CN108481433A - A kind of transfering part and technique of flaky material - Google Patents
A kind of transfering part and technique of flaky material Download PDFInfo
- Publication number
- CN108481433A CN108481433A CN201810359139.3A CN201810359139A CN108481433A CN 108481433 A CN108481433 A CN 108481433A CN 201810359139 A CN201810359139 A CN 201810359139A CN 108481433 A CN108481433 A CN 108481433A
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- rotation
- outside
- suction tray
- wheel
- disk
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- 239000000463 material Substances 0.000 title claims abstract description 108
- 238000000034 method Methods 0.000 title claims abstract description 19
- 238000001179 sorption measurement Methods 0.000 claims abstract description 59
- 239000000758 substrate Substances 0.000 claims abstract description 12
- 230000007246 mechanism Effects 0.000 claims description 42
- 238000010521 absorption reaction Methods 0.000 claims description 18
- 238000003475 lamination Methods 0.000 claims description 9
- 230000002159 abnormal effect Effects 0.000 claims description 7
- 230000005540 biological transmission Effects 0.000 claims description 6
- 238000005520 cutting process Methods 0.000 claims description 6
- 230000001788 irregular Effects 0.000 claims description 6
- 230000001360 synchronised effect Effects 0.000 claims description 5
- 239000002131 composite material Substances 0.000 claims 1
- 238000004519 manufacturing process Methods 0.000 abstract description 9
- 238000010586 diagram Methods 0.000 description 6
- 150000001875 compounds Chemical class 0.000 description 2
- 230000005611 electricity Effects 0.000 description 2
- 238000005096 rolling process Methods 0.000 description 2
- 239000007787 solid Substances 0.000 description 2
- 238000006243 chemical reaction Methods 0.000 description 1
- 230000005494 condensation Effects 0.000 description 1
- 238000009833 condensation Methods 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000009826 distribution Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000005265 energy consumption Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 230000005012 migration Effects 0.000 description 1
- 238000013508 migration Methods 0.000 description 1
- 238000000465 moulding Methods 0.000 description 1
- 239000002699 waste material Substances 0.000 description 1
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B26—HAND CUTTING TOOLS; CUTTING; SEVERING
- B26F—PERFORATING; PUNCHING; CUTTING-OUT; STAMPING-OUT; SEVERING BY MEANS OTHER THAN CUTTING
- B26F1/00—Perforating; Punching; Cutting-out; Stamping-out; Apparatus therefor
- B26F1/38—Cutting-out; Stamping-out
- B26F1/384—Cutting-out; Stamping-out using rotating drums
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B26—HAND CUTTING TOOLS; CUTTING; SEVERING
- B26D—CUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
- B26D7/00—Details of apparatus for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting
- B26D7/27—Means for performing other operations combined with cutting
- B26D7/32—Means for performing other operations combined with cutting for conveying or stacking cut product
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B26—HAND CUTTING TOOLS; CUTTING; SEVERING
- B26D—CUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
- B26D7/00—Details of apparatus for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting
- B26D7/27—Means for performing other operations combined with cutting
- B26D7/32—Means for performing other operations combined with cutting for conveying or stacking cut product
- B26D2007/322—Means for performing other operations combined with cutting for conveying or stacking cut product the cut products being sheets, e.g. sheets of paper
Abstract
The present invention relates to a kind of disposable sanitary articles production equipments,More particularly to the transfering part and technique of a kind of flaky material,Including banding substrate conveying device,Cut-out transfer wheel,Spacing pulls open wheel,Rotation assembly and overlapping are taken turns,The rotation assembly includes the inside Rotary adsorption disk rotated synchronously and outside Rotary adsorption disk,Intermediate rotating disk is equipped among inside Rotary adsorption disk and outside Rotary adsorption disk,The inside Rotary adsorption disk, which is equipped with, can not turn inside suction tray and rotatable inside suction tray,It is 2n that can not turn inside suction tray and inside suction tray total quantity,n≥1,It can not turn inside suction tray and the setting of inside suction tray interval,The outside Rotary adsorption disk be equipped with can not turn inside suction tray position can not turn correspondingly outside suction tray and with the one-to-one outside suction tray in inside suction tray position,The inside suction tray and outside suction tray is equipped with the driving device of both drivings rotation.
Description
Technical field
The present invention relates to a kind of disposable sanitary articles production equipment, more particularly to the transfering part of a kind of flaky material and
Technique.
Background technology
Rear ear molding process device on the disposable sanitary articles production line of Patent No. 201310385867.9 discloses
A kind of online interval rotation overlapping solution of flaky material, by strip material continuous cutting-off, pull open, shift, revolve
Turn, is compound etc., a series of abnormal shape flaky material is folded into the fixed position on the multilayer materials of production line.In existing item
Under part, it is typically all separately to overlap that interior outside special-shaped tablets shape material, which is folded on production line, and first overlapping inside overlaps outside again, or
Conversely, when production line reaches certain speed, very subtle error may result in online after the flaky material overlapping in interior outside
Directional velocity deviates, and exceeds error range, waste product is caused to generate.In this lamination, cutting blade assembly pulls open transfer
Wheel, rotation reversing assembly, overlapping wheel are required for inside and outside two groups, in conclusion existing lamination occupied space is big, adjust station
It is more, it will produce relatively large deviation beyond certain speed of service.
Invention content
It is missed to solve the front and back position generated in the interior independent lamination process of lateral film shape material present in the prior art
The defect of difference, the present invention provide a kind of flaky material transfering part and technique, it can be achieved that interior lateral film shape material while overlapping
Onto the multilayer materials of production line.
The technical solution adopted by the present invention to solve the technical problems is:
A kind of transfering part of flaky material includes the banding substrate conveying device for inputting flaky material, and being used for will
Sheet material cutting shifts wheel at the cut-out of base material, and the spacing for pulling open base material spacing pulls open wheel, is used for the rotation of transfer substrate
The overlapping wheel for turning assembly and being folded into the base material that rotation assembly transfer comes on multilayer materials,
The rotation assembly includes the inside Rotary adsorption disk rotated synchronously and outside Rotary adsorption disk, and inside rotation is inhaled
Intermediate rotating disk is equipped among attached disk and outside Rotary adsorption disk, the inside Rotary adsorption disk, which is equipped with, can not turn inside suction
Attached disk and rotatable inside suction tray, it is 2n that can not turn inside suction tray and inside suction tray total quantity, and n >=1 can not turn
Inside suction tray and the setting of inside suction tray interval, the outside Rotary adsorption disk are equipped with and can not turn inside suction tray position
Set can not turn correspondingly outside suction tray and with the one-to-one outside suction tray in inside suction tray position, the inside
Suction tray and outside suction tray are equipped with the driving device of both drivings rotation.
Further, the rotation assembly center is equipped with fixing axle, is fixed with fixed cam in fixing axle, described consolidates
Determine cam and be equipped with curve chute, rotation driving wheel mandrel, the rotation master are rotatably connected in the intermediate rotating disk
Driving wheel mandrel one end is hinged with rotation cam arm, and the sliding roller on the rotation cam arm is in the curved groove of fixed cam
Sliding, the driving device include being arranged between the rotation driving wheel mandrel and inside suction tray and rotation driving wheel
Gear mechanism between mandrel and outside suction tray or synchronous belt drive mechanism.
Further, the gear mechanism includes that the rotation driving wheel mandrel slides rotation cam arm separate
The fixed first gear mechanism in one end, the second gear mechanism and institute engaged with first gear mechanism on the inside suction tray
State the third gear mechanism engaged with first gear mechanism on the suction tray of outside.
Further, the rotation assembly includes for adjusting between inside Rotary adsorption disk and outside Rotary adsorption disk
The adjusting apparatus of distance, the adjusting apparatus include being fixed on the positioning and guiding axis of the intermediate rotating disk, and described is interior
Side rotates suction tray and outside Rotary adsorption disk and is slided at positioning and guiding axis both ends, and the intermediate rotating disk, which is rotatably connected to, to be led
To lead screw, the inside Rotary adsorption disk and outside Rotary adsorption disk are threadedly coupled with guiding lead screw.
Further, the first gear mechanism is the rotation driving wheel being fixed in rotation driving wheel mandrel, described
Second gear mechanism include the inside rotation driven wheel being fixedly connected with inside suction tray, the third gear mechanism includes
The outside rotation driven wheel being fixedly connected with outside suction tray, is engaged between the rotation driving wheel and inside rotation driven wheel
There is inside planetary gear, outside planetary gear, the inside are engaged between the rotation driving wheel and outside rotation driven wheel
Planetary gear, rotation driving wheel are hinged with driving wheel with the center of outside planetary gear three and connect bearing block jointly, described
Inside planetary gear is hinged with driven wheel with the center of both inside rotation driven wheels and connects bearing block, the outside jointly
Planetary gear is hinged with driven wheel with the center of both outside rotation driven wheels and connects bearing block jointly.
As an alternative embodiment of the invention, the inside Rotary adsorption disk, outside Rotary adsorption disk fix rotation
Disk integrated setting is constant spacing rotating disk.
Further, the first gear mechanism is the constant spacing rotation active being fixed in rotation driving wheel mandrel
Wheel, the second gear mechanism includes rotation driven wheel on the inside of the constant spacing being fixedly connected with inside suction tray, described
Third gear mechanism includes rotation driven wheel on the outside of the constant spacing being fixedly connected with outside suction tray.
Further, the online interval rotation lamination further includes the fixed seat for fixing rotation assembly, institute
The fixing axle stated is fixed in fixed seat, and rotating drive shaft, one end of rotating drive shaft are rotatably connected in the fixing axle
The intermediate rotating disk of connection, the other end of rotating drive shaft are equipped with are driven engagement wheel with transmitting torque, are connected on transmission engagement wheel
There is drive component.
Further, rotation lamination in the online interval further includes inside absorption negative pressure cabin and outside absorption negative pressure
Storehouse, inside absorption negative pressure cabin are fixed on rotating drive shaft, are equipped with the negative pressure cabin in different sections within a certain angle, are
Inside suction tray absorption flaky material, which provides, stablizes negative pressure;The outside absorption negative pressure cabin is fixed in fixing axle, certain
The negative pressure cabin in different sections is equipped in angle, adsorbing flaky material for outside suction tray provides stable negative pressure.
Further, the driving device is the motor or rotary pneumatic of driving inside suction tray and outside suction tray rotation
Cylinder.
A kind of technique of flaky material transfering part as described above, includes the following steps:
S1:The flaky material includes inner band base material and outer band base material (54), the inner band base material
By banding substrate conveying device (6) while entering on the cut-out rotor of cut-out transfer wheel with outer band base material;
S2:There is special-shaped sword, the abnormal shape sword inner band base material is cut into shape and is not advised on the cut-out rotor
Inside patch unit then, outer band base material is cut into the irregular outside patch unit of shape by the abnormal shape sword, described
Spacing pull open wheel inside patch unit and outside patch unit are pulled open in the spacing of circumferential direction;
S3:The inside patch unit that spacing is pulled open and outside patch unit are transferred to overlapping wheel by the rotation assembly,
In in rotation assembly transfer process, have the inside sheet cell position flaky material identical with demand position of half without
Rotation, the flaky material that the other half inside sheet cell position is opposite with demand position also carry out 180 ° in transfer process
Rotation, rotation and not rotation both operating statuses alternate progress in rotation assembly, outside patch unit rotation and
The position of not rotation is corresponded with inside patch unit, and the rotation of outside patch unit and the rotation of inside patch unit are same
Step carries out;
S4:Finally inside patch unit and outside patch unit are shifted and are folded into multilayer materials by overlapping wheel simultaneously
On.
Advantageous effect:
(1) it is folded into the mechanism of multilayer materials on production line simultaneously using interior lateral film shape material, has saved machine
On installation space, reduce parts usage quantity, reduce the specific energy consumption of machine, facilitate operative employee when changing the line of production
Sequence;
(2) on the original basis, interior outside absorption migration component is integrated in same group parts by the present invention, is solved interior
Outside flaky material causes position when more than certain rotating speed when former and later two stations overlap because the time of interior outside overlapping is different
The offset set;Inside and outside suction tray in the same part mutually hangs down during transfer sheet material with base material traffic direction
On straight direction, the error of flaky material position offset can be within a reasonable range;
(3) driven wheel or Rotary adsorption disk on interior outside suction tray is driven to use by using same group of driving wheel
Independent controllable power source, effective solution interior lateral film shape material generated error during rotation.
Description of the drawings
The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments.
Fig. 1 is the 3-D view of the transfering part of the flaky material of the present invention;
Fig. 2 is the front view of the transfering part of the flaky material of the present invention;
Fig. 3 is the structural front view of rotation assembly embodiment 1 of the present invention;
Fig. 4 is the structural side view of rotation assembly embodiment 1 of the present invention;
Fig. 5 is the structure sectional view of rotation assembly embodiment 1 of the present invention;
Fig. 6 is suction tray adjustable spacing rotation transmission adjustment schematic diagram in outside in the present invention;
Fig. 7 is that outside suction tray maximum spacing rotation is driven schematic diagram in the present invention;
Fig. 8 is the structural front view of rotation assembly embodiment 2 of the present invention;
Fig. 9 is the structural side view of rotation assembly embodiment 2 of the present invention;
Figure 10 is the structure sectional view of rotation assembly embodiment 2 of the present invention;
Figure 11 is outside suction tray constant spacing rotation transmission adjustment schematic diagram in the present invention;
Figure 12 is that outside banding substrate takes patch unit conversion schematic diagram in the present invention.
Wherein, 1, rotation assembly, 11, intermediate rotating disk, 112, positioning and guiding axis, 113, be oriented to lead screw, 114, rotation master
Driving wheel mandrel, 115, rotation cam arm, 116, interior olo adjust driving wheel, 117, spacing adjust driven wheel, 12, inside rotation
Suction tray, 122, inside fix absorption dish axle, 123, inside rotation adsorb dish axle, 124, inside suction tray, 124 ', can not turn in
Side suction tray, 13, outside Rotary adsorption disk, 132, outside fix absorption dish axle, 133, outside rotation adsorb dish axle, 134, outside
Suction tray, 134 ', can not turn outside suction tray, 14, inside adsorb negative pressure cabin, 15, outside adsorb negative pressure cabin, 161, rotation actively
Wheel, 162, inside planetary gear, 163, inside rotation driven wheel, 164, outside planetary gear, 165, outside rotation driven wheel, 166, main
Driving wheel connects bearing block, 167, driven wheel connect bearing block, 17, fixed seat, 171, fixing axle, 172, drive component, 173, pass
Dynamic engagement wheel, 174, fixed cam, 175, rotating drive shaft, 18, constant spacing rotating disk, 191, constant spacing rotation actively
Wheel, 192, rotation driven wheel on the inside of constant spacing, 193, rotation driven wheel on the outside of constant spacing, 2, overlapping wheel, 3, spacing pulls open
Wheel, 4, cut-out transfer wheel, 42, cut-out rotor, 5, multilayer materials, 51, outside flaky material, 52, inside flaky material,
53, outer band base material, 54, inner band base material, 6, banding substrate conveying device.
Specific implementation mode
Such as Fig. 1-2, a kind of transfering part of flaky material includes the banding substrate conveying device for inputting flaky material
6, for the cut-out transfer wheel 4 by sheet material cutting at base material, the spacing for pulling open base material spacing pulls open wheel 3, for turning
It moves the rotation assembly 1 of base material and rotation assembly 1 is shifted into the overlapping wheel 2 that the base material to come is folded on multilayer materials 5,
Rotation assembly 1 includes the inside Rotary adsorption disk 12 rotated synchronously and outside Rotary adsorption disk 13, and inside rotation is inhaled
Intermediate rotating disk 11 is equipped among attached disk 12 and outside Rotary adsorption disk 13, inside Rotary adsorption disk 12, which is equipped with, can not turn inside
Suction tray 124 ' and rotatable inside suction tray 124, can not turn inside suction tray 124 ' and suction tray 124 total quantity in inside is
2n, n >=1 can not turn inside suction tray 124 ' and the setting of the interval of inside suction tray 124, and outside Rotary adsorption disk 13 is equipped with
With can not turn inside suction tray 124 ' position can not turn correspondingly outside suction tray 134 ' and with 124 position of inside suction tray
One-to-one outside suction tray 134, inside suction tray 124 and outside suction tray 134 are equipped with the driving of both drivings rotation
Device.
1 center of rotation assembly is equipped with fixing axle 171, and fixed cam 174 is fixed in fixing axle 171, fixes on cam 174
Equipped with curve chute, rotation driving wheel mandrel 114,114 one end of rotation driving wheel mandrel are rotatably connected in intermediate rotating disk 11
It is hinged with rotation cam arm 115, the sliding roller on rotation cam arm 115 slides in the curved groove of fixed cam 174, drives
Device includes setting between rotation driving wheel mandrel 114 and inside suction tray 124 and rotation driving wheel mandrel 114 is inhaled with outside
Gear mechanism between attached disk 134 or synchronous belt drive mechanism.
It is fixed in one end far from sliding rotation cam arm 115 specifically, gear mechanism includes rotation driving wheel mandrel 114
First gear mechanism, the second gear mechanism engaged with first gear mechanism on inside suction tray 124 and outside absorption
The third gear mechanism engaged with first gear mechanism on disk 134.
The patch unit 51 and during outside patch unit 52 wherein on the inside of the transfer of rotation assembly 1, there is half quantity
Inside patch unit 51 and outside patch unit 52 position it is identical as the position that need to be overlapped on multilayer materials 5 when,
They only carry out the center rotating around rotation assembly 1, the inside patch unit 51 of the other half quantity and outside patch unit 52
When position is opposite with the position that need to be overlapped on multilayer materials 5, they around the center of rotation assembly 1 in rotation process
In, it is identical with the position for reaching with being overlapped on multilayer materials 5 also after 180 ° of respective central shaft rotation, both
Operating status is to alternate progress, is based on this operation principle, and concrete structure is as follows:
Such as Fig. 8, inside suction tray 124 and 134 position of outside suction tray are named as R1, R3, R5...., can not turn interior
Side suction tray 124 ' is named as R2, R4, R6.... with that can not turn outside 134 ' position of suction tray, can not turn inside suction tray
124 is identical with 124 quantity of inside suction tray, can not turn outside suction tray 134 ' it is identical with 134 quantity of outside suction tray, can not turn
Inside suction tray 124 ' is fixed absorption dish axle 122 by inside and is mounted on inside Rotary adsorption disk 12, and inside suction tray 124 is logical
It crosses inside rotation absorption dish axle 123 to be mounted on inside Rotary adsorption disk 12, it is solid by outside that outside suction tray 134 ' can not be turned
Surely absorption dish axle 132 is mounted on outside Rotary adsorption disk 13, and outside suction tray 134 adsorbs dish axle 133 by outside rotation pacifies
On outside Rotary adsorption disk 13.
During the work time, inside Rotary adsorption disk 12, outside Rotary adsorption disk 13 and center rotating disk 11 are with identical
Angular velocity omega moves in a circle around fixing axle 171, wherein inside suction tray 124, outside suction tray 134 (R1, R3,
R5.... equal fixed positions) in carrying out circumference operational process, it is also compound by being done together with the track groove on fixed cam 174
Operating, the axis centered on inside autobiography absorption dish axle 123, outside autobiography absorption dish axle 133, respectively carry out 180 ° from revolving die
Formula;Wherein inside suction tray 124, outside suction tray 134 follow inside to rotate respectively (in fixed positions such as R2, R4, R6....)
Disk 121, outside rotating disk 131 move in a circle around fixing axle 171 together.
Such as Fig. 4 and Fig. 9, online interval rotation lamination further includes the fixed seat 17 for fixing rotation assembly 1, fixed
Axis 171 is fixed in fixed seat 17, and rotating drive shaft 175, one end of rotating drive shaft 175 are rotatably connected in fixing axle 171
The intermediate rotating disk 11 of connection, the other end of rotating drive shaft 175 are equipped with are driven engagement wheel 173 with transmitting torque, transmission engagement
It is connected with drive component 172 on wheel 173, drive component 172 can be motor.Online interval rotation lamination further includes inside
It adsorbs negative pressure cabin 14 and negative pressure cabin 15 is adsorbed in outside, inside absorption negative pressure cabin 14 is fixed on rotating drive shaft 175, at certain angle
The negative pressure cabin in different sections is equipped in degree, adsorbing flaky material for inside suction tray 124 provides stable negative pressure;Adsorb negative pressure in outside
Storehouse 15 is fixed in fixing axle 171, is equipped with the negative pressure cabin in different sections within a certain angle, is 134 suction sheet of outside suction tray
Shape material, which provides, stablizes negative pressure.
The structure of rotation assembly 1 has following embodiment:
Embodiment 1:
Such as Fig. 5, rotation assembly 1 includes for adjusting distance between inside Rotary adsorption disk 12 and outside Rotary adsorption disk 13
Adjusting apparatus, adjusting apparatus includes the positioning and guiding axis 112 being fixed in intermediate rotating disk 11,12 He of inside Rotary adsorption disk
Outside Rotary adsorption disk 13 slides at 112 both ends of positioning and guiding axis, is rotatably connected in intermediate rotating disk 11 and is oriented to lead screw 113,
Inside Rotary adsorption disk 12 and outside Rotary adsorption disk 13 are threadedly coupled with guiding lead screw 113.12 He of inside Rotary adsorption disk
Relative spacing is adjusted by being oriented to the screw thread at 113 both ends of lead screw between outside Rotary adsorption disk 13, lead screw 113 is oriented to and passes through axis
It holds and is arranged in intermediate rotating disk 11, guiding lead screw 113 is parallel with positioning and guiding axis 112, positioning and guiding axis 112 and guiding lead screw
113 are centrally located on rotating disk 11, inside Rotary adsorption disk 12 and outside Rotary adsorption disk 13, can be circumferential be uniformly distributed
And irregular distribution, be fitted on each guiding lead screw 113 spacing adjustment driven wheel 117, each spacing adjustment from
Driving wheel 117 is all engaged with interior olo adjustment driving wheel 116, when olo adjusts driving wheel 116 in rotation, all spacing
Adjustment driven wheel 117 can all drive the corresponding lead screw 113 that is oriented to rotate, to realize inside Rotary adsorption disk 12 and outside rotation
Spacing adjustment between suction tray 13.
Such as Fig. 6 and Fig. 7, first gear mechanism is the rotation driving wheel 161 being fixed in rotation driving wheel mandrel 114, the
Two gear mechanisms include the inside rotation driven wheel 163 being fixedly connected with inside suction tray 124, third gear mechanism include with outside
The outside rotation driven wheel 165 that side suction tray 134 is fixedly connected, is nibbled between rotation driving wheel 161 and inside rotation driven wheel 163
Conjunction has inside planetary gear 162, and outside planetary gear 164 is engaged between rotation driving wheel 161 and outside rotation driven wheel 165, interior
The center of 164 three of skidding star-wheel 162, rotation driving wheel 161 and outside planetary gear is hinged with driving wheel connecting shaft jointly
The center of both bearing 166, inside planetary gear 162 and inside rotation driven wheel 163 is hinged with driven wheel connecting shaft jointly
The center of both bearing 167, outside planetary gear 164 and outside rotation driven wheel 165 is hinged with driven wheel connecting shaft jointly
Bearing 167.
Rotation driving wheel 161 is fixed on one end of rotation driving wheel mandrel 114, and rotation driving wheel mandrel 114 passes through rolling
For bearing fit in the location hole of intermediate rotating disk 111, the other end of rotation driving wheel mandrel 114 is connected with rotation cam arm
115, the sliding roller in rotation cam arm 115 slides in the curved groove of fixed cam 174, changes cam by curved groove
The angle in 115 relative datum face of arm drives rotation driving wheel mandrel 114 to rotate, to realize that rotation driving wheel 161 is doing circumference
Rotation operation is also carried out during operation, rotation driving wheel 161 is distinguished by inside planetary gear 162 and outside planetary gear 164
Inside rotation driven wheel 163 and outside rotation driven wheel 165 is driven to do the rotation of equal angular, 163 He of inside rotation driven wheel
165 number of teeth having the same of outside rotation driven wheel, when the number of teeth in the angle that rotation driving wheel 161 rotates every time is just interior
When the half of 163 number of teeth of side rotation driven wheel, inside rotation driven wheel 163 and 165 rotation of outside rotation driven wheel can be made
180 °, to drive inside suction tray 124, outside suction tray 134 do (in fixed positions such as R1, R3, R5....) 180 ° from
Turn.
As shown in Figure 6 and Figure 7, it is that the planet meshing gear of adjustable spacing is driven schematic diagram, inside planetary gear 162 and outer
Skidding star-wheel 164 connects bearing block 166 and the connection of rotation driving wheel 161 by driving wheel and follows rotation, inside rotation driven
Wheel 163 connects bearing block 167 by driven wheel and inside planetary gear 162 connects and follow rotation, outside rotation driven wheel 165 logical
It crosses driven wheel connection bearing block 167 and outside planetary gear 164 connects and follows rotation, when by adjusting inside Rotary adsorption disk 12
When with the spacing of outside Rotary adsorption disk 13, driving wheel connects angle between bearing block 166 and driven wheel connection bearing block 167 and sends out
Raw change, also holding engagement operation between them connect the adjustment of bearing block 167 with driven wheel when driving wheel connects bearing block 166
When on to same straight line, to be adjusted to maximum spacing L2.It is same as above, when inside rotation driven wheel 163 and outside rotation from
When being tooth form V belt translation between driving wheel 165 and rotation driving wheel 161, inside planetary gear 162 and outside planetary gear 164, work as rotation
The number of teeth of the driving wheel 161 in rotation angle, just on inside rotation driven wheel 163 when the half of the number of teeth, inside rotation from
Driving wheel 163 and outside rotation driven wheel 165 are all completed at the same time 180 ° of rotation operation.
Embodiment 2:
Such as Fig. 9 and Figure 10, inside Rotary adsorption disk 12, outside Rotary adsorption disk 13 fix 11 integrated setting of rotating disk and are
Constant spacing rotating disk 18.
Such as Figure 11, first gear mechanism is the constant spacing rotation driving wheel being fixed in rotation driving wheel mandrel 114
191, second gear mechanism includes rotation driven wheel 192, third tooth on the inside of the constant spacing being fixedly connected with inside suction tray 124
It includes rotation driven wheel 193 on the outside of the constant spacing being fixedly connected with outside suction tray 134 to take turns mechanism.
Constant spacing rotation driving wheel 191 is fixed on one end of rotation driving wheel mandrel 114, rotation driving wheel mandrel 114
By rolling bearing cooperation in the location hole of constant spacing rotating disk 18, the other end of rotation driving wheel mandrel 114 is connected with
Rotation cam arm 115, the sliding roller in rotation cam arm 115 slide in the curved groove of fixed cam 174, pass through curved groove
To change the angle in 115 relative datum face of cam arm, 114 rotation of drive rotation driving wheel mandrel, to realize constant spacing certainly
Turn driving wheel 191 and also carry out rotation operation during doing circumference operation, constant spacing rotation driving wheel 191 is by engaging band
Rotation driven wheel 193 correspondingly rotates on the outside of dynamic constant spacing inside rotation driven wheel 192 and constant spacing, in constant spacing
193 number of teeth having the same of rotation driven wheel on the outside of side rotation driven wheel 192 and constant spacing, when constant spacing rotation driving wheel
When the number of teeth in 191 angles rotated every time is just the half of 192 number of teeth of rotation driven wheel on the inside of constant spacing, it can make solid
180 ° of 193 rotation of rotation driven wheel on the outside of determining deviation inside rotation driven wheel 192 and constant spacing, to drive inside suction tray
124, outside suction tray 134 does 180 ° of rotation (in fixed positions such as R1, R3, R5....).
As shown in figure 11, described to be driven schematic diagram for meshing gear, between constant spacing inside rotation driven wheel 192 and fixation
It is engaged on the both ends of constant spacing rotation driving wheel 191 away from outside rotation driven wheel 193, and follows constant spacing rotation driving wheel
191 do the rotation of identical linear velocity together, when constant spacing rotation driving wheel 191 does rotation angle by the swing of cam arm 115
The interior number of teeth, just on the inside of constant spacing on rotation driven wheel 192 when the half of the number of teeth, rotation driven wheel on the inside of constant spacing
192 and constant spacing on the outside of rotation driven wheel 193 be all completed at the same time 180 ° rotation operation.It is same as above, when in constant spacing
It is toothed belt between rotation driven wheel 193 and constant spacing rotation driving wheel 191 on the outside of side rotation driven wheel 192 and constant spacing
It is just rotation driven wheel on the inside of constant spacing when the number of teeth of the constant spacing rotation driving wheel 191 in rotation angle when transmission
On 192 when the half of the number of teeth, rotation driven wheel 193 is all simultaneously on the outside of rotation driven wheel 192 and constant spacing on the inside of constant spacing
Complete 180 ° of rotation operation.
A kind of technique of above-mentioned flaky material transfering part, includes the following steps:
S1:Flaky material includes inner band base material 53 and outer band base material 54, the inner band base material 53 and outer
Side banding substrate 54 is entered by banding substrate conveying device 6 simultaneously on the cut-out rotor 42 of cut-out transfer wheel 4;
S2:Cutting off has special-shaped sword on rotor 42, it is irregular that inner band base material 53 is cut into shape by the abnormal shape sword
Inside patch unit 51, it is described abnormal shape sword outer band base material 54 is cut into the irregular outside patch unit 52 of shape,
Spacing pulls open wheel 3 and pulls open inside patch unit 51 and outside patch unit 52 in the spacing of circumferential direction;
S3:The inside patch unit 51 that spacing is pulled open and outside patch unit 52 are transferred to overlapping by the rotation assembly 1
Wheel 2, wherein in 1 transfer process of rotation assembly, there is 51 position of the inside patch unit sheet identical with demand position of half
Material is without rotation, the other half 51 position of the inside patch unit flaky material opposite with demand position is in transfer process
Also carry out 180 ° of rotation, rotation and not rotation both operating statuses alternate progress, lateral film in rotation assembly 1
The position of 52 rotation of shape unit and not rotation and inside patch unit 51 correspond, and the rotation of outside patch unit 52 with it is interior
The rotation of side patch unit 51, which synchronizes, to be carried out;
S4:Finally inside patch unit 51 and outside patch unit 52 are shifted simultaneously and are folded into multilayer and answered by overlapping wheel 2
On condensation material 5.
Specifically, such as Figure 12, outer band base material 53, inner band base material 54 are by the cut-out transfer of interior lateral film shape material
It is cut into cross one another flaky material (51-R1,51-R2,51-R3......, 52-R1,52-R2,52- after wheel 4
R3...... it after), is transferred to spacing and pulls open on wheel 3, since spacing pulls open the linear velocity on 42 surface of wheel 3 and cut-out rotor not
Together, cross one another flaky material is transferred just pulls open certain spacing afterwards, after entering rotation assembly 1, there is half position
Flaky material (51-R2,51-R4,51-R6......, 52-R2,52-R4,52-R6......) identical with demand position follows
It is transferred on overlapping wheel 2, the other half position flaky material opposite with demand position (51-R1,51-R3,51-R5......,
52-R1,52-R3,52-R5......) in transfer process, 180 ° of position overturning is also carried out, is transformed to and demand position
After identical, it is then transferred on overlapping wheel 2, the position for the flaky material being finally superimposed on multilayer materials 5 is all identical bits
It sets.
When driving device is other type of drive, driving inside suction tray 124 and 134 rotation of outside suction tray can be electricity
Machine or rotary cylinder.Can an electricity be respectively set to the inside suction tray 124 of each rotation and outside suction tray 134 respectively
Machine or rotary cylinder, one-to-one one group of inside suction tray 124 and outside suction tray 134 can also be allowed using a motor or
Rotary cylinder.
It should be appreciated that specific embodiment described above is only used for explaining the present invention, it is not intended to limit the present invention.By
The obvious changes or variations that the spirit of the present invention is extended out are still in the protection scope of this invention.
Claims (11)
1. a kind of transfering part of flaky material, it is characterised in that:Include conveying dress for inputting the banding substrate of flaky material
(6) are set, for the cut-out transfer wheel (4) by sheet material cutting at base material, the spacing for pulling open base material spacing pulls open wheel
(3), it is used for the rotation assembly (1) of transfer substrate and the base material that rotation assembly (1) transfer comes is folded into multilayer materials
(5) the overlapping wheel (2) on,
The rotation assembly (1) includes the inside Rotary adsorption disk (12) and outside Rotary adsorption disk (13) of synchronous rotation, interior
Side, which rotates, is equipped with intermediate rotating disk (11), the inside Rotary adsorption among suction tray (12) and outside Rotary adsorption disk (13)
Disk (12), which is equipped with, can not turn inside suction tray (124 ') and rotatable inside suction tray (124), can not turn inside suction tray
(124 ') and inside suction tray (124) total quantity is 2n, and n >=1 can not turn inside suction tray (124 ') and inside suction tray
(124) interval setting, the outside Rotary adsorption disk (13) are equipped with and can not turn inside suction tray (124 ') position one by one
It is corresponding can not turn outside suction tray (134 ') and with the one-to-one outside suction tray (134) in inside suction tray (124) position,
The inside suction tray (124) and outside suction tray (134) is equipped with the driving device of both drivings rotation.
2. a kind of transfering part of flaky material according to claim 1, it is characterised in that:The rotation assembly (1)
Center is equipped with fixing axle (171), is fixed with fixed cam (174) in fixing axle (171), is set on the fixation cam (174)
There is curve chute, rotation driving wheel mandrel (114) is rotatably connected in the intermediate rotating disk (11), the rotation is actively
Wheel arbor (114) one end is hinged with rotation cam arm (115), and the sliding roller on the rotation cam arm (115) is in fixation
Sliding in the curved groove of cam (174), the driving device include be arranged the rotation driving wheel mandrel (114) with it is interior
Gear mechanism or synchronous between side suction tray (124) and between rotation driving wheel mandrel (114) and outside suction tray (134)
Tape handler.
3. a kind of transfering part of flaky material according to claim 2, it is characterised in that:The gear mechanism includes
The rotation driving wheel mandrel (114) is in the fixed first gear mechanism in one end far from sliding rotation cam arm (115), institute
In the second gear mechanism and the outside suction tray (134) engaged with first gear mechanism on the inside suction tray (124) stated
The third gear mechanism engaged with first gear mechanism.
4. a kind of transfering part of flaky material according to claim 3, it is characterised in that:The rotation assembly (1)
Adjusting apparatus including being used to adjust distance between inside Rotary adsorption disk (12) and outside Rotary adsorption disk (13), the tune
Engagement positions include the positioning and guiding axis (112) being fixed in the intermediate rotating disk (11), the inside Rotary adsorption disk
(12) it slides at positioning and guiding axis (112) both ends with outside Rotary adsorption disk (13), is rotated in the intermediate rotating disk (11)
Be connected with and be oriented to lead screw (113), the inside Rotary adsorption disk (12) and outside Rotary adsorption disk (13) with guiding lead screw
(113) it is threadedly coupled.
5. a kind of transfering part of flaky material according to claim 4, it is characterised in that:The first gear mechanism
To be fixed on the rotation driving wheel (161) in rotation driving wheel mandrel (114), the second gear mechanism includes being inhaled with inside
The inside rotation driven wheel (163) that attached disk (124) is fixedly connected, the third gear mechanism include and outside suction tray
(134) the outside rotation driven wheel (165) being fixedly connected, the rotation driving wheel (161) and inside rotation driven wheel (163)
Between be engaged with inside planetary gear (162), engaged between the rotation driving wheel (161) and outside rotation driven wheel (165)
There are outside planetary gear (164), the inside planetary gear (162), rotation driving wheel (161) and outside planetary gear (164) three
Center be hinged with jointly driving wheel connection bearing block (166), the inside planetary gear (162) and inside rotation are driven
The center of wheel both (163) is hinged with driven wheel connection bearing block (167) jointly, the outside planetary gear (164) and
The center of both outside rotation driven wheels (165) is hinged with driven wheel connection bearing block (167) jointly.
6. a kind of transfering part of flaky material according to claim 3, it is characterised in that:The inside Rotary adsorption
Fixed rotating disk (11) integrated setting of disk (12), outside Rotary adsorption disk (13) is constant spacing rotating disk (18).
7. a kind of transfering part of flaky material according to claim 6, it is characterised in that:The first gear mechanism
To be fixed on the constant spacing rotation driving wheel (191) in rotation driving wheel mandrel (114), the second gear mechanism includes
Rotation driven wheel (192), the third gear mechanism include on the inside of the constant spacing being fixedly connected with inside suction tray (124)
Rotation driven wheel (193) on the outside of the constant spacing being fixedly connected with outside suction tray (134).
8. according to a kind of transfering part of flaky material of claim 1-7 any one of them, it is characterised in that:Described is online
Interval rotation lamination further includes for fixing the fixed seat of rotation assembly (1) (17), and the fixing axle (171) is fixed on
In fixed seat (17), it is rotatably connected to rotating drive shaft (175) in the fixing axle (171), the one of rotating drive shaft (175)
The intermediate rotating disk (11) of end connection, the other end of rotating drive shaft (175), which is equipped with, is driven engagement wheel (173) with transmitting torque,
It is connected with drive component (172) on transmission engagement wheel (173).
9. a kind of transfering part of flaky material according to claim 8, it is characterised in that:The online interval rotation
Lamination further includes inside absorption negative pressure cabin (14) and outside absorption negative pressure cabin (15), and negative pressure cabin (14) is adsorbed in the inside
It is fixed on rotating drive shaft (175), is equipped with the negative pressure cabin in different sections within a certain angle, inhaled for inside suction tray (124)
Attached flaky material, which provides, stablizes negative pressure;The outside absorption negative pressure cabin (15) is fixed in fixing axle (171), in certain angle
The interior negative pressure cabin equipped with different sections adsorbs flaky material and provides and stablizes negative pressure for outside suction tray (134).
10. a kind of transfering part of flaky material according to claim 1, it is characterised in that:The driving device is
The motor or rotary cylinder of driving inside suction tray (124) and outside suction tray (134) rotation.
11. a kind of technique based on flaky material transfering part described in claim 1, it is characterised in that:Include the following steps:
S1:The flaky material includes inner band base material (53) and outer band base material (54), the inner band base material
(53) and outer band base material (54) by banding substrate conveying device (6) while entering the cut-out rotor for cutting off transfer and taking turns (4)
(42) on;
S2:There is special-shaped sword, the abnormal shape sword inner band base material (53) is cut into shape on the cut-out rotor (42)
Outer band base material (54) is cut into the irregular lateral film of shape by irregular inside patch unit (51), the abnormal shape sword
Shape unit (52), the spacing pull open wheel (3) by inside patch unit (51) and outside patch unit (52) in circumferential direction
Spacing pull open;
S3:The inside patch unit (51) that spacing is pulled open and outside patch unit (52) are transferred to folded by the rotation assembly (1)
Close wheel (2) has inside patch unit (51) position and the demand position phase of half wherein in rotation assembly (1) transfer process
Without rotation, the flaky material that the other half inside patch unit (51) position is opposite with demand position exists same flaky material
180 ° of rotation is also carried out in transfer process, rotation and both operating statuses of not rotation are spaced friendship in rotation assembly (1)
For progress, position and the inside patch unit (51) of (52) rotation of outside patch unit and not rotation correspond, and lateral film
The rotation of shape unit (52) is synchronous with the rotation of inside patch unit (51) to be carried out;
S4:Finally overlapping wheel (2) by inside patch unit (51) and outside patch unit (52) while shifting and being folded into multilayer
On composite material (5).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810359139.3A CN108481433B (en) | 2018-04-20 | Sheet material transfer component and process |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810359139.3A CN108481433B (en) | 2018-04-20 | Sheet material transfer component and process |
Publications (2)
Publication Number | Publication Date |
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CN108481433A true CN108481433A (en) | 2018-09-04 |
CN108481433B CN108481433B (en) | 2024-04-12 |
Family
ID=
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CN113618806A (en) * | 2021-10-09 | 2021-11-09 | 南通星月印刷科技有限公司 | Body paper cutting equipment for printing machine before printing |
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