CN207390641U - Non-woven fabrics rubberizing equipment - Google Patents
Non-woven fabrics rubberizing equipment Download PDFInfo
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- CN207390641U CN207390641U CN201721362889.3U CN201721362889U CN207390641U CN 207390641 U CN207390641 U CN 207390641U CN 201721362889 U CN201721362889 U CN 201721362889U CN 207390641 U CN207390641 U CN 207390641U
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Abstract
The utility model is related to non-woven fabrics processing equipment fields, disclose a kind of non-woven fabrics rubberizing equipment, including PLC controller, rack and the traction component being located in rack and can on non-woven fabrics rubberizing rubberizing component, further include the small tension receiving coil being located in rack and pave roller and tension force component;Traction component traction non-woven fabrics is fed forward, so that non-woven fabrics paves roller, rubberizing component and tension force component by small tension receiving coil successively after traction component releasing;Further include spindle transition roller and non-woven fabrics foldable assembly.Implement the technical solution of the utility model, roller is paved by small tension receiving coil and solves the problems, such as that non-woven fabrics shrinks the corrugation of uneven and adhesive tape with adhesive tape after rubberizing in non-woven fabrics automatic assembly line, further solves the problems, such as the corrugation of fan-folded in non-woven fabrics auto-folder production line as the transition roller to non-woven fabrics foldable assembly transition by using spindle transition roller.
Description
Technical field
The present invention relates to non-woven fabrics processing equipment field, more particularly, to a kind of non-woven fabrics rubberizing equipment.
Background technology
It is existing manually to stick adhesive tape in non-woven fabrics, for example, it is common stick adhesive tape on one side of non-woven fabrics, can neither protect
The taped position dimension of card, cannot guarantee that taped flatness, and low production efficiency.Such as glue shown in Fig. 1
It is not aligned with non-woven fabrics frontside edge position with 101 edge 100a, also has the defects of rubberizing out-of-flatness 100b.
The Continuous pressing device for stereo-pattern on existing non-woven fabrics automatic layboy, can guarantee the position dimension and flatness of adhesive tape, but by
During longitudinal folding, non-woven fabrics needs drawing tension, this can cause nonwoven to be furnished with the flexible deformation of stretching, and adhesive tape
Substantially without flexible deformation, so it is difficult to that two kinds of materials is controlled to bond under conditions of identical elastic deformation amount, at this
It is pasted under the conditions of kind, after the non-woven fabrics severing on request of adhesive tape is posted, two defects can be generated, first, without viscous on non-woven fabrics
The side taped, shrinkage are more than the side for being pasted with adhesive tape, and product becomes isosceles trapezoid (as shown in Figure 2);Second is that it pastes
On adhesive tape, the shrinkage tensions effect in non-woven fabrics for a long time, and the glue in adhesive tape and non-woven fabrics or glue and shoulder strap paper
Between bonding force, can reduce over time, when the shrinkage tensions of non-woven fabrics are more than the glue and nonwoven in adhesive tape
During the bonding force of cloth or glue and shoulder strap paper, the shoulder strap paper on adhesive tape or adhesive tape can protrusion (as shown in 100c in Fig. 3).
The content of the invention
The technical problem to be solved in the present invention is, for drawbacks described above of the prior art, providing a kind of can solve nothing
Non-woven fabrics shrinks the non-woven fabrics rubberizing equipment of uneven and adhesive tape shoulder strap paper corrugation problem after rubberizing in woven fabric automatic assembly line.
The technical solution adopted by the present invention to solve the technical problems is:A kind of non-woven fabrics rubberizing equipment is constructed, including PLC
Controller, rack and the traction component for being located in rack and being located between raw material traction component and main traction component and can be in nothing
The rubberizing component of rubberizing in woven fabric further includes the small tension receiving coil being located in rack and paves roller and tension force component, traction component
Traction non-woven fabrics be fed forward, for non-woven fabrics from traction component releasing after successively by small tension receiving coil pave roller, rubberizing component and
Tension force component;
The first position sensor for the position that small tension receiving coil paves roller can be sensed by further including, and small tension receiving coil paves roller can vertical sliding
Ground is located in rack and pushes down non-woven fabrics by gravity on the upside of non-woven fabrics;
PLC controller with traction component is connected and receives the position letter that the small tension receiving coil from first position sensor paves roller
Breath paves the hauling speed of the location information adjustment traction component of roller according to small tension receiving coil.
Preferably, which further includes the spindle being located between raw material traction component and main traction component
Transition roller and non-woven fabrics foldable assembly, so that non-woven fabrics is after tension force component, after the transition of spindle transition roller
By non-woven fabrics foldable assembly longitudinal direction fan-folded.
Preferably, the fan shape center position of the fan-folded of non-woven fabrics foldable assembly is in the circle of the busbar of spindle transition roller
At the heart.
Preferably, which further includes automatic deviation correction component, so that non-woven fabrics passes through tension force successively
Component, automatic deviation correction component and spindle transition roller;
Automatic deviation correction component includes deviation rectification roller, second position sensor and correction driving mechanism, automatic correcting stone roller and is located at
On the upside of non-woven fabrics, first end is fixedly connected with rack, and another second end is slideably connected with rack and by correction driving mechanism
It drives and slides;PLC controller is connected with correction driving mechanism and receives the position letter of the non-woven fabrics from second position sensor
Breath adjusts the position of the second end of deviation rectification roller according to the location information of non-woven fabrics, and then corrects the position of non-woven fabrics.
Preferably, from downside by spindle transition roller, the straightened portion of the fan-folded of non-woven fabrics is set non-woven fabrics.
Preferably, traction component includes the traction that active carry-over pinch rolls, driven carry-over pinch rolls and driving active carry-over pinch rolls rotate
Servo-actuating device, driven carry-over pinch rolls can be slidably disposed within close to active carry-over pinch rolls in rack obliquely, and non-woven fabrics is from actively leading
Pass through between pick-up roll and driven carry-over pinch rolls and clamped by the two;PLC controller is connected to adjust master with traction servo-actuating device
The velocity of rotation of dynamic carry-over pinch rolls.
Preferably, tension force component includes active tension control roller, driven tension control roll and provides active tension
The tension controller of roller rotary resistance is controlled, driven tension control roll can be slidably disposed within close to active tension control roller obliquely
In rack, non-woven fabrics is controlled from active tension to be passed through between roller and driven tension control roll and is clamped by the two.
Preferably, rack is equipped with the first tipper obliquely, and the both ends of driven carry-over pinch rolls are located in the first tipper, with
Driven carry-over pinch rolls is made self gravitation can be relied on to be slided obliquely close to active carry-over pinch rolls.
Preferably, tension force component include active tension control roller, driven tension control roll and with active tension control
The tension controller of roller connection processed, driven tension control roll can be slidably disposed within rack close to active tension control roller obliquely
On, non-woven fabrics is controlled from active tension to be passed through between roller and driven tension control roll and is clamped by the two.
Preferably, rack is equipped with the second tipper obliquely, and driven tension control roll both ends are located at the second tipper
In, so that driven tension control roll can rely on self gravitation to control roller close to active tension obliquely.
Implement technical scheme, at least with following advantageous effect:The non-woven fabrics rubberizing equipment of the present invention leads to
It crosses small tension receiving coil and paves roller and solve in non-woven fabrics automatic assembly line non-woven fabrics and adhesive tape after rubberizing to shrink uneven and adhesive tape corrugated
Problem.
Description of the drawings
Below in conjunction with accompanying drawings and embodiments, the invention will be further described, in attached drawing:
Fig. 1 schematic diagrames that are existing craft the rubberizing on non-woven fabrics the defects of.
(block arrow direction exists the defects of Fig. 2,3 are rubberizings on existing non-woven fabrics automatic layboy schematic diagram for non-woven fabrics
Direction of advance on production line).
Fig. 4-6 is the structure diagram of existing arc rod, bowed roller and straight roller respectively.
Fig. 7,8 be non-woven fabrics rubberizing equipment in one embodiment of the present invention stereogram.
Fig. 9 is the top view of the non-woven fabrics rubberizing equipment in Fig. 7.
Figure 10 is the sectional view of A-A positions in Fig. 9.
Figure 11 is the partial enlarged view at A positions in Figure 10.
Figure 12 is the sectional view of B-B positions in Fig. 9.
Figure 13 is the partial enlarged view at B positions in Figure 12.
Figure 14 is the sectional view of C-C positions in Fig. 9.
Figure 15 is the structural representation of the non-woven fabrics foldable assembly 8 and main traction component 81 of the non-woven fabrics rubberizing equipment in Fig. 7
Figure view.
Figure 16 be non-woven fabrics by after the fan-folded of spindle transition roller longitudinal direction to the laterally folded component transition of non-woven fabrics
Schematic diagram.
Figure 17 is the structure diagram that the traction component of the non-woven fabrics rubberizing equipment in Fig. 7 and small tension receiving coil pave roller.
Figure 18,19 are the traction component of non-woven fabrics rubberizing equipment in Fig. 7 and small tension receiving coil is paved the structure diagram of roller and (saved
Slightly rack).
Figure 20 is the structure diagram of the rubberizing component of the non-woven fabrics rubberizing equipment in Fig. 7.
Figure 21 is the tension force component of non-woven fabrics rubberizing equipment and the structure diagram of automatic correcting stone roller in Fig. 7.
Figure 22-24 is the tension force component of non-woven fabrics rubberizing equipment and the structure diagram of automatic correcting stone roller in Fig. 7
(omission rack).
Figure 25,26 be non-woven fabrics rubberizing equipment in Fig. 7 automatic correcting stone roller structure diagram (omission rack).
Figure 27,28 are the orthographic projection view that the automatic correcting stone roller in Fig. 7 moves up and down respectively.
Figure 29 is the schematic diagram that non-woven fabrics carries out longitudinal fan-folded on the non-woven fabrics rubberizing equipment of the present invention along dotted line
(block arrow direction is direction of advance of the non-woven fabrics in equipment).
Figure 30 is that non-woven fabrics carries out laterally along dotted line again on the non-woven fabrics rubberizing equipment of the present invention after longitudinal fan-folded
The schematic diagram of folding.
Wherein, 1. rack, 2. raw material traction components, 21. active carry-over pinch rolls, 22. driven carry-over pinch rolls, 221. first tilt
Slot, 23. traction servo-actuating devices, 3. small tension receiving coils pave roller, 4. rubberizing components, 5. tension force components, 51. active tension controls
Roller processed, 52. driven tension control rolls, 521. second tippers, 53. tension controllers, 6. automatic deviation correction components, 61. deviation rectification rollers,
611. first ends, 612. second ends, 62. correction driving mechanisms, 7. spindle transition rollers, 8. non-woven fabrics foldable assemblies, 81, master lead
Draw component, 9. crosscutting, laterally folded components, 100. non-woven fabrics, 101. adhesive tapes.
Specific embodiment
In order to which the technical features, objects and effects to the present invention are more clearly understood, now compare attached drawing and be described in detail
The specific embodiment of the present invention.In the description of the non-woven fabrics rubberizing equipment of the present invention, it is to be understood that "front", "rear",
The terms such as " on ", " under ", " front ", " back side " are for only for ease of description technical scheme rather than instruction is signified
Device or element must have specific orientation, therefore be not considered as limiting the invention.
As shown in Fig. 7-28, the non-woven fabrics rubberizing equipment in a preferred embodiment of the invention, including PLC controller,
Rack 1 and the raw material draw groups for being located in rack 1 and being located between the raw material traction component 2 and the main traction component 81
Part 2, can on the non-woven fabrics 100 the rubberizing component 4 of rubberizing and main traction component 81, further include the Xiao Zhang being located in rack 1
Power paves roller 3, tension force component 5, automatic deviation correction component 6, spindle transition roller 7 and non-woven fabrics foldable assembly 8.
Raw material traction component 2 and main traction component 81 draw non-woven fabrics 100 and are fed forward, so that non-woven fabrics 100 is from raw material
Traction component 2 paves roller 3, rubberizing component 4, tension force component 5, automatic deviation correction component 6, spinning by small tension receiving coil successively after releasing
Capitate transition roller 7, non-woven fabrics foldable assembly 8.
Main traction component 81 provides non-woven fabrics by non-woven fabrics foldable assembly 8, spindle transition roller 7, automatic deviation correction component
6th, tension force component 5, rubberizing component 4, small tension receiving coil pave the power of roller 3;
Raw material traction component 2 provides the power from discharge mechanism traction non-woven fabrics 100, while provides main traction component 81
Required non-woven fabrics during traction meets the rate request of main traction component 81;
Small tension receiving coil paves roller 3, when mainly meeting double faced adhesive tape and being fitted in non-woven fabrics, to the tensile requirements of non-woven fabrics;
Tension controller 5, when mainly meeting 8 longitudinal direction fan-folded non-woven fabrics of non-woven fabrics foldable assembly, to non-woven fabrics
Tensile requirements.
The non-woven fabrics rubberizing equipment further includes the first position sensor that can sense the position that small tension receiving coil paves roller 3, Xiao Zhang
Power paves roller 3 and can be located to vertical sliding in rack 1 and push down non-woven fabrics 100 by gravity on the upside of non-woven fabrics.
PLC controller, which is connected with raw material traction component 2 and receives the small tension receiving coil from first position sensor, paves roller 3
Location information paves the hauling speed of the location information adjustment raw material traction component 2 of roller 3 according to small tension receiving coil, and then before and after guarantee
The speed of service it is basically identical.Small tension receiving coil pave roller 3 play non-woven fabrics 100 main traction component 81 and raw material traction component 2 it
Between cushioning effect, can meet non-woven fabrics foldable assembly 8 be driven with raw material traction component 2 it is synchronous.
Because small tension receiving coil paves roller 3, together with the lighter in weight of up and down component, moreover, because movable pulley principle, this is heavy
Amount is born by two-layer nonwoven 100, so the weight acts on the power very little on non-woven fabrics 100, the drawing suffered by non-woven fabrics 100
Expansion force again can pave non-woven fabrics 100 with regard to very little.
When the non-woven fabrics rubberizing equipment is run, raw material traction component 2 pulls out non-woven fabrics 100 from non-woven fabrics stock roll
Come and be fed forward, then non-woven fabrics 100 paves roller 3, rubberizing component 4 and tension force component 5 by small tension receiving coil successively, wherein
Rubberizing component 4 sticks adhesive tape 101, such as double faced adhesive tape 101 to non-woven fabrics 100.First position sensor can perceive small tension receiving coil paving
The upper-lower position of plain-barreled roll 3, and signal is passed into PLC controller, PLC controller issues a command to the adjustment of raw material traction component 2, and it leads
Draw speed;When small tension receiving coil paves roller 3 in bottom, raw material traction component 2 can slow down traction, and small tension receiving coil is made to pave roller 3 and is improved;When
Small tension receiving coil paves roller 3 when upper, and raw material traction component 2 can accelerate to draw, and small tension receiving coil, which paves roller 3, to be declined;Under normal circumstances,
Small tension receiving coil paves roller 3 can be in centre position;In this way, it can ensure the hauling speed of main traction component 81 and traction component 2 very well
Dispensing speed is synchronous, and can pave non-woven fabrics 100 very well.
As figs 11-13, in some embodiments, raw material traction component 2 can include active carry-over pinch rolls 21, driven lead
The traction servo-actuating device 23 that pick-up roll 22 and driving active carry-over pinch rolls 21 rotate, driven carry-over pinch rolls 22 can be obliquely close to main
Dynamic carry-over pinch rolls 21 are slidably disposed in rack 1, and non-woven fabrics 100 is between active carry-over pinch rolls 21 and driven carry-over pinch rolls 22 by simultaneously quilt
The two clamps, and pressing force is provided by the dead weight and skewed slot 221 of driven carry-over pinch rolls;PLC controller and traction servo-actuating device
23 connect to adjust the rotation of active carry-over pinch rolls 21.Wherein, traction servo-actuating device 23 generally include servo-driver and
The servomotor driven by servo-driver, servo driver drives servomotor rotate, and servomotor passes through synchronous pulley, same
Belt driving active carry-over pinch rolls 21 are walked, driven carry-over pinch rolls 22 rotate accordingly;Non-woven fabrics 100 is in the compressing of driven carry-over pinch rolls 22
Under, it is attached on active carry-over pinch rolls 21, and its cornerite is also greater than 180 °, between non-woven fabrics 100 and active carry-over pinch rolls 21, will not beat
It is sliding, when active carry-over pinch rolls 21 rotate, non-woven fabrics 100 is driven actively to be sent into.Preferably, the roller surface of active carry-over pinch rolls 21 is silicon
Glue, driven carry-over pinch rolls 22 are steel rider, and silica gel can be effectively prevented non-woven fabrics 100 and skid;Rack 1 is equipped with the first inclination obliquely
Slot 221, the both ends of driven carry-over pinch rolls 22 are located in the first tipper 221, so that driven carry-over pinch rolls 22 can rely on self gravitation
It is slided obliquely close to active carry-over pinch rolls 21.
As shown in figure 20, the form of gas expansion shaft may be employed in rubberizing component 4, installs 101 raw material of double faced adhesive tape;It is two-sided using sending
The buffer unit of glue 101, binding site sensor, actively controllable submitting double faced adhesive tape 101;Double faced adhesive tape 101 after one group of guide wheel,
It under a slight pinch roller, is fitted on non-woven fabrics 100, double faced adhesive tape 101 is sent into non-woven fabrics 100.Fig. 2,3 list
Double faced adhesive tape 101 is attached to two kinds of defects on non-woven fabrics 100.
Required tension when tension force component 5 provides folding.The tension suffered by non-woven fabrics 100 at rubberizing, is by Xiao Zhang
Power paves roller 3, and the weight for the component that moves up and down together is determined, because the overall weight of these components is small, in addition dynamic cunning
Wheel principle, the half of the tension suffered by non-woven fabrics 100, simply these weight, so, suffered tension very little on non-woven fabrics 100,
Its stretcher strain smaller because of caused by tension, can be ignored substantially;Rubberizing component 4 is included from active release double faced adhesive tape strip
Wheel, crosses belt wheel through one group, belt wheel is crossed around small tension receiving coil, cross belt wheel using one group, under a slight pinch roller, overlay in nonwoven
On cloth 100, above-mentioned small tension receiving coil crosses belt wheel and is connected with position sensor, when the small tension receiving coil, which crosses belt wheel, is in upper, independently puts double
The faster rotational speed of the servomotor of face adhesive tape material wheel, small tension receiving coil are crossed belt wheel and are moved downward;When small tension receiving coil, which crosses belt wheel, is in the next,
The rotating speed of the autonomous servomotor for putting double faced adhesive tape material wheel slows down, and small tension receiving coil is crossed belt wheel and moved upwards;Ordinary circumstance, small tension receiving coil mistake
Belt wheel is in centre position;Because double faced adhesive tape 101 does not have flexible deformation substantially;Non-woven fabrics 100 and double faced adhesive tape 101 are not having simultaneously
The defects of being bonded, effectively prevented described in Fig. 2, Fig. 3 in the case of flexible deformation;It is pasted with the nonwoven of double faced adhesive tape 101
Cloth 100 when controlling roller 51 and driven tension control roll 52 by the active tension of tension force component 5, can guarantee double faced adhesive tape 101
Needs are bonded with non-woven fabrics 100.
In the single automatic fan-shaped folding line of non-woven fabrics paving, post the non-woven fabrics 100 of double faced adhesive tape 101 through tension controller 5,
After deviation correction mechanism 6, spindle transition roller 7, enter fan-shaped longitudinal folding mechanism 8 and carry out longitudinal fan-folded, after active draw groups
Part 81, perfect condition be non-woven fabrics between spindle transition roller and active traction component, formed fan position.But existing nothing
The longitudinal folding effect of woven fabric is undesirable, wrinkles, and is that transition roller cannot so that non-woven fabrics 100 is equal in fan-folded through research
Caused by even stress.Transitioning component before existing fan-folded machine has using arc rod (as shown in Figure 4), bowed roller
The structure types such as (as shown in Figure 5) or straight roller (as shown in Figure 6), the transitioning component of these types of form cannot all solve well
Certainly during fan-folded the problem of the stress of non-woven fabrics 100:
Using the transitioning component of arc rod (as shown in Figure 4) this structure type, 100 required arc of non-woven fabrics can be solved
Shape dimensional problem, but be sliding friction when in use, frictional resistance is big, is unfavorable for fan-folded shaping;
It is rolling friction when in use using the transitioning component of bowed roller (as shown in Figure 5) this structure type, friction resistance
Power is small, but is difficult to accomplish 100 required accurate measurement of non-woven fabrics, and for non-woven fabrics 100 in fan-folded, cloth is in a longitudinal direction
Unbalance stress, folding effect is undesirable, meanwhile, the center of rotation of this bowed roller is asymmetric, rotates unstable, is also unfavorable for
Folding below;
Using the transitioning component of straight roller (as shown in Figure 6) this structure type, advantage is to be simple to manufacture, and when use is rolling
Dynamic friction, frictional resistance is small, but in a longitudinal direction fan-folded when, the stress of cloth in a longitudinal direction is extremely uneven, fold
Poor effect.
In order to solve these problems, non-woven fabrics rubberizing equipment of the invention is used as transition roller using spindle transition roller 7.Tool
For body, as shown in Fig. 7-16, in order to be folded to non-woven fabrics 100, which, which further includes, is located at raw material and leads
Draw the spindle transition roller 7 and non-woven fabrics foldable assembly 8 between component 2 and main traction component 81, so that non-woven fabrics 100 is by opening
After power control assembly 5, folded after the transition of spindle transition roller 7 by non-woven fabrics foldable assembly 8;Wherein, non-woven fabrics folds
Component 8 folds non-woven fabrics 100 in a longitudinal direction, makes non-woven fabrics 100 in the fan-shaped folding in longitudinal direction after spindle transition roller 7
Folded, non-woven fabrics foldable assembly 8 can be achieved by the prior art.Preferably, on spindle transition roller 7, non-woven fabrics folding group
The fan shape center position of the fan-folded of part 8 is in the circle centre position of the busbar of spindle transition roller 7.The shape of spindle transition roller 7
It can be overlapped well with fan-shaped circular arc, so that uniform force when non-woven fabrics folds, and non-woven fabrics 100 is operationally
Suffered frictional resistance is minimum.(block arrow direction is 100 side of advance of non-woven fabrics as shown in figure 29 in wherein longitudinal fan-folded direction
To), it is folded into sector as shown in figure 16.
Preferably, non-woven fabrics 100 passes through spindle transition roller 7, the straightened portion of the fan-folded of non-woven fabrics 100 from downside
It sets, occupation area of equipment can be saved by being vertically arranged, and save space.
In actual production, 100 position of non-woven fabrics at the spindle transition roller 7 before longitudinal fan-folded can occur partially
It moves.It has been investigated that offset Producing reason is:Non-woven fabrics steadily transmits before rubberizing, (when starting tune machine, is all
Not rubberizing), after rubberizing, because of the effect that adhesive tape is exerted a force, the non-woven fabrics position meeting at spindle transition roller before vertical folding
It shifts;Furthermore the reason for because of adhesive tape itself, the power acted on non-woven fabrics is also not quite identical, in the process of running,
Also can change, so, after sticking side glue, the position of the non-woven fabrics at spindle transition roller before vertical folding can become often
Change.Therefore, as described herein is shown in figs. 21-28, in some embodiments, which further includes automatic deviation correction component 6, for
Non-woven fabrics 100 passes through tension force component 5, automatic deviation correction component 6 and spindle transition roller 7 successively.Automatic deviation correction component 6 includes
Deviation rectification roller 61, second position sensor and correction driving mechanism 62, automatic correcting stone roller 61 are located at 100 upside of non-woven fabrics, the
One end 611 is fixedly connected with rack 1, and another second end 612 is slideably connected with rack 1 and drives cunning by correction driving mechanism 62
It is dynamic;PLC controller is connected with correction driving mechanism 62 and receives the position letter of the non-woven fabrics 100 from second position sensor
Breath adjusts the position of the second end 612 of deviation rectification roller 61 according to the location information of non-woven fabrics 100, and then corrects the position of non-woven fabrics 100
It puts.So as to which when the non-woven fabrics 100 for posting double faced adhesive tape 101, when deviateing normal position, which can go up (under or) movement, make
The non-woven fabrics 100 for posting double faced adhesive tape 101 returns to correct position.Figure 27,28 respectively illustrate deviation rectification roller 61 and move up and down
State.Wherein, deviation rectification roller 61 can be straight roller or spindle roller, be preferably spindle roller.Hair is studied in actual production
Existing, compared with straight roller is used, deviation rectification roller 61 has more advantages using spindle roller:The second end of fusiform deviation rectification roller 61
When 612 up or downs move, the lowest point of arc is understood to the left or is moved right;It is right due to the movement of arc extreme lower position
The active force of non-woven fabrics also moves (this power tiltedly or on right tiltedly acted on non-woven fabrics more left than straight roller is fast and direct),
In this way, spindle deviation rectification roller 61 acts on the power on non-woven fabrics, can balance well because being acted on caused by glue on non-woven fabrics
Unstable active force.Correction driving mechanism 62 can be various motors or other mechanisms for providing power, this can be by existing
There is technology realization, details are not described herein.
As further illustrated in figures 21-24, in some embodiments, tension force component 5 include active tension control roller 51, driven
Power controls roller 52 and provides the tension controller 53 of active tension control 51 rotary resistance of roller, and driven tension control roll 52 can
It is slidably disposed within obliquely close to active tension control roller 51 in rack 1, non-woven fabrics 100 controls roller 51 and driven from active tension
Pass through between tension control roll 52 and clamped by the two.In general, active tension control roller 51 is Silica Surface, driven tension force
Roller 52 is steel rider, and rack 1 is equipped with the second tipper 521 obliquely, and driven 52 both ends of tension control roll are located at the second inclination
In slot 521, what pressure was taken turns by installing driven tension control roll 52 second tilts skewed slot and the driven tension control roll weight of itself
It provides, the tension needed for non-woven fabrics 100 is ensured by adjusting the tension controller 53 i.e. electric current of powder coupling;It is meanwhile main
Dynamic tension controls roller 51 and pressure required when driven tension control roll 52 additionally provides double faced adhesive tape 101 and non-woven fabrics 100 is bonded.
As needed, as Figure 7-9, which may also include crosscutting, laterally folded component 9, nonwoven
Cloth 100 after spindle transition roller 7 and non-woven fabrics foldable assembly 8, process is crosscutting, laterally folded component 9 is further cut,
It is laterally folded, wherein laterally folded situation is as shown in figure 30.
In conclusion the non-woven fabrics rubberizing equipment of the present invention by small tension receiving coil paves roller 3 and solves non-woven fabrics and produces automatically
Non-woven fabrics 100 shrinks the problem of uneven and adhesive tape 101 wrinkles with adhesive tape 101 after rubberizing in line, further by using spindle
Transition roller 7 solves the fan-folded of non-woven fabrics auto-folder production line as the transition roller to 8 transition of non-woven fabrics foldable assembly
Corrugation problem.
The foregoing is only a preferred embodiment of the present invention, is not intended to limit the invention, for the skill of this field
For art personnel, the present invention can have various changes, combination and variation.Within the spirit and principles of the invention, made
Any modification, equivalent substitution, improvement and etc. should be included within scope of the presently claimed invention.
Claims (10)
1. a kind of non-woven fabrics rubberizing equipment, including PLC controller, rack (1) and the raw material traction being located in the rack (1)
Component (2), can on the non-woven fabrics rubberizing component (4) of rubberizing and main traction component (81), which is characterized in that further include and set
In the rack (1) and the small tension receiving coil that is located between the raw material traction component (2) and the main traction component (81) is paved
Roller (3) and tension force component (5), the raw material traction component (2) and main traction component (81) draw the non-woven fabrics to
Preceding conveying, for the non-woven fabrics from the raw material traction component (2) release after successively by the small tension receiving coil pave roller (3),
The rubberizing component (4) and the tension force component (5);
The first position sensor for the position that the small tension receiving coil paves roller (3) can be sensed by further including, and the small tension receiving coil paves roller (3)
It can be located to vertical sliding in the rack (1) and non-woven fabrics is stated by gravity pressure residence on the upside of the non-woven fabrics;
The PLC controller is connected with the raw material traction component (2) and receives from described in the first position sensor
Small tension receiving coil paves the location information of roller (3), and the location information that roller (3) is paved according to the small tension receiving coil adjusts the raw material draw groups
The hauling speed of part (2).
2. non-woven fabrics rubberizing equipment according to claim 1, which is characterized in that further include and be located at the raw material traction component
(2) the spindle transition roller (7) and non-woven fabrics foldable assembly (8) between the main traction component (81), for the nonwoven
Cloth is after the tension force component (5), by the non-woven fabrics folding group after the transition of the spindle transition roller (7)
Part (8) longitudinal direction fan-folded.
3. non-woven fabrics rubberizing equipment according to claim 2, which is characterized in that on the spindle transition roller (7), institute
The fan shape center position of the fan-folded of non-woven fabrics foldable assembly (8) is stated in the center of circle of the busbar of the spindle transition roller (7)
Place.
4. non-woven fabrics rubberizing equipment according to claim 3, which is characterized in that automatic deviation correction component (6) is further included, for
The non-woven fabrics passes through the tension force component (5), the automatic deviation correction component (6) and the spindle transition roller successively
(7);
The automatic deviation correction component (6) includes deviation rectification roller (61), second position sensor and correction driving mechanism (62), described
Deviation rectification roller (61) is located on the upside of the non-woven fabrics, and first end (611) is fixedly connected with the rack (1), another second end (612)
It is slideably connected with the rack (1) and is driven by the correction driving mechanism (62) and slided;The PLC controller with it is described
Correction driving mechanism (62) connects and receives the location information of the non-woven fabrics from the second position sensor, according to institute
The position of the second end (612) of the location information adjustment deviation rectification roller (61) of non-woven fabrics is stated, and then corrects the nonwoven
The position of cloth.
5. non-woven fabrics rubberizing equipment according to claim 4, which is characterized in that the deviation rectification roller (61) is spindle roller.
6. non-woven fabrics rubberizing equipment according to claim 2, which is characterized in that the non-woven fabrics passes through the spinning from downside
Capitate transition roller (7), the straightened portion of the fan-folded of the non-woven fabrics are set.
7. non-woven fabrics rubberizing equipment according to claim 1, which is characterized in that the raw material traction component (2) includes master
The traction servo-actuating device that dynamic carry-over pinch rolls (21), driven carry-over pinch rolls (22) and the driving active carry-over pinch rolls (21) rotate
(23), the driven carry-over pinch rolls (22) can be slidably disposed within close to the active carry-over pinch rolls (21) in the rack (1) obliquely,
The non-woven fabrics between the active carry-over pinch rolls (21) and the driven carry-over pinch rolls (22) from passing through and clamped by the two;It is described
PLC controller is connected to adjust the rotation of the active carry-over pinch rolls (21) with the traction servo-actuating device (23).
8. non-woven fabrics rubberizing equipment according to claim 7, which is characterized in that the rack (1) is equipped with the obliquely
One tipper (221), the both ends of the driven carry-over pinch rolls (22) are located in first tipper (221), so that described driven
Carry-over pinch rolls (22) can rely on self gravitation to be slided obliquely close to the active carry-over pinch rolls (21).
9. non-woven fabrics rubberizing equipment according to claim 1, which is characterized in that the tension force component (5) includes master
Dynamic tension control roller (51), driven tension control roll (52) and that described active tension control roller (51) rotary resistance is provided
Force controller (53), the driven tension control roll (52) can slidably set close to active tension control roller (51) obliquely
In the rack (1), the non-woven fabrics from the active tension control roller (51) and the driven tension control roll (52) it
Between pass through and clamped by the two.
10. non-woven fabrics rubberizing equipment according to claim 9, which is characterized in that the rack (1) is equipped with obliquely
Second tipper (521), driven tension control roll (52) both ends are located in second tipper (521), so that described
Driven tension control roll (52) can rely on self gravitation obliquely close to active tension control roller (51).
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CN201721362889.3U CN207390641U (en) | 2017-10-20 | 2017-10-20 | Non-woven fabrics rubberizing equipment |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107628472A (en) * | 2017-10-20 | 2018-01-26 | 金寨高贝斯无纺布制品有限公司 | Non-woven fabrics rubberizing equipment |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107628472A (en) * | 2017-10-20 | 2018-01-26 | 金寨高贝斯无纺布制品有限公司 | Non-woven fabrics rubberizing equipment |
CN107628472B (en) * | 2017-10-20 | 2023-11-28 | 金寨高贝斯无纺布制品有限公司 | Non-woven fabrics rubberizing equipment |
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