spacing of two wheel discs 3401 also changes correspondingly.And the first skin
It also to be moved up and down relative to the race of seperated belt wheel 34 with 26, so that the datum diameter generating period of seperated belt wheel 34
Change, and then make the revolving speed also generating period variation of driving wheel, the revolving speed of cylindrical cam 608 also changes correspondingly, and causes to lead
It changes to the transverse shifting speed of bar 604 and swing rod 607.Since the revolving speed of the drive roll 504 of driving yarn bobbin 11 is certain,
And swing rod 607 drives the transverse shifting speed of yarn to change, the winder track of yarn also changes correspondingly, and avoids yarn
Superposition problem, so that final tube good appearance.
Referring still to Fig. 1,2 and 5, bobbin-winding machine further includes the output device of yarn bobbin 11, and output device includes pushing winding
The yarn bobbin 11 of completion is detached from the pushing assisted plate 4 on 504 surface of drive roll and receiving and is propelled yarn bobbin 11 that plate 4 pushes down and its is defeated
Output board out, pushing assisted plate 4 and output board are respectively provided at the front and rear sides of drive roll 504, and output board includes defeated along yarn bobbin 11
The check plate 10 and supporting plate 9 for the separate type that direction is set gradually out, pushing assisted plate 4, check plate 10 and supporting plate 9 are respectively by respectively right
The overturning regulating mechanism answered is rotatably arranged in rack 1, and check plate 10 is bent downwardly extension shape close to one end of drive roll 504
At oblique backplate 1001, the downward extended line of oblique backplate 1001 is parallel with the tangent line of drive roll 504, and check plate 10 is close to supporting plate 9
Be equipped with the thread cutting mechanism 7 of yarn below one end, supporting plate 9 be located between two cylinder arms 501 and thereafter end beyond cylinder arm 501 and to
Left and right extends to form the postive stop baffle 901 for preventing an arm 501 from rotating backward;The overturning regulating mechanism being correspondingly arranged with check plate 10
Including torsion shaft 22, connection swing arm 21 and cylinder 23 is adjusted, torsion shaft 22 is fixed on 10 bottom of check plate, connects the one of swing arm 21
End is fixed on torsion shaft 22, and the other end for connecting swing arm 21 is hinged with the piston rod head for adjusting cylinder 23, adjusts cylinder 23
Cylinder body be fixed in rack 1, the torsion shaft 22 between check plate 10 and connection swing arm 21 passes through linking arm 18 and 17 phase of bracket
It connects, is rotatablely connected between torsion shaft 22 and linking arm 18 by bearing;It is equipped between drive roll 504 and cylinder arm 501 and pushes cylinder
The trailing arm 12 of the 502 axis rotation around the shaft of arm 501, trailing arm 12 are equipped with close to one end of arm 501 and slide with 501 lower surface of cylinder arm
The idler wheel 13 of cooperation, trailing arm 12 is close to one end of drive roll 504 on the torsion shaft 22 of 10 bottom of check plate.
Pushing assisted plate 4 is bent downwardly close to one end of drive roll 504 extends to form inclined ejecting plate 401, and inclined ejecting plate 401 is located at actively
Above roller 504 and its downward extended line is parallel with the tangent line of drive roll 504.
The distance between above-mentioned oblique backplate 1001 and the downward extended line of inclined ejecting plate 401 and 504 tangent line of drive roll are 1-
3mm。
Supporting plate 9 is in bending plate structure of the middle part to lower recess, is convenient for delivered yarn cylinder 11.
Also include torsion shaft 22 with the overturning regulating mechanism that pushing assisted plate 4 is correspondingly arranged, connect swing arm 21 and adjust cylinder 23,
Torsion shaft 22 is fixed on 10 bottom of check plate, and one end of connection swing arm 21 is fixed on torsion shaft 22, connects the another of swing arm 21
End is hinged with the piston rod head for adjusting cylinder 23, and the cylinder body for adjusting cylinder 23 is fixed in rack 1.
Also include torsion shaft 22 with the overturning regulating mechanism that supporting plate 9 is correspondingly arranged, connect swing arm 21 and adjust cylinder 23, turns over
Shaft 22 is fixed on 9 bottom of supporting plate, and one end of connection swing arm 21 is fixed on torsion shaft 22, connects the other end and tune of swing arm 21
The piston rod head of displacements of cylinders 23 is hinged, and the cylinder body for adjusting cylinder 23 is fixed in rack 1.
After yarn bobbin 11, which is wound, to be completed, drive roll 504 stops operating, and the piston rod of gripper cylinder 503 retracts, together
When, overturning regulating mechanism adjustment 4 tilt angle of pushing assisted plate being correspondingly arranged with pushing assisted plate 4 is flipped up inclined ejecting plate 401 and pushes away
The yarn bobbin 11 of dynamic 504 top of drive roll is detached from 504 surface of drive roll.The yarn bobbin 11 that plate 4 pushes down is propelled to drop down onto first only
Plate 10 is returned, when yarn bobbin 11 is rolled on the supporting plate 9 at rear due to effect of inertia, is adjusted with the overturning that check plate 10 is correspondingly arranged
Mechanism drives check plate 10 to be flipped up close to one end of supporting plate 9, prevents yarn bobbin 11 toward rollback.Supporting plate 9 can be right with it
Under the action of the overturning regulating mechanism that should be arranged, the best angle of adjustment output yarn bobbin 11.
As shown in figure 5, passing through return spring between connection 21 lower part of swing arm and the bracket 17 of close connection 21 side of swing arm
19 connect, and the rack 1 in 19 outside of return spring is equipped with the second microswitch 20, connect and are correspondingly provided with the second fine motion in swing arm 21
The touch briquetting 2101 of switch 20.
When operating normally, drive roll 504 and tiltedly between backplate 1001 there are gap, but gap very little can be with
It is 2mm, check plate 10 is remained unchanged with 21 relative position of swing arm is connect, and is connected swing arm 21 and drawn by return spring 19 to adjusting
The maximum travel position of cylinder 23, the touch briquetting 2101 and the wraping plate of the second microswitch 20 connected in swing arm 21 remain
Compacting state;When because of outside cause yarn breakage, the yarn that should be wound on yarn bobbin 11 is wound into high-speed rotating master
When on dynamic roller 504, with the increase of 504 diameter of drive roll, the one end and drive roll 504 of oblique backplate 1001 close to drive roll 504
On yarn contacts and become that check plate 10 is flipped up open sled portion, drive check plate 10 to be flipped up, connect swing arm 21
It deflects rapidly.At the same time, the wraping plate of the second microswitch 20 pressed can be discharged at once, the control system of bobbin-winding machine
System controls complete machine emergency stop after receiving signal, and operator can arrive field observation, disposition, to play protection machine, prevents
Unexpected effect only occurs.
As shown in figures 10-13, thread cutting mechanism 7 includes the cutter seat 701 being located on swing rod 607 on methods, rack 1, cutter seat
701 include blade 7011, and blade 714 and positioning sliding block 712 are equipped in blade 7011, and positioning sliding block 712 and blade 7011 slide
Cooperation is equipped with cutter groove 7122 in positioning sliding block 712, and blade 714 is movably located in cutter groove 7122, positioning sliding block 712
Rear end face is equipped with the anti-drop block 715 of blade 714, and anti-drop block 715 is equipped with the through-hole 7151 penetrated through with cutter groove 7122, positioning sliding block
Cutting cylinder 711 is equipped in the blade 7011 of 712 rear sides, the piston rod surface movable sleeve of cutting cylinder 711 is connected to reset spring
710, the both ends of reset spring 710 are abutted with the cylinder body 7112 of cutting cylinder 711 and anti-drop block 715 respectively, cutting cylinder 711
The end of piston rod 7111 is connected by the push rod 716 being threaded through in through-hole 7151 with blade 714, is additionally provided with court in blade 7011
To the blade block 709 of the cutting edge of blade 714 setting, on the blade 7011 between blade block 709 and positioning sliding block 712
Equipped with yarn slot 713, it is provided with the yarn communicated with yarn slot 713 on blade 7011 and leads mouth 708,7011 rear portion of blade is downwardly projecting
The base portion 7012 for forming cutter seat 701, is symmetrically arranged on the outside of the left and right of cutter seat 701 and grabs line plate 702, grab the one of line plate 702
End is hinged with base portion 7012, and the other end for grabbing line plate 702, which is equipped with, to be arranged towards yarn and lead the corresponding gripper of mouth 708 with yarn
7022, grab line plate 702 and connected with rack 1 by push arm 703, the both ends of push arm 703 respectively with grab line plate 702 and rack 1 hingedly
Connection, rack 1 are equipped with the rotating drive mechanism to connect by the rotating connector for being located at 703 lower section of push arm with base portion 7012.
In production application, assemblying for cutter seat 701 may include symmetrically arranged left tool apron and right tool apron,
Left tool apron and right tool apron can be closed by connection type lid in the prior art, such as nut thread connection type, collectively form tool
Have the cutter seat 701 of blade 7011 and base portion 7012, so assemble, it is convenient to the components in cutter seat 701, as blade 714,
Cutting cylinder 711 etc. is safeguarded and is replaced.
Positioning sliding block 712 can be integrally formed mode with anti-drop block 715 and be arranged, and may be a detachable connection mode
Connection, if the rear end of positioning sliding block 712 is equipped with internal screw thread, anti-drop block 715 is equipped with external screw thread, positioning sliding block 712 and anticreep
Block 715 is connected through a screw thread mode and connects.
Mode can also be connected through a screw thread between the piston rod and push rod 716 of cylinder 711 by, which cutting, is directly connected to, and can also lead to
It crosses additional threaded connecting sleeve the two links together, be beneficial for disassembly and assembly and part replacement.
The directive slide track (not shown) of the positioning sliding block 712 to raise upward, positioning sliding block are equipped in blade 7011
712 be equipped with the matched sliding slot of directive slide track, be recessed inwardly the guiding elongated slot to form blade 714 (in figure in the middle part of directive slide track
It is not shown), it is ensured that positioning sliding block 712 and blade 714 are moved along specific direction, avoid blade 714 in mobile and cutting yarn
It shakes when line, improves cutting precision.
The matched cutting groove 7092 of shape with the cutting edge of the blade 714 is set on blade block 709, is increased
The motion space of blade 714 is conducive to the cutting success rate for improving yarn.
In view of yarn to be cut is possible to also on the move, can be equipped on blade block 709 towards positioning sliding block
The groove 7091 of 712 settings, is arranged the convex block 7121 cooperated with groove 7091, or in blade block on positioning sliding block 712
Convex block 7121 is set on 709, the groove 7091 cooperated with convex block 7121 is set on positioning sliding block 712, by convex block 7121 and recessed
The cooperation of slot 7091 constitutes the fixing piece of yarn to be cut, yarn to be cut is fixed, yarn moves when avoiding cutting, really
Protecting Yarn connecting has preferable quality.
Above-mentioned to grab the rotational segment 7021 and linkage section 7023 that line plate 702 includes vertical connection, gripper 7022 is located at rotational segment
Line plate 702 is grabbed by hingedly realizing and cutting one end of linkage section 7023 and the base portion 7012 of cutter seat 701 in 7021 upper end
The rotation connection of tool apron 701.In reset state, blade 7011 is horizontal positioned, grabs the rotational segment 7021 and blade of line plate 702
7011 are vertically arranged, and yarn is near the gripper 7022 of 7011 top of blade.
Rotating drive mechanism is rotation cylinder 706, and for rotation cylinder 706 in rack 1, rotating connector includes rotation axis
705 are equipped with rotor plate 704, the head of the piston rod of rotation cylinder 706 and rotor plate 704 with folding shape plate 707, rotation axis 705
Be articulated and connected and drive rotation axis 705 rotate, folding shape plate 707 include successively connect and orthogonal first planar section 7073,
Vertical section 7072 and the second planar section 7071, the first planar section 7073 be horizontally set on the lower section of push arm 703 and with cutter seat 701
Base portion 7012 connects, and the second planar section 7071 connects with rotation axis 705.Wherein, the second planar section 7071 is equipped with U-lag, turns
Moving axis 705 is located in U-lag, and the two sidewalls of U-lag are equipped with the fastening being fixed on the second planar section 7071 in rotation axis 705
Bolt.
When winding complete yarn bobbin 11 tumble to it is to be output on supporting plate 9 when, need cutting continuous strand.At this point, check plate 10
It is flipped up, on the one hand can prevent 11 rollback of yarn bobbin, be on the other hand also the cutting action slot milling of thread cutting mechanism 7.
After check plate 10 is flipped up, rotation cylinder 706 drives rotation axis 705 to rotate clockwise and cutter seat 701 is driven to rotate one
Determine angle, rotation driving cylinder driving rotation axis 705 rotates clockwise and cutter seat 701 is finally driven to turn an angle, by
It is rotatably connected by pin shaft with 701 base portion 7012 of cutter seat in grabbing line plate 702, and wherein one end of push arm 703 can only rotate
Immovable, when cutter seat 701 rotates clockwise, the rotation counterclockwise round about of line plate 702 is grabbed in the promotion of push arm 703, and
Yarn is sent into the yarn slot 713 on blade 7011, cutting cylinder 711 ejects piston rod, blade 714 it is mobile to yarn and with
Anti-drop block 715 separates, and since the spring 710 that is reset of positioning sliding block 712 heads on, the ejection speed of positioning sliding block 712 can be faster than knife
Piece 714, yarn are squeezed between positioning sliding block 712 and blade block 709, and blade 714 continues forward, it is dynamic to complete chopped strands
Make;When yarn be cut off after, cutting cylinder 711 piston rod retract, blade 714 move back, and 714 rear end of blade be resisted against it is anti-
Positioning sliding block 712 is also retracted on de- block 715, reset spring 710 is compressed, and at the same time, cutter seat 701 and grabs line plate 702
Restore under the action of rotation cylinder 706 to initial position, check plate 10 also restores original initial position.Above-mentioned 7 energy of thread cutting mechanism
It is enough that yarn is automatically grabbed and cut off, production efficiency is improved, personnel's investment is reduced.
As shown in FIG. 14 and 15, wire breakage preventing device 2 includes top plate 206, guide rail 203 and the pedestal from top to bottom successively to connect
201, pedestal 201 is fixed in rack 1, and top plate 206 is equipped with to fixing axle (not shown), fixing axle is externally provided with for yarn
The fast pulley 207 of 24 windings, fast pulley 207 are rotatably installed in fixing axle by bearing, and guide rail 203 is equipped with counterweight block
208, counterweight block 208 is slidably connected with guide rail 203, and counterweight block 208 is equipped with the axis shifting disposed in parallel with fixing axle
Moving axis (not shown), shifting axle are equipped with the movable pulley 209 wound for yarn 24, and movable pulley 209 is rotated by bearing pacifies
On shifting axle, the first microswitch 212 is additionally provided on guide rail 203, counterweight block 208 is equipped with and the first microswitch
The 212 touch pressing plates 202 being correspondingly arranged.
For top plate 206 to shock buffer unit is had, hitting buffer unit includes bumper post 205, the upper end of bumper post 205
Connect with top plate 206, the lower end of bumper post 205 is connected with buffer stopper 204, and rubber layer, the shock are coated on buffer stopper 204
Buffer unit can play limit and buffer function when counterweight block 208 moves up, avoid counterweight block 208 because of machine therefore
Sharp impacts occur between barrier and support frame, influence equipment performance.
If being rigid rod by bumper post 205, counterweight block 208 to the momentum of bumper post 205 rubber layer effect
Lower reduced amplitude is little, therefore, telescopic rod-like structure can be set by bumper post 205, in top plate 206 and buffer stopper
Movable sleeve is connected to buffer spring 213 on bumper post 205 between 204, and the buffering work for hitting buffer unit is further enhanced with this
With.
The pulling force that single yarn can be born is limited, in order to avoid yarn in use is because of counterweight block 208
The tractive force of self weight and drive roll 504 and tube when winder and break, and increase the buffer length of yarn, therefore in fast pulley
207 and movable pulley 209 on be respectively provided with multiple races arranged side by side, so that yarn is wound several circles more, increase yarn entirety pulling force, and
The wheel slot number of the wheel slot-number ratio movable pulley 209 of fast pulley 207 is one more, and yarn is wound on first on movable pulley 209, further around in fixation
On wheel 207, winds several circles and laid out from fast pulley 207 later.
Can 4 or 5 or 6 be set by the race of fast pulley 207 according to production needs.
Above-mentioned guide rail 203 includes two guide rods 2031 disposed in parallel, and the both ends of every guide rod 2031 are respectively at top plate 206
Connect with pedestal 201, the traveling wheel 210 of counterweight block 208 is equipped between two guide rods 2031, traveling wheel 210 is led with described
Bar 2031 roll cooperation, counterweight block 208 close to the end face of guide rod 2031 be equipped with walking axle 211, the axis of walking axle 211 with
The axis of guide rod 2031 is vertically arranged, and the traveling wheel 210 is located in walking axle 211, and is rotated by bearing and walking axle 211
Connect.
In order to enable counterweight block 208 to move along the stabilization of guide rail 203, walking axle 211 can be set to more, and edge
The moving direction of counterweight block 208 is arranged side by side, and such as 2 or 3 or 4, is rotatably equipped with one in every walking axle 211
Traveling wheel 210.Wherein, traveling wheel 210 can be disclosed in the prior art or commercially available any one can be applied to this reality
With novel traveling wheel 210, such as pulley, above-mentioned guide rod 2031 is in the race of pulley.
Due in actual production, the type of winder yarn is different, the attributes such as fineness, toughness, coefficient of friction also not phase
Together.Moreover, because yarn is wrapped in, the circle number on fast pulley 207 and movable pulley 209 is different, and the pulling force of yarn is also different.Therefore,
Counterweight block 208 is arranged to include a mother tuber body 2082 and at least one sub-block body 2084 structure, shifting axle and walking
Axis 211 is each provided on mother tuber body 2082, between mother tuber body 2082 and sub-block body 2084 and sub-block body 2084 and sub-block body 2084 it
Between connected by removably, such structure facilitates user to be increased and decreased according to the actual situation to sub- block 2084 so that
The weight of counterweight block 208 is equal with the pulling force of yarn.In addition, the weight of mother tuber body 2082 and the weight of sub-block body 2084 can be with
It is identical, it can also be different.
Mother tuber body 2082 and sub-block body 2084 can be combined by detachable connection method in the prior art, such as female
Block 2082 is equipped with positioning pin 2083, and sub-block body 2084 is equipped with the location hole 2081 cooperated with positioning pin 2083, mother tuber body
Realization in location hole 2081 is inserted between 2082 and sub-block body 2084 with positioning pin 2083 to be located by connecting;Or female, sub-block body
Location hole 2081 is opened up on corresponding position, location hole 2081 has internal screw thread, and female, sub-block body with location hole 2081 by cooperating
Bolt-through is female, the realization of sub-block body is located by connecting;Or magnet is installed on female, sub-block body, by the attracting connection of magnetic force.
When bobbin-winding machine operates normally, yarn is regularly wrapped on fast pulley 207 and movable pulley 209, movable pulley
209 are fixed together with counterweight block 208, touch pressing plate 202, and three can the free skating on guide rail 203 by traveling wheel 210
It is dynamic.Yarn movement at that time is smooth, and counterweight block 208 under gravity, can be with movable pulley 209, touch pressing plate 202 one
The bottom for remaining at guide rail 203 is acted, the wraping plate for touching pressing plate 202 and the first microswitch 212 at this time keeps compacting shape
State;When yarn is mobile to be obstructed, length of yarn shortens, and the distance between fast pulley 207 and movable pulley 209 can shorten, mobile
Wheel 209 is lifted rapidly with counterweight block 208, touch pressing plate 202, and touching pressing plate 202 is the wraping plate with the first microswitch 212
Separation, the control system of bobbin-winding machine receives the first microswitch 212 release counterweight block 208 signal in place, and controls complete machine urgency
Stop, although at this point, yarn is in tensioned state, but not be pulled off, operator can go to search the original that yarn is obstructed at this moment
Cause, allows the smooth movement of yarn again;After yarn re-moves, counterweight block 208 can be fallen after rise to pedestal 201, touch pressing plate
202 press again with the wraping plate of the first microswitch 212, and bobbin-winding machine restarting starts to work normally.Yarn is realized to be obstructed
The purpose shut down in time has achieved the effect that prevent broken string, practical.
As shown in figs. 16-18, bobbin-winding machine further includes barrel-clamping device 3, and barrel-clamping device 3 includes being located at 504 front side of drive roll
Cylinder casket 301, it is dynamic that rack 1 is equipped with the rotation for driving a casket 301 to rotate in such a way that cylinder casket 301 is close to or far from drive roll 504
Force mechanisms, cylinder casket 301 have upper inlet 3012 and lower outlet 3011, and the space between upper inlet 3012 and lower outlet 3011 is sky
The down going channel of yarn bobbin 11, down going channel are provided with several empty yarn bobbins 11, are equipped at the lower outlet 3011 of cylinder casket 301 anti-
Only the elastic compression wheel that empty yarn bobbin 11 falls, being respectively arranged on the left side and the right side for cylinder casket 301 prevent sky yarn bobbin 11 along its axis
The mobile elastic baffle 302 in direction, the cylinder casket 301 between the baffle 302 of the left and right sides are equipped with connecting rod 307, and baffle 302 can
It is rotationally located in connecting rod 307, connecting rod 307 is equipped with torsional spring 305, and the both ends of torsional spring 305 are stuck in 302 upper end of baffle simultaneously
On the cylinder casket 301 of 307 lower section of connecting rod.
Fitted tube mechanism is used to for empty yarn bobbin 11 being placed on the clamping piece of an arm, continues spiral, instead of artificial fitted tube, reduces
Labor intensity has also ensured the peace of operator since operator only needs to supplement empty yarn bobbin 11 into cylinder casket 301 in time
Entirely.
Above-mentioned cylinder casket 301, which can be, to be formed by connecting through fixed plate 3014 by two opposite opening frames 3013, further
Reduce cost of material.
Elastic compression wheel includes the axle bed 306 being fixed on the cylinder casket 301 of lower outlet 3011, and axle bed 306 passes through pin
Axis connection has hold 304, and hold 304 has the contact roller 303 for pushing down sky yarn bobbin 11 by pin connection, is cased on pin shaft
The upper end of axle bed 306 is hooked in torsional spring 305, one end of torsional spring 305, and the other end of torsional spring 305 is stuck on hold 304, makes to compress
Wheel is under the action of torsional spring 305 downwardly against empty yarn bobbin 11.
Rotational power mechanism includes rotation connecting shaft 308, rotating arm 312 and rotary cylinder 313, and rotation connecting shaft 308 is perpendicular
To being arranged and being connected by bearing with the rotation of rack 1, the top of rotation connecting shaft 308 passes through connection frame 311 and 301 phase of cylinder casket
It connects, one end of rotating arm 312 is fixed in rotation connecting shaft 308, the other end of rotating arm 312 and the piston of rotary cylinder 313
Club head is hinged, and rotary cylinder 313 is horizontally fixed in rack 1.
Rotating connecting shaft 308 has upper thread segment 309, and connection frame 311 includes sequentially connected upper junction plate 3112, side company
3113 sets of fishplate bar 3111 and lower connecting plate 3113, upper junction plate 3112 and lower connecting plate are in rotation connecting shaft 308, and upper connection
Plate 3112 is located at the upper thread segment 309 of rotation connecting shaft 308,309 surface of the upper thread segment socket of 3112 lower section of upper junction plate
There is the lift adjustment nut 310 of connection frame 311.Lift adjustment nut 310 and rotation 308 threaded engagement of connecting shaft, can be adjusted
The height of connection frame 311, and then the height of adjustment barrel casket 301, when guaranteeing that cylinder casket 301 goes to fitted tube position, empty yarn bobbin 11
Axis is overlapped with the axis of gripper cylinder 503, is automatically performed fitted tube work to realize.
When previous yarn bobbin 11 completes spiral, when needing replacing new yarn bobbin 11, rotary drive motor 51 stops fortune
Turning, drive roll 504 stops operating, meanwhile, gripper cylinder 503 retracts piston rod, and adjusting cylinder 23 and then acting makes inclined ejecting plate
401 overturnings, yarn bobbin 11 is pushed away and is dropped down on check plate 10, and yarn bobbin 11 continues to be rolled on supporting plate 9 under effect of inertia, thereafter,
The torsion shaft 22 of 10 bottom of check plate rotates and check plate 10 is driven to overturn, and since trailing arm 12 is also rotated with torsion shaft 22, makes to hold in the palm
There is arm 12 one end of idler wheel 13 to lift, and the clamping end of cylinder arm 501 is gradually lifted certain altitude to putting a position;Due to folder
The piston rod for holding cylinder 503 is still within retracted state, leaves space for empty yarn bobbin 11, rotary cylinder 313 acts, driving
Rotation connecting shaft 308 drives cylinder casket 301 to turn to simultaneously from initial position and puts a position, and 302 tube arm front end of elastic baffle pushes away
11 two sides of sky yarn bobbin are rotated and left in trend, and the lower outlet 3011 of cylinder casket 301 continues to move to, until the lower outlet of cylinder casket 301
When empty yarn bobbin 11 at 3011 is between two gripper cylinders 503 and the axis of three is overlapped, gripper cylinder 503 stretches out
Piston rod withstands sky yarn bobbin 11 by clamping head, and by the yarn bobbin completed with winding connect in the yarn bobbin rear
Yarn is clamped between 11 end face of clamping disk 16 and empty yarn bobbin, meanwhile, yarn is cut in the movement of thread cutting mechanism 7, makes to have wound
At yarn bobbin along supporting plate 9 export;Later, the driving of rotary cylinder 313 rotation connecting shaft 308 drives cylinder casket 301 by putting a position
Initial position to be returned is fixed since empty yarn bobbin 11 is clamped cylinder 503, and contact roller becomes under the effect of external force
Shape, empty yarn bobbin 11 are extracted;The cylinder continuation of casket 301 resets to initial position under the action of rotary cylinder 313, adjusts cylinder
23 also drive the torsion shaft 22 of 10 bottom of check plate to rotate, and the one end for driving trailing arm 12 to have idler wheel 13 is pivotally lowered into original position
It sets, cylinder arm 501 is laid down, and empty yarn bobbin 11 is pressed into contact with drive roll 504, and rotary drive motor is started to work, and is continued
Winding thread.
If the empty yarn bobbin 11 in cylinder casket 301 is finished or is underfilled with, can supplement at any time.
As shown in Figures 18 and 19, which further includes shock attenuation device, and shock attenuation device includes being located at headstock
Linkage swing arm in body 14, power box 14 include vertically arranged boxboard 1401, and linkage and protrudes into power box 14 at swing arm 51
Interior shaft connects in synchronous rotary, is equipped with convex pressure arm 42 above the swing arm 51 that links, the upper end for the swing arm 51 that links and convex arc
The lower end surface of shape pressure arm 42 slides against, and one end of convex pressure arm 42 is hinged with boxboard 1401 and forms fixed rotating fulcrum,
The other end of convex pressure arm 42 is hinged with the articulated linkage 46 set up, the upper end of articulated linkage 46 by articulated shaft 43 with
Boxboard 1401 is hinged, and 46 surface of articulated linkage is arranged with compressed spring 44, and 44 upper end of compressed spring is abutted with the articulated shaft 43,
The articulated linkage 46 of 44 lower end of compressed spring is equipped with the adjusting nut 45 for adjusting 44 decrement of compressed spring.
Linkage 51 top of swing arm is equipped with rotation on optical axis and abuts block 50, rotation is supported to optical axis (not shown) is externally provided with
Connecing block 50 can rotate freely around optical axis under external force, and linkage swing arm 51 abuts block 50 and convex pressure arm 42 by rotation
Arc lower end face slides against.
In order to realize the purpose slid against with the lower end surface of convex pressure arm 42, rotation can be abutted into block 50 and be arranged to
The cylindrical structure small compared with the radius of curvature of the arc lower end face of convex pressure arm 42.
It is contacted in view of the rotation of cylindrical structure abuts between block 50 and the arc lower end face of convex pressure arm 42 for line,
Contact area is small, and the weakening ability for shaking degree to cylinder arm 501 is smaller, therefore, rotation is preferably abutted block 50 and is arranged to approximation
The structure of cuboid, the rotation of this structure abut block 50 with identical with the radius of curvature of 42 arc lower end face of convex pressure arm
The contact area of upper surface, the two increases, and is capable of increasing the weakening ability that degree is shaken to cylinder arm 501.
Since in use process, rotation, which abuts, can generate frictional dissipation between block 50 and convex pressure arm 42, therefore will rotation
Abut block 50 be arranged to have upper surface 5001 identical with the lower end curvature radius of convex pressure arm 42, left side 5004,
The approximate rectangular parallelepiped structure of right side 5002 and lower end surface 5003 can be abutted after one of end wear with rotary motion
Block 50 makes the wherein one side of remaining end face and the arc lower end face of convex pressure arm 42 fit, easy to use.
The stop mechanism of linkage swing arm 51 is equipped in power box 14, stop mechanism includes that fan-shaped wobble plate 49 and damping are slow
Device 48 is rushed, a wherein straight flange for fan-shaped wobble plate 49 connects with linkage swing arm 51, and another straight flange of fan-shaped wobble plate 49 is equipped with
The briquetting 47 of outwardly convex, damping buffer 48 can be disclosed in the prior art or commercially available any one can be applied to
The damping buffer 48 of the utility model such as includes the damping buffer 48 of cylinder barrel, piston and piston rod, damping buffer 48
Piston rod is correspondingly arranged with backstop convex block 47, and the strength collided and generated can be greatly reduced, and guarantees linkage swing arm 51 and sector
Wobble plate 49 is not damaged.
The angle formed between straight line where the both ends of convex pressure arm 42 and the axis of articulated linkage 46 is α, and α is less than
Equal to 90 °.
When bobbin-winding machine works normally, convex pressure arm 42 is pressed in rotation always and abuts block under the action of compressed spring 44
It is also just effective to protect since the lower arc end surface of convex pressure arm 42 is overlapped with the rotational trajectory of linkage 51 upper end of swing arm on 50
The constant of damping pressure is demonstrate,proved.When yarn bobbin 11 prepares to occur under external force the movement such as swing, " jump ", because of convex
The strength that pressure arm 42 presses is greater than jump power, the generation of " jump " phenomenon is avoided, so as to which winder quality is effectively ensured.?
In actual production process, the decrement of compressed spring 44 can be adjusted, by adjusting nut 45 as the case may be to ensure network
Cylinder when cylinder an arm 501 yarn bobbin 11 is pressed on drive roll 504 always, guarantee winder everything goes well with your work carry out.
The course of work of the utility model when in use is as follows: yarn successively passes through anti-breaking after yarn comes out from embryo creel
After line apparatus 2, Wire Wheel 15, tension force meter length measuring mechanism 8, pendulum yarn feeding device 6, it is wound by coiling apparatus 5, winds completion
Yarn bobbin 11 is exported by output device, and barrel-clamping device 3 supplements new empty yarn bobbin 11 to coiling apparatus 5 again, continues winder.
Wherein, the function of wire breakage preventing device 2 is when the yarn on embryo creel is obstructed because of outside cause, to the control system of bobbin-winding machine
System sends information, shuts down removing obstacles, can effectively reduce Yarn break, guarantee the smooth of subsequent next process;Wire Wheel
15 itself lean on dynamic rotation, and yarn is wound on its roller, can avoid the dragging of yarn by power transmission yarn, guarantee
The originality of yarn can will not change;Tension detection and meter length measuring mechanism 8 can real-time detection yarn tension, and be precisely controlled yarn
Length;Pendulum yarn feeding device 6 allows yarn is well-regulated to swing, be yarn perfect molding on paper tube;Shock attenuation device
It can be avoided the generation of " jump " phenomenon, winder quality can be effectively ensured;Thread cutting mechanism 7 can be after the completion of winder, automatically
Yarn is cut, yarn bobbin 11 then tumbles output along supporting plate 9;Empty yarn bobbin 11 can be dropped down onto two cylinder arms by barrel-clamping device 3 automatically
Between 501 gripper cylinder 503, manual operation is avoided, is simple and efficient.
In actual production, more playscript with stage directions utility model bobbin-winding machines can be combined according to factory itself condition of production, is constituted high
The winder system of effect.The winder system further includes the control system of above-mentioned bobbin-winding machine, can control more playscript with stage directions utility models simultaneously
The running of bobbin-winding machine, the control system include industrial personal computer, programmable logic controller (PLC) (i.e. PLC) and with human-computer interaction interface
Touch screen.Industrial personal computer connect the resource-sharing, it can be achieved that automatic order, task are assigned with inside plants management system by network,
Supervision and management inventories simultaneously, to production, each department is warned.Installation can automatically analyze the design of .bmp order in industrial personal computer
The data processing software of graphic file identifies that customer order information automatically analyzes figure according to design configuration file and order demand
Sample color calculates specific winder color, type and length, and by the specific works of winder by reaching under TCP/IP network protocol
PLC.PLC is according to the real work situation of each winder module, by winder task reasonable distribution to the bobbin-winding machine in winder system,
It optimizes allocation of resources.PLC passes through each executing agency of logic control, it can be achieved that high speed, efficient, nobody, automatic winding.Touch screen is logical
It crosses RS485 twisted pair to connect with PLC, the communication of system and distributing I/O is realized by PROFIBUS-DP communications protocol.It is man-machine
The major function of interactive interface includes task amount input, the functions such as bobbin quantity statistics are shown, alarm indication, speed are shown, respectively
The input of kind parameter, display output parameter are corresponding with the data register in PLC.It is respectively equipped with uniquely on each empty yarn bobbin surface
RFID tag is respectively equipped with the RFID reader of the reading RFID tag to connect with PLC on every bobbin-winding machine, complete in tube network
Afterwards, RFID reader can erase the prime information of label, redefine yarn bobbin number information.
The utility model bobbin-winding machine system, by software analysis system, efficient electric control system, automated mechanical system group
At, can intelligentized management order, the management equipment of automation, the production scheduling of rationalization, reduce manual operation, improve production
Efficiency reduces maintenance cost, improves production quality, sufficiently meets the construction requirements of the intellectualization of factories.Meanwhile this system has
Long function is precisely counted, number of yarns rationally can be accurately arranged, can not only reduce waste, it is often more important that reduces staff
Repeated work.
Only as described above, only specific embodiment of the utility model, when the utility model cannot be limited with this
The range of implementation, therefore the displacement of its equivalent assemblies, or according to equivalent changes and modifications made by the utility model patent protection scope,
It should still belong to the scope that the utility model claims book is covered.