CN109023565A - A kind of artificial line fiber and its application method based on energy circulation - Google Patents
A kind of artificial line fiber and its application method based on energy circulation Download PDFInfo
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- CN109023565A CN109023565A CN201811215157.0A CN201811215157A CN109023565A CN 109023565 A CN109023565 A CN 109023565A CN 201811215157 A CN201811215157 A CN 201811215157A CN 109023565 A CN109023565 A CN 109023565A
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- slot
- end wall
- fixedly connected
- block
- right end
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- D—TEXTILES; PAPER
- D01—NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
- D01D—MECHANICAL METHODS OR APPARATUS IN THE MANUFACTURE OF ARTIFICIAL FILAMENTS, THREADS, FIBRES, BRISTLES OR RIBBONS
- D01D7/00—Collecting the newly-spun products
Abstract
The invention discloses a kind of artificial line fibers and its application method based on energy circulation, a working space is provided in the work box, the working space upper end wall is fixedly connected with a Cun Xian mechanism, the working space aft bulkhead is rotatably connected to a ring set, the grooving of front and back end wall connection working space is provided in the ring set, the working space aft bulkhead is rotatably connected to a rotary shaft connecting with motor power, the rotary shaft front end is through grooving aft bulkhead and is located in grooving, there are four the kerves that the end wall far from rotary shaft is connected to grooving using rotating shaft center as the setting of center of circle array for the rotary shaft outer end face in grooving.This apparatus structure is simple, and it is convenient to operate, can by the fiber coil of wire made according to a copy by a copy point of scheduled thickness well, continuing to roll up after the completion so that the symmetrical use of subsequent use, and multiple devices can carry out the fiber coils of wire of volume four, improving labor efficiency.
Description
Technical field
The present invention relates to Materials Division field, specially a kind of artificial line fiber and its user based on energy circulation
Method.
Background technique
Artificial line fiber and its application method based on energy circulation is a kind of practical fiber, in life or production
Generally it is utilized, and the collection after line fiber production is usually that all are rolled into one barrel.And existing line fiber is separated and is received
It is relatively low to collect efficiency, next collection cannot be automatically switched after collecting quantitatively.
Summary of the invention
The purpose of the present invention is to provide a kind of artificial line fibers and its application method based on energy circulation, to solve
The problems mentioned above in the background art.
To achieve the above object, the invention provides the following technical scheme: a kind of artificial line fiber based on energy circulation
And its application method, including work box are provided with a working space in the work box, the working space upper end wall is fixed to be connected
It is connected to a Cun Xian mechanism, the working space aft bulkhead is rotatably connected to a ring set, and a front and back end wall is provided in the ring set
It is connected to the grooving of working space, the working space aft bulkhead is rotatably connected to a rotary shaft connecting with motor power, described
Rotary shaft front end is through grooving aft bulkhead and is located in grooving, and the rotary shaft outer end face in grooving is with rotating shaft center
It is the setting of center of circle array there are four the kerve that the end wall far from rotary shaft is connected to grooving, right side kerve left end wall is fixedly connected
There is a bottom spring, the bottom spring right end is fixedly connected with a right end through kerve right end wall and the bottom in grooving
Block, the sole piece front end face in grooving are fixedly connected with a torsional pole, a twisting are rotatably connected on the torsional pole
Block is provided with a torsion spring, is provided with a rear end and work on the downside of the left side twisting block between twisting block and the torsional pole
Space aft bulkhead is fixedly connected and front end is on the upside of grooving aft bulkhead and the countercheck rod in grooving, the right side twisting block
It is provided with the limitation bar that a rear end is fixedly connected with working space aft bulkhead and front end is run through grooving aft bulkhead and is located in grooving,
There are four winding mechanisms using rotary shaft as the setting of center array for the ring set outer end wall, and the right side winding mechanism includes driven
Slot, the ring set right side are fixedly connected with a spiral block, and right end wall connection work is provided in the spiral block right end wall
The spiral slot in space, the driven slot of right end wall connection spiral slot is provided in the wall of spiral slot left end, and the driven slot is left
The extension slot of a connection driven slot and grooving is provided in end wall, the spiral slot upper end wall is fixedly connected with a linkage motor,
The linkage motor lower end surface has been connected by power a driving shaft, is provided with a drive block, the drive block on the downside of the driving shaft
The pressing groove of upper end wall connection spiral slot is provided in upper surface, the driving shaft lower end is through pressing groove upper end wall and is located at
In pressing groove, the magnetic slot of right end wall connection pressing groove, institute are provided in the driving shaft right side positioned in pressing groove
It states and is provided with an electromagnetic mechanism in magnetic slot, the pressing groove lower end wall is fixedly connected with one by pressing spring, described to press pressing spring
Upper end is fixedly connected with an expansion plate being slidably connected with pressing groove, is provided with a retraction slot, institute in the pressing groove right end wall
It states and is provided with an electromagnetic mechanism in retraction slot, upper end wall connection retraction slot and right end wall are provided in the retraction slot lower end wall
It is connected to the clamping slot of spiral slot, the drive block lower end surface is fixedly connected with a fitted shaft, and the fitted shaft lower end is fixedly connected
There is driven wheel of differential linkage slot, spiral slot left end wall is rotatably connected to a universal driving shaft, is fixedly connected on the universal driving shaft
There is a sector gear, the sector gear right end is fixedly connected with a upper end and driven wheel of differential linkage slot right end engaged transmission even
The linkage bevel gear connect is provided with the telescopic chute of lower end wall connection driven slot, the telescopic chute in the driven slot upper end wall
A telescopic block is inside slidably connected, the telescopic block left side is fixedly connected with what a left end was fixedly connected with telescopic chute left end wall
Adjustable spring, the telescopic block lower end surface are fixedly connected with a lower end through telescopic chute lower end wall and are located at flexible in driven slot
Bar, the telescopic rod lower end be fixedly connected with a right end through driven slot right end wall and be located at spiral slot in Slave Block, it is described from
Motion block left end is through extension slot left hand end wall and is located in grooving, and right end wall connection spiral slot is provided on the downside of the driven slot
Driven wheel of differential link slot, driven wheel of differential linkage slot left end wall is fixedly connected with a linkage spring, the linkage bullet
Spring right end be fixedly connected with a right end through driven wheel of differential linkage slot right end wall and be located at spiral slot in linkage block, it is described from
It is provided with the lifting groove of right end wall connection spiral slot in dynamic bevel gear linkage slot lower end wall, is slidably connected in the lifting groove
One elevator, the elevator upper surface are fixedly connected with the lifting spring that a upper end is fixedly connected with lifting groove upper end wall, institute
It states elevator right side and is fixedly connected with a right end through lifting groove right end wall and the force block in spiral slot, the stress
Block right end is fixedly connected with a force-bearing piece, and an annular groove is provided in the force-bearing piece, is fixedly connected with one in the annular groove
Confinement block, the confinement block right side are fixedly connected with a ring spring, and the ring spring left end is fixedly connected with a rotation
Block, the spill spin block lower end surface is fixedly connected with the cutter shaft that a right end runs through annular groove right end wall and is located in spiral slot, described
It is fixedly connected with a mate gear on cutter shaft, is fixedly connected with a knife, the spiral slot lower end wall on the right side of the cutter shaft upper surface
It is inside provided with the promotion slot of upper end wall connection spiral slot, the promotion slot lower end wall is fixedly connected with a push the spring, described
Push the spring upper end is fixedly connected with a upper end through the pushing block for pushing slot upper end wall and being located in spiral slot, the pushing block
Lower end surface is connected with linkage block left side by linkage rope;
The method comprises the following steps:
Coiling apparatus interior lines fiber head is pulled in the clamping slot of upside, upside clamping slot annular electromagnet and ring electromagnetism Tie Tong
Electric mutual exclusion clamps the end of a thread, while starting linkage motor and upside driving motor, drives drive shaft and driving shaft to rotate, in gear
So that line fiber is uniformly looped around on drive block under the cooperation of system and connecting rod, line fiber slowly rolls up thickness, and rotary shaft is acted in motor
Under rotate always, the coil of wire to predetermined thickness, squeeze linkage block move downward, under the action of push the spring drive pushing block to the left
Movement, to move downward with movable arbor, until mate gear is engaged with sector gear, drive block drives under gear train effect
Sector gear rotation cuts off line to drive swivel to move half-turn, cuts reset in ring spring effect;
Then, meanwhile, Slave Block, which drops to, is twisted block drive position, and twisting block drives Slave Block to rotate counterclockwise, thus band
Dynamic winding mechanism rotates counterclockwise, until twisting block encounters countercheck rod, twisting block is by bending to not under torsion spring effect
Winding mechanism is pushed to move again, first winding mechanism moves to leftward position at this time, and second winding mechanism moves to
Driving motor and linkage motor, when to take out the fiber coil of wire spooled, then magnetic are closed at this point, device resets in side operating position
Property slot annular electromagnet and ring electromagnet be powered and adsorb, stuck piece is detached from the stuck of stuck slot, moves drive block with hand push, will
Fiber wire reel-up goes out, and is put into new drive block.
Preferably, the Cun Xian mechanism includes oscillating rod, the working space right end wall is fixedly connected with driving electricity
Machine, the driving motor left side have been connected by power a drive shaft, and the drive shaft left end is fixedly connected with a driving bevel gear,
It is provided with the fitted shaft of one with the rotation connection of working space aft bulkhead on the left of the Cun Xian mechanism, is fixedly connected in the fitted shaft
The cooperation bevel gear for having a right end and driving bevel gear rear end to be connected by meshing transmission, the cooperation bevel gear front end face are slidably connected
There is a locating shaft, an oscillating rod is rotatably connected on the locating shaft, is provided with a lower end wall in the working space upper end wall
It is connected to the shifting chute of working space, slidably connects a movable block in the shifting chute, the movable block lower end surface is fixedly connected
There is a lower end through shifting chute lower end wall and the mobile bar in working space, the mobile bar lower end is fixedly connected with a roll
Line apparatus, the oscillating rod are rotatablely connected in coiling apparatus.
Preferably, electromagnetic mechanism includes stuck piece in the magnetism slot, magnetism slot left end wall is fixedly connected with one
Ring electromagnet, the magnetism slot left end wall center are fixedly connected with a magnet spring, and the magnet spring right end is fixedly connected
Stuck piece for thering is a right end to run through magnetic slot right end wall and stuck slot left end wall and being located in stuck slot, the stuck piece of left side
It is fixedly connected with a ring electromagnet.
Compared with prior art, the beneficial effects of the present invention are: drawing coiling apparatus interior lines fiber head in present invention work
Enter in the clamping slot of upside, upside clamping slot annular electromagnet clamps the end of a thread with ring electromagnet energization mutual exclusion, starts simultaneously
Link motor and upside driving motor, and drive shaft and driving shaft is driven to rotate, and makes line fine under the cooperation of gear train and connecting rod
Dimension is uniformly looped around on drive block, and line fiber slowly rolls up thickness, and rotary shaft rotates always under motor effect, the coil of wire to predetermined thickness
Degree squeezes linkage block and moves downward, drives pushing block to move downward under the action of push the spring, to transport to the left with movable arbor
Dynamic, until mate gear is engaged with sector gear, drive block drives sector gear rotation to moving knife under gear train effect
Rotation half-turn cuts off line, cuts reset in ring spring effect, meanwhile, Slave Block, which drops to, is twisted block drive position, turns round
Motion block drives Slave Block to rotate counterclockwise, so that winding mechanism be driven to rotate counterclockwise, until twisting block encounters countercheck rod, is turning round
The lower twisting block of square spring effect is by bending to no longer push winding mechanism movement, and first winding mechanism moves to left side at this time
Position, and second winding mechanism moves to upside operating position, at this point, device resets, closes driving motor and linkage motor,
When to take out the fiber coil of wire spooled, then magnetic slot annular electromagnet and ring electromagnet, which are powered, adsorbs, stuck piece of disengaging
Stuck slot it is stuck, move drive block with hand push, fiber wire reel-up gone out, and be put into new drive block.This apparatus structure is simple, behaviour
It is convenient to make, can by the fiber coil of wire made according to a copy by a copy point of scheduled thickness well, so as to subsequent use, and multiple devices
Symmetrical use can carry out continuing to roll up after the completion of the fiber coils of wire of volume four, improve labor efficiency.
Detailed description of the invention
Fig. 1 is a kind of main view knot of artificial line fiber and its application method entirety complete section based on energy circulation of the present invention
Structure schematic diagram;
Fig. 2 is the right view structure of force-bearing piece section view in a kind of artificial line fiber and its application method based on energy circulation of the present invention
Schematic diagram;
Fig. 3 is force-bearing piece main view enlarged structure in a kind of artificial line fiber and its application method based on energy circulation of the present invention
Schematic diagram.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other
Embodiment shall fall within the protection scope of the present invention.
Please refer to Fig. 1-3, a kind of embodiment provided by the invention: it is a kind of based on the energy circulation artificial line fiber and its
Application method, including work box 100 are provided with a working space 101,101 upper end of working space in the work box 100
Wall is fixedly connected with a Cun Xian mechanism 112, and 101 aft bulkhead of working space is rotatably connected to a ring set 169, the ring set
The grooving 170 of front and back end wall connection working space 101 is provided in 169,101 aft bulkhead of working space is rotatably connected to
One rotary shaft 165 connecting with motor power, 165 front end of rotary shaft is through 170 aft bulkhead of grooving and is located at grooving 170
Interior, there are four separate using 165 center of rotary shaft as the setting of center of circle array for 165 outer end face of rotary shaft in grooving 170
The kerve 163 of the end wall connection grooving 170 of rotary shaft 165, the 163 left end wall of right side kerve are fixedly connected with a bottom spring
164,164 right end of bottom spring is fixedly connected with a right end through 163 right end wall of kerve and the sole piece in grooving 170
162,162 front end face of sole piece in grooving 170 is fixedly connected with a torsional pole 160, rotates on the torsional pole 160
It is connected with a twisting block 159, a torsion spring 161, the left side twisting are provided between the twisting block 159 and torsional pole 160
It is provided with that a rear end is fixedly connected with 101 aft bulkhead of working space and front end is through 170 aft bulkhead of grooving and being located on the downside of block 159
Countercheck rod 166 in grooving 170 is provided with a rear end on the upside of right side twisting block 159 and fixes with 101 aft bulkhead of working space
The limitation bar 167 that connection and front end are run through 170 aft bulkhead of grooving and be located in grooving 170,169 outer end wall of ring set is to rotate
Axis 165 is the setting of center array there are four winding mechanism 114, and the right side winding mechanism 114 includes driven slot 135, the ring
It covers 169 right sides and is fixedly connected with a spiral block 115, right end wall connection work is provided in the 115 right end wall of spiral block
The spiral slot 118 in space 101 is provided with the driven slot of right end wall connection spiral slot 118 in the 118 left end wall of spiral slot
135, the extension slot 158 of a connection driven slot 135 and grooving 170, the spiral slot are provided in the 135 left end wall of driven slot
118 upper end walls are fixedly connected with a linkage motor 119, and 119 lower end surface of linkage motor has been connected by power a driving shaft 122,
It is provided with a drive block 136 on the downside of the driving shaft 122, upper end wall connection volume is provided in 136 upper surface of drive block
The pressing groove 133 of wire casing 118,122 lower end of driving shaft is through 133 upper end wall of pressing groove and is located in pressing groove 133, described
The magnetic slot 127 of right end wall connection pressing groove 133 is provided in 122 right side of driving shaft in pressing groove 133, it is described
An electromagnetic mechanism 129 is provided in magnetic slot 127,133 lower end wall of pressing groove is fixedly connected with one by pressing spring 132, institute
It states and is fixedly connected with an expansion plate 130 being slidably connected with pressing groove 133,133 right end of pressing groove by 132 upper end of pressing spring
It is provided with a retraction slot 128 in wall, an electromagnetic mechanism 129,128 lower end wall of retraction slot are provided in the retraction slot 128
It is inside provided with the clamping slot 131 of upper end wall connection retraction slot 128 and right end wall connection spiral slot 118, under the drive block 136
End face is fixedly connected with a fitted shaft 138, and 138 lower end of fitted shaft is fixedly connected with driven wheel of differential linkage slot 172, institute
It states 118 left end wall of spiral slot and is rotatably connected to a universal driving shaft 141, be fixedly connected with a sector gear on the universal driving shaft 141
142,142 right end of sector gear is fixedly connected with a upper end and is connected by meshing transmission with driven wheel of differential linkage 172 right end of slot
Linkage bevel gear 140, the telescopic chute 116 of lower end wall connection driven slot 135 is provided in 135 upper end wall of driven slot,
A telescopic block 120 is slidably connected in the telescopic chute 116,120 left side of telescopic block is fixedly connected with a left end and stretches
The adjustable spring 117 that 116 left end wall of contracting slot is fixedly connected, 120 lower end surface of telescopic block are fixedly connected with a lower end through stretching
116 lower end wall of contracting slot and the telescopic rod 121 being located in driven slot 135,121 lower end of telescopic rod is fixedly connected with a right end and passes through
It wears 135 right end wall of driven slot and is located at Slave Block 134 in spiral slot 118,134 left end of Slave Block is left through extension slot 158
Right end wall and be located at grooving 170 in, be provided on the downside of the driven slot 135 a right end wall connection spiral slot 118 slave mantle tooth
Wheel linkage slot 172, the driven wheel of differential linkage 172 left end wall of slot are fixedly connected with a linkage spring 156, the linkage spring
156 right ends are fixedly connected with a right end through linkage block driven wheel of differential linkage 172 right end wall of slot and be located in spiral slot 118
137, the lifting groove 155 of right end wall connection spiral slot 118, institute are provided in driven wheel of differential linkage 172 lower end wall of slot
It states and slidably connects an elevator 154 in lifting groove 155,154 upper surface of elevator is fixedly connected with a upper end and lifting
The lifting spring 153 that 155 upper end wall of slot is fixedly connected, 154 right side of elevator are fixedly connected with a right end through lifting
155 right end wall of slot and the force block 152 being located in spiral slot 118,152 right end of force block is fixedly connected with a force-bearing piece
149, an annular groove 151 is provided in the force-bearing piece 149, and a confinement block 168, institute are fixedly connected in the annular groove 151
It states 168 right side of confinement block and is fixedly connected with a ring spring 150,150 left end of ring spring is fixedly connected with a rotation
Block 144,144 lower end surface of spill spin block are fixedly connected with a right end through 151 right end wall of annular groove and are located in spiral slot 118
Cutter shaft 143, a mate gear 145 is fixedly connected on the cutter shaft 143, is fixedly connected on the right side of 143 upper surface of cutter shaft
There is a knife 139, the promotion slot 147 of upper end wall connection spiral slot 118 is provided in 118 lower end wall of spiral slot, it is described to push away
Dynamic 147 lower end wall of slot is fixedly connected with a push the spring 148, and 148 upper end of push the spring is fixedly connected with a upper end and runs through
The pushing block 146 for pushing 147 upper end wall of slot and being located in spiral slot 118,146 lower end surface of pushing block and linkage block 137 are left
End face is connected by linkage rope 157;
The method comprises the following steps:
102 interior lines fiber head of coiling apparatus is pulled in the clamping slot 131 of upside, 131 annular electromagnet 123 of upside clamping slot with
The 124 energization mutual exclusion of ring electromagnet clamps the end of a thread, while starting linkage motor 119 and upside driving motor 113, drives driving
Axis 111 and driving shaft 122 rotate, and are looped around line fiber uniformly on drive block 136, line
Fiber slowly rolls up thickness, and rotary shaft 165 rotates always under motor effect, and the coil of wire to predetermined thickness squeezes linkage block 137 and transports downwards
It is dynamic, drive pushing block 146 to move downward under the action of push the spring 148, to move downward with movable arbor 143, until matching
It closes gear 145 to engage with sector gear 142, drive block 136 drives the rotation of sector gear 142 to drive under gear train effect
Knife 139 rotates half-turn and cuts off line, cuts 139 resets in the effect of ring spring 150;
Then, meanwhile, Slave Block 134, which drops to, is twisted the drive of block 159 position, and twisting block 159 drives Slave Block 134 counterclockwise
Rotation, until twisting block 159 encounters countercheck rod 166, is made so that winding mechanism 114 be driven to rotate counterclockwise in torsion spring 161
With lower twisting block 159 by bending to no longer winding mechanism 114 be pushed to move, first winding mechanism 114 moves to a left side at this time
Side position, and second winding mechanism 114 move to upside operating position, at this point, device reset, close driving motor 113 with
Link motor 119, when to take out the fiber coil of wire spooled, then magnetic 127 annular electromagnet 123 of slot and ring electromagnet
124, which are powered, adsorbs, and stuck piece 125 is detached from the stuck of stuck slot 126, moves drive block 136 with hand push, fiber wire reel-up is gone out, and
It is put into new drive block 136.
Valuably, the Cun Xian mechanism 112 includes oscillating rod 106, and the 101 right end wall of working space is fixedly connected with one
Driving motor 113,113 left side of driving motor have been connected by power a drive shaft 111, and 111 left end of drive shaft is fixed
It is connected with a driving bevel gear 110, one is provided on the left of the Cun Xian mechanism 112 and is rotatablely connected with 101 aft bulkhead of working space
Fitted shaft 109, be fixedly connected with a right end in the fitted shaft 109 and 110 rear end of driving bevel gear be connected by meshing transmission
Cooperate bevel gear 108,108 front end face of cooperation bevel gear slidably connects a locating shaft 107, turns on the locating shaft 107
It is dynamic to be connected with an oscillating rod 106, the shifting of lower end wall connection working space 101 is provided in 101 upper end wall of working space
Slot 103 is moved, slidably connects a movable block 104 in the shifting chute 103,104 lower end surface of movable block is fixedly connected with one
Through 103 lower end wall of shifting chute and the mobile bar 105 in working space 101,105 lower end of mobile bar is fixed to be connected for lower end
It is connected to a coiling apparatus 102, the oscillating rod 106 is rotatablely connected in coiling apparatus 102.
Valuably, electromagnetic mechanism 129 includes stuck piece 125 in the magnetic slot 127, and the magnetism 127 left end wall of slot is solid
Surely it is connected with a ring electromagnet 123,127 left end wall center of the magnetism slot is fixedly connected with a magnet spring 171, the magnetic
Property 171 right end of spring be fixedly connected with a right end and run through magnetic 127 right end wall of slot and stuck 126 left end wall of slot and be located at stuck slot
Stuck piece 125 in 126, stuck piece of 125 left sides are fixedly connected with a ring electromagnet 124.
Specifically used mode: in present invention work, 102 interior lines fiber head of coiling apparatus being pulled in the clamping slot 131 of upside,
Clamping slot 131 annular electromagnet 123 in upside clamps the end of a thread with the 124 energization mutual exclusion of ring electromagnet, while starting linkage electricity
Machine 119 and upside driving motor 113 drive drive shaft 111 and driving shaft 122 to rotate, make under the cooperation of gear train and connecting rod
It obtains line fiber to be uniformly looped around on drive block 136, line fiber slowly rolls up thickness, and rotary shaft 165 rotates always under motor effect, line
It is rolled onto predetermined thickness, linkage block 137 is squeezed and moves downward, drive pushing block 146 to transport to the left under the action of push the spring 148
Dynamic, to move downward with movable arbor 143, until mate gear 145 is engaged with sector gear 142, drive block 136 is in gear train
Effect is lower to drive the rotation of sector gear 142 to cut off line to rotate half-turn with moving knife 139, cuts in the effect of ring spring 150
139 reset, meanwhile, Slave Block 134, which drops to, is twisted the drive of block 159 position, and twisting block 159 drives Slave Block 134 counterclockwise
Rotation, until twisting block 159 encounters countercheck rod 166, is made so that winding mechanism 114 be driven to rotate counterclockwise in torsion spring 161
With lower twisting block 159 by bending to no longer winding mechanism 114 be pushed to move, first winding mechanism 114 moves to a left side at this time
Side position, and second winding mechanism 114 move to upside operating position, at this point, device reset, close driving motor 113 with
Link motor 119, when to take out the fiber coil of wire spooled, then magnetic 127 annular electromagnet 123 of slot and ring electromagnet
124, which are powered, adsorbs, and stuck piece 125 is detached from the stuck of stuck slot 126, moves drive block 136 with hand push, fiber wire reel-up is gone out, and
It is put into new drive block 136.This apparatus structure is simple, and it is convenient to operate, can be by the fiber coil of wire made according to scheduled thickness
A copy by a copy point well, so that the symmetrical use of subsequent use, and multiple devices can carry out continuing after the completion of the fiber coils of wire of volume four
Volume, improves labor efficiency.
It is obvious to a person skilled in the art that invention is not limited to the details of the above exemplary embodiments, Er Qie
In the case where without departing substantially from spirit or essential attributes of the invention, the present invention can be realized in other specific forms.Therefore, no matter
From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention is by appended power
Benefit requires rather than above description limits, it is intended that all by what is fallen within the meaning and scope of the equivalent elements of the claims
Variation is included within the present invention.Any reference signs in the claims should not be construed as limiting the involved claims.
Claims (3)
1. a kind of artificial line fiber and its application method based on energy circulation, including work box, it is characterised in that: the work
Make to be provided with a working space in case, the working space upper end wall is fixedly connected with a Cun Xian mechanism, after the working space
End wall is rotatably connected to a ring set, and the grooving of front and back end wall connection working space is provided in the ring set, and the work is empty
Between aft bulkhead be rotatably connected to a rotary shaft connecting with motor power, the rotary shaft front end is through grooving aft bulkhead and is located at
In grooving, there are four far from rotary shaft using rotating shaft center as the setting of center of circle array for the rotary shaft outer end face in grooving
End wall connection grooving kerve, right side kerve left end wall is fixedly connected with a bottom spring, the bottom spring right end
A right end is fixedly connected with through kerve right end wall and the sole piece in grooving, the sole piece front end face in grooving is solid
Surely it is connected with a torsional pole, a twisting block is rotatably connected on the torsional pole, is provided with one between twisting block and the torsional pole
Torsion spring, is provided with that a rear end is fixedly connected with working space aft bulkhead and grooving is run through in front end on the downside of left side twisting block
Aft bulkhead and the countercheck rod being located in grooving, the right side twisting block upside are provided with a rear end and fix with working space aft bulkhead
The limitation bar that connection and front end are run through grooving aft bulkhead and be located in grooving, the ring set outer end wall is using rotary shaft as center array
There are four winding mechanisms for setting, and the right side winding mechanism includes driven slot, and the ring set right side is fixedly connected with a spiral
Block is provided with the spiral slot of right end wall connection working space in the spiral block right end wall, sets in the wall of spiral slot left end
It is equipped with the driven slot of right end wall connection spiral slot, prolonging for a connection driven slot and grooving is provided in the wall of the driven slot left end
Slot is stretched, the spiral slot upper end wall is fixedly connected with a linkage motor, and the linkage motor lower end surface has been connected by power one actively
Axis, the driving shaft downside are provided with a drive block, and upper end wall connection spiral slot is provided in the drive block upper surface
Pressing groove, the driving shaft lower end is through pressing groove upper end wall and is located in pressing groove, the driving shaft in pressing groove
It is provided with the magnetic slot of right end wall connection pressing groove in right side, is provided with an electromagnetic mechanism in the magnetism slot, it is described to press
Indent lower end wall is fixedly connected with one by pressing spring, and the pressing spring upper end is fixedly connected with one and is slidably connected with pressing groove
Expansion plate is provided with a retraction slot in the pressing groove right end wall, an electromagnetic mechanism, the retraction is provided in the retraction slot
The clamping slot of upper end wall connection retraction slot and right end wall connection spiral slot, the drive block lower end surface are provided in slot lower end wall
It is fixedly connected with a fitted shaft, the fitted shaft lower end is fixedly connected with driven wheel of differential linkage slot, spiral slot left end
Wall is rotatably connected to a universal driving shaft, and a sector gear is fixedly connected on the universal driving shaft, and the sector gear right end is fixed to be connected
It is connected to the linkage bevel gear that a upper end is connected by meshing transmission with driven wheel of differential linkage slot right end, is set in the driven slot upper end wall
It is equipped with the telescopic chute of lower end wall connection driven slot, slidably connects a telescopic block, the telescopic block left end in the telescopic chute
Face is fixedly connected with the adjustable spring that a left end is fixedly connected with telescopic chute left end wall, and the telescopic block lower end surface is fixedly connected with
Through telescopic chute lower end wall and the telescopic rod in driven slot, the telescopic rod lower end is fixedly connected with a right end and passes through for one lower end
It wears driven slot right end wall and is located at Slave Block in spiral slot, the Slave Block left end is through extension slot left hand end wall and is located at grooving
It is interior, the driven wheel of differential linkage slot of right end wall connection spiral slot, the driven wheel of differential connection are provided on the downside of the driven slot
Dynamic slot left end wall is fixedly connected with a linkage spring, and the linkage spring right end is fixedly connected with a right end through driven wheel of differential
Link slot right end wall and the linkage block in spiral slot, is provided with a right end wall in the driven wheel of differential linkage slot lower end wall
It is connected to the lifting groove of spiral slot, slidably connects an elevator in the lifting groove, the elevator upper surface is fixedly connected with
The lifting spring that one upper end is fixedly connected with lifting groove upper end wall, the elevator right side are fixedly connected with a right end through liter
The force block for dropping slot right end wall and being located in spiral slot, the force block right end are fixedly connected with a force-bearing piece, the force-bearing piece
It is inside provided with an annular groove, a confinement block is fixedly connected in the annular groove, the confinement block right side is fixedly connected with one
Ring spring, the ring spring left end are fixedly connected with a spill spin block, and the spill spin block lower end surface is fixedly connected with a right end
Through annular groove right end wall and the cutter shaft in spiral slot, a mate gear, the cutter shaft are fixedly connected on the cutter shaft
It is fixedly connected with a knife on the right side of upper surface, the promotion slot of upper end wall connection spiral slot is provided in the spiral slot lower end wall,
The promotion slot lower end wall is fixedly connected with a push the spring, and the push the spring upper end is fixedly connected with a upper end through promotion
Slot upper end wall and the pushing block being located in spiral slot, the pushing block lower end surface is connected with linkage block left side by linkage rope
It connects;The method comprises the following steps: coiling apparatus interior lines fiber head is pulled in the clamping slot of upside, upside clamping slot annular electromagnetism
Iron clamps the end of a thread with ring electromagnet energization mutual exclusion, while starting linkage motor and upside driving motor, drive drive shaft with
Driving shaft rotation, is looped around line fiber uniformly on drive block, and line fiber slowly rolls up thickness,
Rotary shaft rotates always under motor effect, the coil of wire to predetermined thickness, squeezes linkage block and moves downward, in the effect of push the spring
Lower drive pushing block moves downward, to move downward with movable arbor, until mate gear is engaged with sector gear, drive block exists
Gear train effect is lower to drive sector gear rotation to drive swivel to move half-turn and cut off line, cuts in ring spring effect multiple
Position;Then, meanwhile, Slave Block, which drops to, is twisted block drive position, and twisting block drives Slave Block to rotate counterclockwise, to drive
Winding mechanism rotates counterclockwise, until twisting block encounters countercheck rod, twisting block is by bending to no longer under torsion spring effect
Winding mechanism movement is pushed, first winding mechanism moves to leftward position at this time, and second winding mechanism moves to upside
Driving motor and linkage motor are closed at this point, device resets in operating position, when to take out the fiber coil of wire spooled, then magnetic
Slot annular electromagnet and ring electromagnet, which are powered, to be adsorbed, and stuck piece is detached from the stuck of stuck slot, moves drive block with hand push, will be fine
It ties up the coil of wire to take out, and is put into new drive block.
2. a kind of artificial line fiber and its application method based on energy circulation according to claim 1, feature exist
In: the Cun Xian mechanism includes oscillating rod, and the working space right end wall is fixedly connected with a driving motor, the driving motor
Left side has been connected by power a drive shaft, and the drive shaft left end is fixedly connected with a driving bevel gear, and the Cun Xian mechanism is left
Side is provided with the fitted shaft of one with the rotation connection of working space aft bulkhead, is fixedly connected with a right end and driving in the fitted shaft
The cooperation bevel gear that bevel gear rear end is connected by meshing transmission, the cooperation bevel gear front end face slidably connect a locating shaft, institute
It states and is rotatably connected to an oscillating rod on locating shaft, lower end wall connection working space is provided in the working space upper end wall
Shifting chute, slidably connects a movable block in the shifting chute, and the movable block lower end surface is fixedly connected with a lower end through moving
Dynamic slot lower end wall and the mobile bar being located in working space, the mobile bar lower end is fixedly connected with a coiling apparatus, the pendulum
Lever is rotatablely connected in coiling apparatus.
3. a kind of artificial line fiber and its application method based on energy circulation according to claim 1, feature exist
In: electromagnetic mechanism includes stuck piece in the magnetism slot, and magnetism slot left end wall is fixedly connected with a ring electromagnet, described
Magnetic slot left end wall center is fixedly connected with a magnet spring, and the magnet spring right end is fixedly connected with a right end through magnetism
Slot right end wall and stuck slot left end wall and be located in stuck slot stuck piece, the stuck piece of left side is fixedly connected with a ring
Electromagnet.
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CN201811215157.0A CN109023565A (en) | 2018-10-18 | 2018-10-18 | A kind of artificial line fiber and its application method based on energy circulation |
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CN201811215157.0A CN109023565A (en) | 2018-10-18 | 2018-10-18 | A kind of artificial line fiber and its application method based on energy circulation |
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CN201811215157.0A Withdrawn CN109023565A (en) | 2018-10-18 | 2018-10-18 | A kind of artificial line fiber and its application method based on energy circulation |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111422697A (en) * | 2020-04-21 | 2020-07-17 | 程建坤 | Fiber material winding device |
-
2018
- 2018-10-18 CN CN201811215157.0A patent/CN109023565A/en not_active Withdrawn
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111422697A (en) * | 2020-04-21 | 2020-07-17 | 程建坤 | Fiber material winding device |
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