CN110129925A - A kind of wool spinning gauze continuously transmits laminated device - Google Patents
A kind of wool spinning gauze continuously transmits laminated device Download PDFInfo
- Publication number
- CN110129925A CN110129925A CN201910326739.4A CN201910326739A CN110129925A CN 110129925 A CN110129925 A CN 110129925A CN 201910326739 A CN201910326739 A CN 201910326739A CN 110129925 A CN110129925 A CN 110129925A
- Authority
- CN
- China
- Prior art keywords
- bracket
- wool spinning
- transfer
- material transfer
- sides
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
- 210000002268 wool Anatomy 0.000 title claims abstract description 280
- 238000009987 spinning Methods 0.000 title claims abstract description 272
- 239000000463 material Substances 0.000 claims abstract description 621
- 238000012546 transfer Methods 0.000 claims abstract description 480
- 230000005540 biological transmission Effects 0.000 claims abstract description 106
- 238000013519 translation Methods 0.000 claims abstract description 92
- 230000007704 transition Effects 0.000 claims abstract description 69
- 230000007246 mechanism Effects 0.000 claims abstract description 68
- 238000010521 absorption reaction Methods 0.000 claims description 12
- 238000001179 sorption measurement Methods 0.000 claims description 9
- 238000010079 rubber tapping Methods 0.000 claims description 6
- 239000002184 metal Substances 0.000 claims description 3
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 2
- 238000004804 winding Methods 0.000 claims description 2
- 239000007787 solid Substances 0.000 claims 2
- 238000003475 lamination Methods 0.000 abstract description 50
- 238000012545 processing Methods 0.000 abstract description 27
- 238000000034 method Methods 0.000 abstract description 26
- 230000008569 process Effects 0.000 abstract description 23
- 238000013461 design Methods 0.000 abstract description 5
- 239000004753 textile Substances 0.000 abstract description 4
- 230000014616 translation Effects 0.000 description 78
- 230000033001 locomotion Effects 0.000 description 17
- 210000004209 hair Anatomy 0.000 description 11
- 239000000835 fiber Substances 0.000 description 8
- 238000004519 manufacturing process Methods 0.000 description 5
- 230000001360 synchronised effect Effects 0.000 description 5
- 230000008901 benefit Effects 0.000 description 4
- 230000000694 effects Effects 0.000 description 4
- 239000000126 substance Substances 0.000 description 4
- 230000000903 blocking effect Effects 0.000 description 3
- 239000004744 fabric Substances 0.000 description 3
- 239000002994 raw material Substances 0.000 description 3
- 238000010923 batch production Methods 0.000 description 2
- 230000005484 gravity Effects 0.000 description 2
- 241000283707 Capra Species 0.000 description 1
- 241001465754 Metazoa Species 0.000 description 1
- 241000283973 Oryctolagus cuniculus Species 0.000 description 1
- 238000007792 addition Methods 0.000 description 1
- 230000007812 deficiency Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 230000005611 electricity Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 239000012770 industrial material Substances 0.000 description 1
- 238000011031 large-scale manufacturing process Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 210000000050 mohair Anatomy 0.000 description 1
- 230000035939 shock Effects 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
- 230000026676 system process Effects 0.000 description 1
- 238000009941 weaving Methods 0.000 description 1
Classifications
-
- D—TEXTILES; PAPER
- D01—NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
- D01G—PRELIMINARY TREATMENT OF FIBRES, e.g. FOR SPINNING
- D01G15/00—Carding machines or accessories; Card clothing; Burr-crushing or removing arrangements associated with carding or other preliminary-treatment machines
- D01G15/02—Carding machines
- D01G15/12—Details
Landscapes
- Engineering & Computer Science (AREA)
- Textile Engineering (AREA)
- Nonwoven Fabrics (AREA)
- Treatment Of Fiber Materials (AREA)
Abstract
The invention discloses a kind of wool spinning gauzes continuously to transmit laminated device, belongs to textile processing machine apparatus field.First material transfer belt of the invention is horizontally placed on the upside of wool spinning material guiding bracket, pendulum material connecting rod is provided between rotating circular disc and pendulum material bracket, second material transfer belt is horizontally placed on the upside of bearing material transmission bracket, preceding transition deflector roll and rear transition deflector roll are symmetrically disposed on the wool spinning material guiding bracket of third material transfer belt two sides, rotating bracket is set on the commutation material transfer bracket on the downside of third commutation transfer roller, translation guide rod is horizontally placed on rotating bracket side, it translates and is provided with reciprocating drive mechanism on the wool spinning material guiding bracket of guide rod side, 4th material transfer belt is horizontally placed below rotating bracket.Structure of the invention design rationally, steadily easily that sparse wool spinning gauze is continuous in transmit process can smoothly carry out lamination processing, allow to be processed into the closely knit wool spinning gauze of quality, high degree of automation meets the needs that processing uses.
Description
Technical field
The invention belongs to textile processing machine apparatus fields more particularly to a kind of wool spinning gauze continuously to transmit laminated device,
It is mainly used in wool top Continuous maching field.
Background technique
Wool spinning is wool fibre to be processed into the spinning process process of yarn, and wool spinning fiber also includes goat based on wool
The special animal hair fibers such as suede, the rabbit hair, mohair yarn, yak hair, wool spinning process can also be used for wool type chemical fiber it is pure spin, it is blended and and other
It is natural fibre blended.Wool fabric, knitted fabric, the woollen blanket etc. woven using pure spinning and blended wool yarn is had and keeps warm, moisture absorption, is imbued with
The features such as elastic and wear-resisting, it is soft and moist, plentiful using clothes feel made of wool fabric and very scrape, wool spinning material can be also used for weaving
Industrial materials, stationery sports goods and carpet.Wool spinning spinning unit is using wool fiber and wool type chemical fiber as raw material, on wool spinning equipment
The production overall process of wool yarn, hair and chemical mixed yarn and chemical fibre Pure Yarn is spinned, wool spinning spinning unit mainly includes woolen spinning
System and worsted spinning system.In the process of manufacture of wool spinning material, wool spinning material is being added by shredding, dedusting and hair etc.
After work technique, need for be processed into loose wool textile raw material wool top, wool top can also be easily processed into later process
Wool yarn, existing wool top in the process of production and processing, the wool spinning for being successively steadily processed into wool textile raw material using doffer
Net quality is more sparse, for the normal orderly progress of later process top processing, need by the sparse wool spinning gauze of quality into
Row lamination enables to carry out standard for rear road wool spinning system process so that the wool spinning gauze quality after lamination is processed is more closely knit
Standby, structure is complicated and troublesome in poeration for existing wool spinning gauze laminated structure, it is difficult to which smooth sequential was transmitting wool spinning gauze
Lamination processing is carried out in journey, the folding of wool spinning gauze is also difficult to be adjusted as needed toward complex magnitude, existing wool spinning gauze
Folding direction and the folded direction of transfer of gauze be difficult to realize be mutually perpendicular to so that the transmission breadth of wool spinning gauze be difficult into
Row is adjusted, and wool spinning net folding and transmission be difficult to synchronize be carried out continuously, it is also difficult to ensure the wool spinning in lamination transmit process
Gauze is homogeneous closely knit, and existing wool spinning gauze is difficult to be carried out continuously folding direction twice in transmit process orthogonal
Lamination, the mutual Connected degree of wool spinning gauze after causing existing laminated structure to be processed are difficult to be guaranteed, and lead to rear road
The wool spinning item of process is difficult to go on smoothly, and influences the efficiency and quality of wool spinning item, and existing wool spinning gauze lamination adds
Work the degree of automation is lower, it is difficult to realize wool top large-scale production, not be able to satisfy the needs that processing uses.
Summary of the invention
The technical problem to be solved by the present invention is to overcome the above-mentioned deficiency in the presence of the prior art, and provide a kind of knot
Structure design rationally, steadily easily that sparse wool spinning gauze is continuous in transmit process can smoothly carry out lamination processing,
Allow to be processed into the closely knit wool spinning gauze of quality, high degree of automation is met processing and continuously passed using the wool spinning gauze of needs
Send laminated device.
In order to solve the above-mentioned technical problem, the technical scheme adopted by the invention is that: a kind of wool spinning gauze continuously transmits folded
Layer device, it is characterised in that: it includes wool spinning material guiding bracket, preceding material stacking mechanism, mistake that the wool spinning gauze, which continuously transmits laminated device,
Delivery mechanism and rear material stacking mechanism are crossed, the preceding material stacking mechanism, transition delivery mechanism and rear material stacking mechanism are transmitted along wool spinning gauze
Direction is successively horizontally placed on wool spinning material guiding bracket, and the preceding material stacking mechanism includes gauze charging deflector roll, the first material transfer belt, the
One material transfer motor, stack motor, rotating circular disc, pendulum material bracket, the second material transfer belt and the second material transfer motor, the gauze charging
Deflector roll, which horizontally rotates, to be connected at the upper side of wool spinning material guiding bracket, and gauze is fed on the wool spinning material guiding bracket of deflector roll side along level
Direction, which successively horizontally rotates, is connected with two first material transfer transfer rollers, and the first material transfer belt is horizontally placed on wool spinning material guiding bracket
Side, the first material transfer belt two sides wind the first material transfer transfer roller for being connected to wool spinning material guiding bracket two sides, first material transfer respectively
Motor level is fixedly installed on the upside of wool spinning material guiding bracket, and the first of the first material transfer motor output end and the first material transfer belt side
It is connected between material transfer transfer roller using the first material transfer chain drive, below the first material transfer belt on the wool spinning material guiding bracket of two sides
Being horizontally disposed with respectively has reciprocal guide groove, and the pendulum material support level is set to below the first material transfer belt, and pendulum material bracket is rectangular
Frame structure, pendulum material bracket two sides are horizontally placed on respectively in the reciprocal guide groove of wool spinning material guiding bracket two sides, pendulum material bracket both ends
Upper and lower two sides are rotatably connected to translation guide wheel vertically respectively, and translation guide wheel rolls in the horizontal direction is set to wool spinning material guiding bracket,
Pendulum material bracket two sides horizontally rotate respectively is connected with blanking transfer roller, and blanking transfer roller is parallel to each other with gauze charging deflector roll, puts
Expect that the blanking transfer roller end of bracket two sides is coaxially fixedly installed blanking gear, the blanking at pendulum material bracket side both ends vertically respectively
Successively there are two the connection gear of intermeshing connection, two connection gears lower sections two sides for rotation connection vertically respectively between gear
Connection is engaged with two blanking gears of pendulum material bracket end two sides respectively, the pendulum is expected on the wool spinning material guiding bracket of bracket side
It is rotatably connected to rotating circular disc vertically, pendulum material connecting rod, pendulum material connecting rod two end difference are provided between rotating circular disc and pendulum material bracket
It is hinged with rotating circular disc side outer end and pendulum material one middle side part of bracket, the stack motor level is fixedly installed on wool spinning guide
On the upside of bracket, connected between stack motor output end and rotating circular disc using stack chain drive, wool spinning material guiding bracket edge
First material transfer transfer roller end of gauze charging deflector roll side is provided with the first transmission connecting plate, and the first transmission connecting plate side is rotationally connected with
First material transfer transfer roller end, the first material transfer transfer roller end are coaxially arranged with the first sprocket wheel vertically, and the blanking of pendulum material bracket side turns
Roll end is provided with the second transmission connecting plate, and the second transmission connecting plate side is rotationally connected with blanking transfer roller end, blanking transfer roller end
It is coaxially arranged with the second sprocket wheel vertically, being horizontally disposed between the first transmission connecting plate and the second transmission connecting plate has drive shaft,
First transmission connecting plate and the second transmission connecting plate end are rotationally connected with drive shaft respectively, and drive shaft two sides are vertical fixed respectively
It is provided with third sprocket wheel and the 4th sprocket wheel, is sequentially connected between first sprocket wheel and third sprocket wheel using the first connection chain,
Using the second connection chain transmission connection between second sprocket wheel and the 4th sprocket wheel, the pendulum expects the wool spinning material guiding bracket on the downside of bracket
Upper level is fixedly installed bearing material transmission bracket, and bearing material transmission bracket two sides horizontally rotate respectively is connected with the second material transfer transfer roller,
Second material transfer transfer roller is mutually perpendicular to blanking transfer roller, and the second material transfer belt is horizontally placed on the upside of bearing material transmission bracket, the
Two material transfer belt two sides wind the second material transfer transfer roller for being connected to bearing material transmission bracket two sides, the second material transfer motor water respectively
Flat to be fixedly installed on bearing material transmission bracket side, the second material transfer motor drives the second material transfer transfer roller to be rotated, and described first passes
Material belt is mutually perpendicular to the second material transfer belt direction of transfer, is arranged on the wool spinning material guiding bracket of the second material transfer belt side
There is tapping channel, transition delivery mechanism includes that preceding transition deflector roll, third material transfer belt, third material transfer motor and rear transition are led
Roller horizontally rotates on the wool spinning material guiding bracket of the second material transfer belt lower outer and is connected with preceding transition deflector roll, and preceding transition is led
Successively horizontally rotate in the horizontal direction on the wool spinning material guiding bracket of roller side and is connected with two third material transfer transfer rollers, third material transfer skin
Band is horizontally placed on wool spinning material guiding bracket side, and third material transfer belt two sides are wound respectively is connected to two third material transfer transfer rollers,
The third material transfer motor level is fixedly installed on the downside of wool spinning material guiding bracket, and third material transfer motor output end and third material transfer turn
It is connected between roller using the second material transfer chain drive, the rear transition deflector roll, which horizontally rotates, is connected to third material transfer belt side
On wool spinning material guiding bracket, the preceding transition deflector roll and rear transition deflector roll are symmetrically disposed on the wool spinning guide of third material transfer belt two sides
Bracket, the preceding transition deflector roll, third material transfer transfer roller, rear transition deflector roll and gauze charging deflector roll are parallel to each other, the rear stack
Mechanism includes commutation material transfer bracket, rotating bracket, translation guide rod, reciprocating drive mechanism, the 4th material transfer belt and the 4th material transfer electricity
Machine, the commutation material transfer support level are fixedly installed on the wool spinning material guiding bracket on the upside of rear transition deflector roll, and commutation material transfer bracket is L
Type structure, commutate material transfer bracket on successively horizontally rotate be connected with the first commutation transfer roller, second commutation transfer roller and third commutation turn
Roller, the first commutation transfer roller, the second commutation transfer roller and third commutation transfer roller are parallel to each other and are mutually perpendicular to rear transition deflector roll, institute
It states on the commutation material transfer bracket that rotating bracket is set on the downside of third commutation transfer roller, rotating bracket upper center two sides are hinged respectively
Two sides below commutation material transfer bracket are connected to, are provided with blanking guide groove, the rotation on the commutation material transfer bracket on the upside of rotating bracket
Bracket two sides have been symmetrically arranged drawing material belt, horizontally rotate in the rotating bracket of two sides respectively above and below drawing material belt and are connected with
Material transfer roller is drawn, draws material belt two sides to wind respectively and is connected to drawing material transfer roller, draw material transfer roller to be parallel to each other with third commutation transfer roller, institute
It states level at the upper side of rotating bracket and is fixedly installed drawing material motor, draw material motor to drive and material transfer roller is drawn to be rotated, described turn
The drawing material transfer roller end of two sides is coaxially fixedly installed drawing material gear, the drawing material of rotating bracket two sides vertically respectively below dynamic bracket
Gear intermeshing connects, and level is fixedly installed reciprocal sleeve respectively on the wool spinning material guiding bracket of the rotating bracket two sides,
The translation guide rod is horizontally placed on rotating bracket side, and translation guide rod two sides are slideably positioned in wool spinning respectively in the horizontal direction and lead
Expect the reciprocal sleeve of bracket two sides, be fixedly installed translation guide plate vertically on the translation guide rod in the middle part of two reciprocal sleeves, translates
Slide plate guide groove is vertically arranged on guide plate, side is provided with reciprocating slide board, rotation in the middle part of reciprocating slide board in the middle part of the rotating bracket
It is connected to rotating bracket, reciprocating slide board is slideably positioned in slide plate guide groove, sets on the wool spinning material guiding bracket of the translation guide rod side
It is equipped with reciprocating drive mechanism, the wool spinning material guiding bracket two sides below the rotating bracket horizontally rotate respectively is connected with the 4th material transfer
Transfer roller, the 4th material transfer belt are horizontally placed below rotating bracket, and the 4th material transfer belt two sides are wound respectively to be connected to wool spinning and lead
Expect that the 4th material transfer transfer roller of bracket two sides, the 4th material transfer transfer roller are mutually perpendicular to third commutation transfer roller, the 4th material transfer motor
Level is fixedly installed on side below wool spinning material guiding bracket, using the between the 4th material transfer motor output end and the 4th material transfer transfer roller
Three material transfer chain drives connection, the reciprocating drive mechanism include reciprocal driving arm, upper shiftable gear, lower shiftable gear and past
Multiple driving motor, the reciprocal driving arm are fixedly installed on the wool spinning material guiding bracket of translation guide rod side vertically, translate guide rod
Level is fixedly installed translating rack and lower translating rack respectively for two sides up and down for end, and two sides is past above and below the translation guide rod
Shiftable gear and lower shiftable gear, the upper shiftable gear and lower translation tooth are rotatably connected to vertically respectively on multiple driving arm
Wheel is the identical intermittent gear of dimensions, and upper shiftable gear is connect with the engagement of upper translating rack and lower shiftable gear is put down with lower
The engagement connection for moving rack gear alternately, is connected between the upper shiftable gear and lower shiftable gear using pull rod chain drive,
The re-ciprocating driving motor level is fixedly installed on reciprocal driving arm, is used between re-ciprocating driving motor and upper shiftable gear
Drive chain transmission connection.
Further, stack has been symmetrically arranged on the bearing material transmission bracket of two sides above the second material transfer belt to prevent
Fall baffle, the anti-fall baffle inclination of stack is fixedly installed on bearing material transmission bracket, and the anti-fall baffle of stack is smooth light in surface
Matter metal plate.
Further, the side with wool spinning material guiding bracket is provided with above and below pendulum material bracket both ends on the translation guide wheel of two sides
The compatible translation guide groove of wall thickness.
Further, the rotating circular disc is radially successively evenly arranged with multiple adjusting mounting holes from inside to outside.
Further, translation absorption armature is fixedly installed on the translation guide rod of the lower translating rack two sides respectively, under
End adsorption magnet is fixedly installed vertically respectively on the reciprocal driving arm of shiftable gear two sides.
Compared with prior art, the present invention having the following advantages that and effect: structure of the invention design rationally, passes through preceding stack
Mechanism, transition delivery mechanism and rear material stacking mechanism are successively horizontally placed on wool spinning material guiding bracket along wool spinning gauze direction of transfer, benefit
Wool spinning gauze is continuously smoothly transmitted between preceding material stacking mechanism and rear material stacking mechanism with transition delivery mechanism is enabled, benefit
Wool spinning gauze is carried out continuously folding direction being twice mutually perpendicular to for high efficiency smooth is enabled with preceding material stacking mechanism and rear material stacking mechanism
Lamination processing, realize continuous lamination processing of the wool spinning gauze in transmit process, it is enabled to add the sparse wool spinning gauze of quality
The work wool spinning gauze closely knit at quality is horizontally rotated by gauze charging deflector roll and is connected at the upper side of wool spinning material guiding bracket, the
One material transfer belt two sides wind the first material transfer transfer roller for being connected to wool spinning material guiding bracket two sides, the first material transfer motor output end respectively
Connect between the first material transfer transfer roller using the first material transfer chain drive, using the first material transfer motor the first material transfer belt of drive into
Row rotation transmission, enables wool spinning gauze to feed deflector roll along gauze and the first material transfer belt is successively transmitted, pass through pendulum
Material bracket two sides are horizontally placed on respectively in the reciprocal guide groove of wool spinning material guiding bracket two sides, and pendulum material bracket both ends are distinguished two sides up and down
It is rotatably connected to translation guide wheel vertically, is rotatably connected to rotating circular disc vertically on the wool spinning material guiding bracket of pendulum material bracket side, turns
It is provided with pendulum material connecting rod between dynamic disk and pendulum material bracket, is passed between stack motor output end and rotating circular disc using stack chain
Dynamic connection drives rotating circular disc to be carried out continuously rotation using stack motor, and rotating circular disc can utilize pendulum material during rotation
Connecting rod band movable pendulum material bracket back and forth carries out translational motion in the horizontal direction, is rolled in the horizontal direction using translation guide wheel and is set to hair
Material guiding bracket is spun, translates to be provided with translation guide groove compatible with the sidewall thickness of wool spinning material guiding bracket on guide wheel and realize to put and expects branch
Frame accurately smoothly carries out translational motion in the horizontal direction, is radially successively evenly arranged with from inside to outside using rotating circular disc more
A adjusting mounting hole, enables to adjust the amplitude of pendulum material bracket alternating translational movement as needed, and then efficiently adjusts wool spinning gauze
Breadth after lamination transmission is horizontally rotated respectively by pendulum material bracket two sides and is connected with blanking transfer roller, blanking transfer roller and gauze
Charging deflector roll is parallel to each other, and the blanking transfer roller end of pendulum material bracket two sides is coaxially fixedly installed blanking gear vertically respectively, puts
Expect that connection is engaged with two blanking gears of pendulum material bracket end two sides respectively in two sides below two connection gears of bracket side,
Pendulum to expect that the blanking transfer roller of bracket two sides is realized to synchronize under outer power drive to be rotated in opposite directions, wool spinning gauze is from two
Successively transmission downwards between blanking transfer roller, as pendulum material bracket is continuously back and forth translated, so that the wool spinning successively transmitted downwards
Gauze realizes that continuous reciprocal swing folds, and is fixedly installed bearing material by level on the wool spinning material guiding bracket on the downside of pendulum material bracket
Bracket is transmitted, the second material transfer belt two sides wind the second material transfer transfer roller for being connected to bearing material transmission bracket two sides respectively, so that with
The wool spinning gauze that successively transmits downwards of swing effect of pendulum material bracket can smoothly be stacked on the upside of the second material transfer belt, benefit
It drives the second material transfer transfer roller to be rotated with the second material transfer motor, is provided on the wool spinning material guiding bracket of the second material transfer belt side
Tapping channel enables and is steadily transmitted under the drive of the second material transfer belt by the wool spinning gauze of lamination processing, real
The lamination of existing wool spinning gauze is synchronous with transmission to carry out, and is mutually hung down using the direction of transfer of the first material transfer belt and the second material transfer belt
Directly, enable that wide cut is relatively narrow but quality is closely knit becoming after lamination transmits by wide cut is wider but quality is sparse wool spinning gauze
Wool spinning gauze is transmitted using the bearing material of two sides above the second material transfer belt and has been symmetrically arranged the anti-fall baffle of stack on bracket,
The anti-fall baffle inclination of stack is fixedly installed on bearing material transmission bracket, enables the hair to the pendulum material continuous reciprocally swinging lamination blanking of bracket
Spinning net two sides carry out limit blocking, avoid wool spinning gauze from sliding in lamination process from the second material transfer belt two sides, realize hair
Accurate lamination processing is netted in spinning, is rotationally connected with the first material transfer transfer roller end by the first transmission connecting plate side, the second transmission connects
Plate side is rotationally connected with blanking transfer roller end, and the first transmission connecting plate and the second transmission connecting plate end are rotationally connected with transmission respectively
Shaft is adopted between the second sprocket wheel and the 4th sprocket wheel using the first connection chain transmission connection between the first sprocket wheel and third sprocket wheel
With second connection chain transmission connection, first transmission connecting plate and second transmission connecting plate can with pendulum material bracket translational motion around
Drive shaft rotated, allow to realize the first material transfer transfer roller and blanking transfer roller synchronize rotated, make to can ensure that wool spinning
Transmission speed is consistent before and after gauze, and wool spinning gauze is avoided to cause wool spinning since front and back transmission speed is inconsistent in transmit process
Gauze stacks and excessively drawing, the transmission lamination of realization wool spinning gauze smooth sequential are rolled up respectively by third material transfer belt two sides
Around two third material transfer transfer rollers are connected to, the second material transfer chain is used between third material transfer motor output end and third material transfer transfer roller
Transmission connection, preceding transition deflector roll and rear transition deflector roll are symmetrically disposed on the wool spinning material guiding bracket of third material transfer belt two sides, preceding mistake
It crosses deflector roll, third material transfer transfer roller, rear transition deflector roll and gauze charging deflector roll to be parallel to each other, so that carrying out along the second material transfer belt
The wool spinning gauze of transmission can continue to successively smoothly be passed along preceding transition deflector roll, third material transfer belt and rear transition deflector roll
It send, and wool spinning gauze, during transition deflector roll before being sent to from the second material transfer belt, wool spinning gauze is constant in breadth
In the case of be able to carry out the rotation of vertical angle, wool spinning gauze is changed being sent to the first of commutation material transfer bracket from rear transition deflector roll
During transfer roller, wool spinning gauze is able to carry out the rotation of vertical angle in the case where breadth is constant, so that wool spinning gauze
During being successively transmitted with production line, mechanism can be sent using transition by wool spinning gauze steady and smooth
It is transmitted, is parallel to each other by the first commutation transfer roller, the second commutation transfer roller and the third commutation transfer roller on commutation material transfer bracket
And be mutually perpendicular to rear transition deflector roll, enable wool spinning gauze accurately carry out vertical duction and steady and smooth successively into
Row transmission is hinged respectively by the rotating bracket upper center two sides on the downside of commutation material transfer bracket and is connected to below commutation material transfer bracket
Two sides are provided with blanking guide groove on the commutation material transfer bracket on the upside of rotating bracket, and the 4th material transfer belt two sides wind connection respectively
The 4th material transfer transfer roller in wool spinning material guiding bracket two sides, the 4th material transfer transfer roller are mutually perpendicular to third commutation transfer roller, the 4th material transfer
It is connected between motor output end and the 4th material transfer transfer roller using third material transfer chain drive, so that successively downward along blanking guide groove
Wool spinning gauze is stacked in the 4th be capable of even after the continuous reciprocally swinging of rotating bracket by the wool spinning gauze of transmission
On the upside of material transfer belt, the 4th material transfer belt is driven to be transmitted using the 4th material transfer motor, and the transmission of the 4th material transfer belt
The direction that direction folds wool spinning gauze with rotating bracket reciprocally swinging is mutually perpendicular to, and enables the wool spinning that wide cut is relatively narrow
Net be carried out continuously lamination transmission after increase wool spinning gauze wide cut, and using lamination process so that wool spinning gauze quality more
It is closely knit, it is processed using lamination twice in succession, so that wool spinning gauze quality is closely knit, and by the wool spinning gauze phase of lamination processing
Connected degree between mutually can also be guaranteed, and the wool spinning item of later process is gone on smoothly, and improve wool spinning item
Efficiency and quality, be symmetrically arranged drawing material belt by rotating bracket two sides, the drawing material of two sides turns below rotating bracket
Roll end is coaxially fixedly installed drawing material gear vertically respectively, and the drawing material gear of rotating bracket two sides is intermeshed connection, draws material
Motor, which drives, draws material transfer roller to be rotated, and the drawing material belt of rotating bracket two sides is synchronized and carries out rotation transmission in opposite directions,
It is enabled by wool spinning gauze that two are drawn between material belts rapidly and efficiently carry out drawing transmission, pass through the wool spinning of rotating bracket two sides
Level is fixedly installed reciprocal sleeve respectively on material guiding bracket, and translation guide rod two sides are slideably positioned in wool spinning respectively in the horizontal direction
The reciprocal sleeve of material guiding bracket two sides translates and is vertically arranged with slide plate guide groove, rotating bracket one on the translation guide plate in the middle part of guide rod
Rotating bracket is rotationally connected in the middle part of the reciprocating slide board of side, reciprocating slide board is slideably positioned in slide plate guide groove, translation guide rod side
It is provided with reciprocating drive mechanism on wool spinning material guiding bracket, drives translation guide rod continuous past in the horizontal direction using reciprocating drive mechanism
Translational motion is carried out again, translation guide rod can drive reciprocating slide board synchronize and be moved in translation motion using translation guide plate,
Reciprocating slide board can be slided during carrying out arcuate movement along slide plate guide groove, and rotating bracket is being translated
Reciprocating rotation is continuously smoothly carried out under the drive of guide rod, is realized the continuous reciprocal lamination processing of wool spinning gauze, is led by translation
Level is fixedly installed translating rack and lower translating rack to boom end respectively for two sides up and down, and translation guide rod up and down put down by the upper of two sides
Moving gear and lower shiftable gear is the identical intermittent gear of dimensions, upper shiftable gear connect with the engagement of upper translating rack and
Lower shiftable gear is connect alternately with the engagement of lower translating rack, and pull rod chain is used between upper shiftable gear and lower shiftable gear
Item transmission connection, is sequentially connected using drive chain between re-ciprocating driving motor and upper shiftable gear, utilizes re-ciprocating driving motor
Shiftable gear is rotated in drive, enables shiftable gear is synchronous with lower shiftable gear to be rotated in the same direction, so that flat
Alternating translational movement can be realized under the alternating induced effect of upper shiftable gear and lower shiftable gear by moving guide rod, pass through lower translation
It is fixedly installed respectively on the translation guide rod of rack gear two sides and translates absorption armature, on the reciprocal driving arm of lower shiftable gear two sides
End adsorption magnet is fixedly installed vertically respectively, so that translation guide rod can be utilized respectively flat when being moved to both side ends
The of short duration pause of the fixed realization of absorption of absorption armature and end adsorption magnet is moved, so that in upper shiftable gear and upper translating rack
Engagement connection and lower shiftable gear and lower translating rack engage in the batch process connected, can be avoided rotating bracket turn
Carried out after moving to both side ends in the case where gravity is important reset rotation and drive translation guide rod reset translation, cause translate guide rod with it is upper
Shiftable gear and lower shiftable gear generate shock, carry out of short duration pause being moved to both side ends using translation guide rod, not only
It can be realized the carry out alternating translational of translation guide rod smooth sequential, additionally it is possible to ensure that rotating bracket can be short when turning to two sides
The breadth for enabling to avoid rotating bracket Rapid reset from rotating wool spinning gauze progress lamination and causing wool spinning gauze lamination is stayed in pause
It is difficult to be guaranteed, through this structure, structure of the invention design rationally, can be steadily easily by sparse wool spinning gauze
It is continuous in transmit process smoothly to carry out lamination processing, allow to be processed into the closely knit wool spinning gauze of quality, the degree of automation
Height meets the needs that processing uses.
Detailed description of the invention
Fig. 1 is the schematic view of the front view that a kind of wool spinning gauze of the present invention continuously transmits laminated device.
Fig. 2 is the schematic view of the front view of preceding material stacking mechanism of the invention.
Fig. 3 is the schematic view of the front view of pendulum material bracket and its associated mechanisms of the invention.
Fig. 4 is the connection overlooking structure diagram of the first material transfer transfer roller and blanking transfer roller of the invention.
Fig. 5 is the schematic view of the front view of transition delivery mechanism of the invention.
Fig. 6 is the left view structural representation of rear material stacking mechanism of the invention.
Fig. 7 is the left view structural representation of reciprocating drive mechanism of the invention.
Fig. 8 is the connection left view structural representation of rotating bracket and translation guide rod of the invention.
Fig. 9 is the left view structural representation of rotating bracket and its associated mechanisms of the invention.
In figure: 1. wool spinning material guiding brackets, material stacking mechanism before 2., 3. transition are sent mechanism, material stacking mechanism after 4., and 5.
Gauze feeds deflector roll, 6. first material transfer belts, 7. first material transfer motors, 8. stack motors, 9. rotating circular discs, 10. pendulum material
Bracket, 11. second material transfer belts, 12. second material transfer motors, 13. first material transfer transfer rollers, 14. first material transfer chains, 15.
Reciprocal guide groove, 16. translation guide wheels, 17. blanking transfer rollers, 18. blanking gears, 19. connection gears, 20. pendulum material connecting rods, 21.
Stack chain, 22. first transmission connecting plates, 23. first sprocket wheels, 24. second transmission connecting plates, 25. second sprocket wheels, 26. transmissions
Shaft, 27. third sprocket wheels, 28. the 4th sprocket wheels, 29. first connection chains, 30. second connection chains, the transmission of 31. bearing materials
Bracket, 32. second material transfer transfer rollers, 33. tapping channels, transition deflector roll before 34., 35. third material transfer belts, 36. thirds pass
Expect motor, transition deflector roll after 37., 38. third material transfer transfer rollers, 39. second material transfer chains, 40. commutation material transfer brackets, 41.
Rotating bracket, 42. translation guide rods, 43. reciprocating drive mechanisms, 44. the 4th material transfer belts, 45. the 4th material transfer motors, 46.
First commutation transfer roller, 47. second commutation transfer rollers, 48. thirds commutation transfer roller, 49. blanking guide grooves, 50. drawing material belts, 51.
Draw material transfer roller, 52. draw material motors, 53. draw material gears, 54. reciprocal sleeves, 55. translation guide plates, 56. slide plate guide grooves, 57.
Reciprocating slide board, 58. the 4th material transfer transfer rollers, 59. third material transfer chains, 60. reciprocal driving arms, shiftable gear on 61.,
62. lower shiftable gear, 63. re-ciprocating driving motors, translating rack on 64., 65. lower translating racks, 66. pull rod chains,
67. drive chain, the anti-fall baffle of 68. stacks, 69. translation guide grooves, 70. adjust mounting hole, and armature are adsorbed in 71. translations,
72. end adsorption magnet.
Specific embodiment
In order to further describe the present invention, a kind of wool spinning gauze is further described with reference to the accompanying drawing and continuously transmits lamination dress
The specific embodiment set, following embodiment is explanation of the invention and the invention is not limited to following embodiments.
As shown in Figure 1, a kind of wool spinning gauze of the present invention continuously transmits laminated device, including wool spinning material guiding bracket 1, preceding stack
Mechanism 2, transition delivery mechanism 3 and rear material stacking mechanism 4, preceding material stacking mechanism 2, transition delivery mechanism 3 and rear material stacking mechanism 4 are along wool spinning
Gauze direction of transfer is successively horizontally placed on wool spinning material guiding bracket 1.As shown in Fig. 2, preceding material stacking mechanism 2 of the invention includes gauze
Feed deflector roll 5, the first material transfer belt 6, the first material transfer motor 7, stack motor 8, rotating circular disc 9, pendulum material bracket 10, the second material transfer
Belt 11 and the second material transfer motor 12, gauze charging deflector roll 5, which horizontally rotates, is connected to 1 upper side of wool spinning material guiding bracket, gauze
It feeds successively to horizontally rotate in the horizontal direction on the wool spinning material guiding bracket 1 of 5 side of deflector roll and is connected with two first material transfer transfer rollers 13,
First material transfer belt 6 is horizontally placed on 1 upside of wool spinning material guiding bracket, and 6 two sides of the first material transfer belt are wound respectively is connected to wool spinning
First material transfer transfer roller 13 of 1 two sides of material guiding bracket, 7 level of the first material transfer motor are fixedly installed on 1 upside of wool spinning material guiding bracket, the
It is passed between first material transfer transfer roller 13 of 6 side of one material transfer motor, 7 output end and the first material transfer belt using the first material transfer chain 14
Dynamic to connect, being horizontally disposed with respectively on the wool spinning material guiding bracket 1 of 6 lower section two sides of the first material transfer belt has reciprocal guide groove 15, such as Fig. 3 institute
Show, pendulum material bracket 10 of the invention is horizontally placed on 6 lower section of the first material transfer belt, and pendulum material bracket 10 is square frame structure, pendulum
Material 10 two sides of bracket are horizontally placed on respectively in the reciprocal guide groove 15 of 1 two sides of wool spinning material guiding bracket, above and below pendulum material 10 both ends of bracket
Two sides are rotatably connected to translation guide wheel 16 vertically respectively, and translation guide wheel 16 rolls in the horizontal direction is set to wool spinning material guiding bracket 1,
Pendulum material 10 two sides of bracket horizontally rotate respectively is connected with blanking transfer roller 17, and blanking transfer roller 17 is parallel to each other with gauze charging deflector roll 5,
17 end of blanking transfer roller of pendulum material 10 two sides of bracket is coaxially fixedly installed blanking gear 18, pendulum material 10 side of bracket vertically respectively
Successively there are two the connection gear 19 of intermeshing connection, two companies for vertical rotation connection respectively between the blanking gear 18 at both ends
It connects 19 lower section two sides of gear and engages connection, pendulum material of the invention with two blanking gears 18 of pendulum material 10 end two sides of bracket respectively
Rotating circular disc 9 is rotatably connected on the wool spinning material guiding bracket 1 of 10 side of bracket vertically, between rotating circular disc 9 and pendulum material bracket 10
It is provided with pendulum and expects connecting rod 20, pendulum material 20 both ends of connecting rod are cut with scissors with 9 side outer end of rotating circular disc and pendulum material 10 1 middle side part of bracket respectively
Connection, 8 level of stack motor is fixedly installed on 1 upside of wool spinning material guiding bracket, between 8 output end of stack motor and rotating circular disc 9
It is sequentially connected using stack chain 21, as shown in figure 4, wool spinning material guiding bracket 1 of the invention is along the first of gauze charging 5 side of deflector roll
13 end of material transfer transfer roller is provided with the first transmission connecting plate 22, and the first transmission 22 side of connecting plate is rotationally connected with the first material transfer transfer roller 13
End, 13 end of the first material transfer transfer roller are coaxially arranged with the first sprocket wheel 23,17 end of blanking transfer roller of pendulum material 10 side of bracket vertically
Portion is provided with the second transmission connecting plate 24, and the second transmission 24 side of connecting plate is rotationally connected with 17 end of blanking transfer roller, blanking transfer roller 17
End is coaxially arranged with the second sprocket wheel 25 vertically, and being horizontally disposed between the first transmission connecting plate 22 and the second transmission connecting plate 24 has transmission
Shaft 26, the first transmission connecting plate 22 and the second transmission 24 end of connecting plate are rotationally connected with drive shaft 26, drive shaft 26 respectively
Two sides are fixedly installed third sprocket wheel 27 and the 4th sprocket wheel 28 vertically respectively, using the between the first sprocket wheel 23 and third sprocket wheel 27
One connection chain 29 is sequentially connected, and is sequentially connected between the second sprocket wheel 25 and the 4th sprocket wheel 28 using the second connection chain 30, this
Level is fixedly installed bearing material transmission bracket 31, bearing material transmission branch on the wool spinning material guiding bracket 1 of 10 downside of pendulum material bracket of invention
31 two sides of frame horizontally rotate respectively is connected with the second material transfer transfer roller 32, and the second material transfer transfer roller 32 is mutually perpendicular to blanking transfer roller 17,
Second material transfer belt 11 is horizontally placed on 31 upside of bearing material transmission bracket, and 11 two sides of the second material transfer belt wind to be connected to respectively holds
Second material transfer transfer roller 32 of material transmission 31 two sides of bracket, 12 level of the second material transfer motor are fixedly installed on bearing material transmission bracket 31 1
Side, the second material transfer motor 12 drive the second material transfer transfer roller 32 to be rotated, and the first material transfer belt 6 and the second material transfer belt 11 transmit
Direction is mutually perpendicular to, and is provided with tapping channel 33 on the wool spinning material guiding bracket 1 of 11 side of the second material transfer belt.
As shown in figure 5, transition delivery mechanism 3 of the invention includes preceding transition deflector roll 34, third material transfer belt 35, third biography
Expect motor 36 and rear transition deflector roll 37, horizontally rotates on the wool spinning material guiding bracket 1 of 11 lower outer of the second material transfer belt and be connected with
Preceding transition deflector roll 34 successively horizontally rotates on the wool spinning material guiding bracket 1 of preceding 34 side of transition deflector roll in the horizontal direction and is connected with two
Root third material transfer transfer roller 38, third material transfer belt 35 are horizontally placed on 1 side of wool spinning material guiding bracket, 35 two sides of third material transfer belt
Winding is connected to two third material transfer transfer rollers 38 respectively, and 36 level of third material transfer motor is fixedly installed under wool spinning material guiding bracket 1
Side is sequentially connected between 36 output end of third material transfer motor and third material transfer transfer roller 38 using the second material transfer chain 39, rear transition
Deflector roll 37, which horizontally rotates, to be connected on the wool spinning material guiding bracket 1 of 35 side of third material transfer belt, preceding transition deflector roll 34 and rear transition
Deflector roll 37 is symmetrically disposed on the wool spinning material guiding bracket 1 of 35 two sides of third material transfer belt, preceding transition deflector roll 34, third material transfer transfer roller
38, rear transition deflector roll 37 and gauze charging deflector roll 5 are parallel to each other.As shown in fig. 6, rear material stacking mechanism 4 of the invention includes commutation
Material transfer bracket 40, rotating bracket 41, translation guide rod 42, reciprocating drive mechanism 43, the 4th material transfer belt 44 and the 4th material transfer motor
45, commutation 40 level of material transfer bracket is fixedly installed on the wool spinning material guiding bracket 1 of rear 37 upside of transition deflector roll, and commutate material transfer bracket 40
For L-type structure, successively horizontally rotates on the material transfer bracket 40 that commutates and be connected with the first commutation transfer roller 46, second commutation transfer roller 47 and the
Three commutation transfer rollers 48, first commutation transfer roller 46, second commutate transfer roller 47 and third commutation transfer roller 48 be parallel to each other and with rear mistake
It crosses deflector roll 37 to be mutually perpendicular to, rotating bracket 41 is set on the commutation material transfer bracket 40 of 48 downside of third commutation transfer roller, rotation branch
41 upper center two sides of frame are hinged respectively is connected to commutation 40 lower section two sides of material transfer bracket, the commutation material transfer branch of 41 upside of rotating bracket
Blanking guide groove 49 is provided on frame 40, as shown in figure 9,41 two sides of rotating bracket of the invention have been symmetrically arranged drawing material belt
50, it draws to horizontally rotate to be connected with respectively in the rotating bracket 41 of material about 50 two sides of belt and draws material transfer roller 51, draw 50 liang of belt of material
Side is wound respectively is connected to drawing material transfer roller 51, draws material transfer roller 51 to be parallel to each other with third commutation transfer roller 48,41 top of rotating bracket
Side level is fixedly installed drawing material motor 52, draws material motor 52 to drive and material transfer roller 51 is drawn to be rotated, 41 lower section of rotating bracket
51 end of drawing material transfer roller of two sides is coaxially fixedly installed drawing material gear 53, the drawing material gear of 41 two sides of rotating bracket vertically respectively
53 intermeshings connect, and level is fixedly installed reciprocal sleeve 54 respectively on the wool spinning material guiding bracket 1 of 41 two sides of rotating bracket, such as
Shown in Fig. 8, translation guide rod 42 of the invention is horizontally placed on 41 side of rotating bracket, and translation 42 two sides of guide rod are divided in the horizontal direction
It is not slideably positioned in the reciprocal sleeve 54 of 1 two sides of wool spinning material guiding bracket, is erected on the translation guide rod 42 at two reciprocal 54 middle parts of sleeve
It is directly fixedly installed translation guide plate 55, translates and is vertically arranged with slide plate guide groove 56 on guide plate 55,41 middle part side of rotating bracket is set
It is equipped with reciprocating slide board 57, rotating bracket 41 is rotationally connected in the middle part of reciprocating slide board 57, reciprocating slide board 57 is slideably positioned in slide plate and leads
Slot 56 translates and is provided with reciprocating drive mechanism 43 on the wool spinning material guiding bracket 1 of 42 side of guide rod, the wool spinning of 41 lower section of rotating bracket
1 two sides of material guiding bracket horizontally rotate respectively is connected with the 4th material transfer transfer roller 58, and the 4th material transfer belt 44 is horizontally placed on rotation branch
41 lower section of frame, 44 two sides of the 4th material transfer belt wind the 4th material transfer transfer roller 58 for being connected to 1 two sides of wool spinning material guiding bracket respectively, the
Four material transfer transfer rollers 58 are mutually perpendicular to third commutation transfer roller 48, and 45 level of the 4th material transfer motor is fixedly installed on wool spinning material guiding bracket
1 lower section side is sequentially connected between 45 output end of the 4th material transfer motor and the 4th material transfer transfer roller 58 using third material transfer chain 59.
As shown in fig. 7, reciprocating drive mechanism 43 of the invention includes reciprocal driving arm 60, upper shiftable gear 61, lower shiftable gear 62
With re-ciprocating driving motor 63, reciprocal driving arm 60 is fixedly installed on the wool spinning material guiding bracket 1 of translation 42 side of guide rod vertically, puts down
Moving 42 end of guide rod, level is fixedly installed translating rack 64 and lower translating rack 65 respectively for two sides up and down, translates on guide rod 42
It is rotatably connected to shiftable gear 61 and lower shiftable gear 62, upper translation tooth on the reciprocal driving arm 60 of lower two sides vertically respectively
Wheel 61 is the identical intermittent gear of dimensions, the company of engagement of upper shiftable gear 61 and upper translating rack 64 with lower shiftable gear 62
Connect and lower shiftable gear 62 connect alternately with the engagement of lower translating rack 65, upper shiftable gear 61 and lower shiftable gear 62 it
Between be sequentially connected using pull rod chain 66,63 level of re-ciprocating driving motor is fixedly installed on reciprocal driving arm 60, reciprocal to drive
It is sequentially connected between dynamic motor 63 and upper shiftable gear 61 using drive chain 67.
It is anti-that stack has been symmetrically arranged on the bearing material transmission bracket 31 of second material transfer belt, 11 top two sides of the invention
Baffle 68 is fallen, the anti-fall inclination of baffle 68 of stack is fixedly installed on bearing material transmission bracket 31, and the anti-fall baffle 68 of stack is that surface is smooth
Thin sheet metal, the enabled wool spinning gauze two sides to the pendulum material continuous reciprocally swinging lamination blanking of bracket 10 carry out limit blocking,
It avoids wool spinning gauze from sliding in lamination process from 11 two sides of the second material transfer belt, realizes the accurate lamination processing of wool spinning gauze.This
It is provided on the translation guide wheel 16 of two sides above and below pendulum material 10 both ends of bracket of invention and is mutually fitted with the sidewall thickness of wool spinning material guiding bracket 1
The translation guide groove 69 matched realizes that pendulum material bracket 10 accurately smoothly carries out translational motion in the horizontal direction.Rotation circle of the invention
Disk 9 is radially successively evenly arranged with multiple adjusting mounting holes 70 from inside to outside, and it is past to enable to adjust pendulum material bracket 10 as needed
The amplitude of multiple translational motion, and then efficiently adjust breadth of the wool spinning gauze after lamination transmission.Lower translating rack 65 of the invention
Translation absorption armature 71, the reciprocal driving arm of lower 62 two sides of shiftable gear are fixedly installed on the translation guide rod 42 of two sides respectively
It is fixedly installed end adsorption magnet 72 on 60 vertically respectively, so that guide rod 42 is translated when being moved to both side ends, Neng Goufen
The of short duration pause of the fixed realization of absorption of absorption armature 71 and end adsorption magnet 72 Li Yong not be translated, is existed using translation guide rod 42
It is moved to both side ends and carries out of short duration pause, can not only realize the carry out alternating translational of translation 42 smooth sequential of guide rod, also
Can ensure rotating bracket 41 when turning to two sides can short stay is enabled that wool spinning web, high efficiency is carried out lamination, avoid turning
Dynamic 41 Rapid reset of bracket rotates and the breadth of wool spinning gauze lamination is caused to be difficult to be guaranteed.
By adopting the above technical scheme, a kind of wool spinning gauze of the present invention continuously transmits laminated device when in use, passes through
Preceding material stacking mechanism 2, transition delivery mechanism 3 and rear material stacking mechanism 4 are successively horizontally placed on wool spinning along wool spinning gauze direction of transfer and lead
Expect bracket 1, using transition delivery mechanism 3 it is enabled by wool spinning gauze between preceding material stacking mechanism 2 and rear material stacking mechanism 4 it is continuous smooth
Be transmitted, enable being carried out continuously wool spinning gauze of high efficiency smooth using preceding material stacking mechanism 2 and rear material stacking mechanism 4 and roll over twice
The folded orthogonal lamination processing in direction, realizes continuous lamination processing of the wool spinning gauze in transmit process, enables quality is dilute
Thin wool spinning gauze is processed into the closely knit wool spinning gauze of quality, is horizontally rotated by gauze charging deflector roll 5 and is connected to wool spinning guide
1 upper side of bracket, 6 two sides of the first material transfer belt wind the first material transfer transfer roller for being connected to 1 two sides of wool spinning material guiding bracket respectively
13, it is sequentially connected between 7 output end of the first material transfer motor and the first material transfer transfer roller 13 using the first material transfer chain 14, utilizes first
Material transfer motor 7 drives the first material transfer belt 6 to carry out rotation transmission, and wool spinning gauze is enabled to feed deflector roll 5 and the along gauze
One material transfer belt 6 is successively transmitted, and is horizontally placed on the past of 1 two sides of wool spinning material guiding bracket respectively by pendulum material 10 two sides of bracket
In multiple guide groove 15, two sides are rotatably connected to translation guide wheel 16, pendulum material 10 side of bracket vertically respectively up and down at pendulum material 10 both ends of bracket
Wool spinning material guiding bracket 1 on be rotatably connected to rotating circular disc 9 vertically, be provided with pendulum material between rotating circular disc 9 and pendulum material bracket 10
Connecting rod 20 is sequentially connected between 8 output end of stack motor and rotating circular disc 9 using stack chain 21, is driven using stack motor 8
Rotating circular disc 9 is carried out continuously rotation, and rotating circular disc 9 during rotation can be using pendulum material connecting rod 20 with 10 edge of movable pendulum material bracket
Horizontal direction back and forth carries out translational motion, is rolled in the horizontal direction using translation guide wheel 16 and is set to wool spinning material guiding bracket 1, translated
Translation guide groove 69 compatible with the sidewall thickness of wool spinning material guiding bracket 1 is provided on guide wheel 16 realizes pendulum material bracket 10 along level
Direction accurately smoothly carries out translational motion, is radially successively evenly arranged with multiple adjustings from inside to outside using rotating circular disc 9
Mounting hole 70, enables to adjust the amplitude of pendulum material 10 alternating translational movement of bracket as needed, and then efficiently adjusts wool spinning gauze and exist
Breadth after lamination transmission horizontally rotates be connected with blanking transfer roller 17 respectively by pendulum material 10 two sides of bracket, blanking transfer roller 17 with
Gauze charging deflector roll 5 is parallel to each other, and 17 end of blanking transfer roller of pendulum material 10 two sides of bracket is coaxially fixedly installed vertically respectively to be fallen
Expect gear 18, two of 10 end two sides of bracket are expected in two connection gears, the 19 lower section two sides of pendulum material 10 side of bracket with pendulum respectively
The engagement connection of blanking gear 18 enables the blanking transfer roller 17 of pendulum material 10 two sides of bracket to realize under outer power drive and synchronizes in opposite directions
It is rotated, wool spinning gauze is carried out from successively transmission downwards between two blanking transfer rollers 17 as pendulum material bracket 10 is continuously reciprocal
Translation passes through the hair of 10 downside of pendulum material bracket so that the wool spinning gauze successively transmitted downwards realizes that continuous reciprocal swing folds
It spins level on material guiding bracket 1 and is fixedly installed bearing material transmission bracket 31,11 two sides of the second material transfer belt wind to be connected to respectively holds
Second material transfer transfer roller 32 of material transmission 31 two sides of bracket, so that the swing with pendulum material bracket 10 acts on the hair successively transmitted downwards
Spinning net can smoothly be stacked in 11 upside of the second material transfer belt, drive the second material transfer transfer roller 32 using the second material transfer motor 12
It is rotated, tapping channel 33 is provided on the wool spinning material guiding bracket 1 of 11 side of the second material transfer belt, so that processing by lamination
Wool spinning gauze can be steadily transmitted under the drive of the second material transfer belt 11, realize that the lamination of wool spinning gauze and transmission are same
Step carries out, and is mutually perpendicular to using the direction of transfer of the first material transfer belt 6 and the second material transfer belt 11, enabled by wide cut is wider but matter
The sparse wool spinning gauze in ground is becoming the wool spinning gauze that wide cut is relatively narrow but quality is closely knit after lamination transmits, and utilizes the second material transfer
It is symmetrically arranged the anti-fall baffle 68 of stack on the bearing material transmission bracket 31 of 11 top two sides of belt, the anti-fall baffle 68 of stack inclines
It is tiltedly fixedly installed on bearing material transmission bracket 31, enables the wool spinning gauze two sides to the pendulum material continuous reciprocally swinging lamination blanking of bracket 10
Limit blocking is carried out, wool spinning gauze is avoided to slide in lamination process from 11 two sides of the second material transfer belt, realizes that wool spinning gauze is quasi-
True lamination processing is rotationally connected with 13 end of the first material transfer transfer roller, the second transmission connecting plate 24 by the first transmission 22 side of connecting plate
Side is rotationally connected with 17 end of blanking transfer roller, and the first transmission connecting plate 22 and the second transmission 24 end of connecting plate are rotationally connected with respectively
Drive shaft 26 is sequentially connected between first sprocket wheel 23 and third sprocket wheel 27 using the first connection chain 29,25 He of the second sprocket wheel
It is sequentially connected between 4th sprocket wheel 28 using the second connection chain 30, the first transmission connecting plate 22 and the second transmission connecting plate 24 can be with
The translational motion of pendulum material bracket 10 rotated around drive shaft 26, allow to realize that the first material transfer transfer roller 13 and blanking turn
Roller 17, which synchronizes, to be rotated, and transmission speed is consistent before and after making to can ensure that wool spinning net, avoid wool spinning gauze in transmit process by
It is inconsistent in front and back transmission speed and wool spinning gauze is caused to stack and excessive drawing, realize that the transmission of wool spinning gauze smooth sequential is folded
Layer, is wound respectively by 35 two sides of third material transfer belt and is connected to two third material transfer transfer rollers 38, and third material transfer motor 36 exports
It is sequentially connected between end and third material transfer transfer roller 38 using the second material transfer chain 39, preceding transition deflector roll 34 and rear transition deflector roll 37 are right
Claim the wool spinning material guiding bracket 1 for being set to 35 two sides of third material transfer belt, preceding transition deflector roll 34, third material transfer transfer roller 38, rear transition
Deflector roll 37 and gauze charging deflector roll 5 are parallel to each other, enable the wool spinning gauze that is transmitted along the second material transfer belt 11 after
It is continuous to be successively smoothly transmitted along preceding transition deflector roll 34, third material transfer belt 35 and rear transition deflector roll 37, and wool spinning
For net during transition deflector roll 34 before being sent to from the second material transfer belt 11, wool spinning gauze can in the case where breadth is constant
The rotation of vertical angle is carried out, wool spinning gauze is in the first commutation transfer roller for being sent to commutation material transfer bracket 40 from rear transition deflector roll 37
During 46, wool spinning gauze is able to carry out the rotation of vertical angle in the case where breadth is constant so that wool spinning gauze with
During production line is successively transmitted, can using transition delivery mechanism 3 by wool spinning gauze steady and smooth into
It goes and transmits, pass through the first commutation transfer roller 46, the second commutation transfer roller 47 and third commutation 48 phase of transfer roller on commutation material transfer bracket 40
It is mutually parallel and be mutually perpendicular to rear transition deflector roll 37, enable wool spinning gauze accurately to carry out vertical duction and steady and smooth
Be successively transmitted, be hinged respectively by the 41 upper center two sides of rotating bracket of commutation material transfer bracket 40 downside and be connected to commutation
40 lower section two sides of material transfer bracket are provided with blanking guide groove 49, the 4th material transfer on the commutation material transfer bracket 40 of the upside of rotating bracket 41
44 two sides of belt wind the 4th material transfer transfer roller 58 for being connected to 1 two sides of wool spinning material guiding bracket, the 4th material transfer transfer roller 58 and respectively
Three commutation transfer rollers 48 are mutually perpendicular to, and third material transfer chain is used between 45 output end of the 4th material transfer motor and the 4th material transfer transfer roller 58
59 transmission connections, so that the wool spinning gauze successively transmitted downwards along blanking guide groove 49 is continuous toward physical pendulum by rotating bracket 41
Be capable of even after dynamic is stacked in wool spinning gauze 44 upside of the 4th material transfer belt, drives the using the 4th material transfer motor 45
Four material transfer belts 44 are transmitted, and the direction of transfer of the 4th material transfer belt 44 and 41 reciprocally swinging of rotating bracket are to wool spinning
The direction that net is folded is mutually perpendicular to, enabled that the relatively narrow wool spinning gauze of wide cut is increased wool spinning after being carried out continuously lamination transmission
The wide cut of gauze, and processed using lamination so that wool spinning gauze quality is more closely knit, it is processed, is made using lamination twice in succession
Wool spinning gauze quality is closely knit, and the mutual Connected degree of wool spinning gauze by lamination processing can also be guaranteed,
The wool spinning item of later process is gone on smoothly, the efficiency and quality of wool spinning item is improved, passes through 41 liang of rotating bracket
Side has been symmetrically arranged drawing material belt 50, and 51 end of drawing material transfer roller of 41 lower section two sides of rotating bracket is vertical coaxial fixed respectively
It is provided with drawing material gear 53, the drawing material gear 53 of 41 two sides of rotating bracket is intermeshed connection, draws material motor 52 to drive and material is drawn to turn
Roller 51 is rotated, and the drawing material belt 50 of 41 two sides of rotating bracket is synchronized and carries out rotation transmission in opposite directions, is enabled two
Root draw material belt 50 between wool spinning gauze rapidly and efficiently carry out drawing transmission, pass through the wool spinning guide of 41 two sides of rotating bracket
Level is fixedly installed reciprocal sleeve 54 respectively on bracket 1, and translation 42 two sides of guide rod are slideably positioned in hair respectively in the horizontal direction
The reciprocal sleeve 54 of 1 two sides of material guiding bracket is spun, is vertically arranged with slide plate guide groove 56 on the translation guide plate 55 at 42 middle part of translation guide rod,
Rotating bracket 41 is rotationally connected in the middle part of the reciprocating slide board 57 of 41 side of rotating bracket, reciprocating slide board 57 is slideably positioned in slide plate and leads
Slot 56 translates and is provided with reciprocating drive mechanism 43 on the wool spinning material guiding bracket 1 of 42 side of guide rod, utilizes 43 band of reciprocating drive mechanism
The continuous reciprocal progress translational motion in the horizontal direction of dynamic translation guide rod 42, translating guide rod 42 can be using translation in translation motion
Guide plate 55 drives reciprocating slide board 57 to synchronize and is moved, and reciprocating slide board 57 can be during carrying out arcuate movement along slide plate
Guide groove 56 is slided, and rotating bracket 41 is enabled continuously smoothly to carry out reciprocating rotation under the drive of translation guide rod 42,
The continuous reciprocal lamination processing for realizing wool spinning gauze, by two sides above and below translation 42 end of guide rod on level is fixedly installed respectively
Translating rack 64 and lower translating rack 65, the upper shiftable gear 64 and lower shiftable gear 62 for translating about 42 two sides of guide rod are size
The identical intermittent gear of specification, upper shiftable gear 61 is connect with the engagement of upper translating rack 64 and lower shiftable gear 62 and lower translation
The engagement connection of rack gear 65 alternately, is connected between upper shiftable gear 61 and lower shiftable gear 62 using the transmission of pull rod chain 66
It connects, is sequentially connected between re-ciprocating driving motor 63 and upper shiftable gear 61 using drive chain 67, utilizes re-ciprocating driving motor 63
Shiftable gear 61 is rotated in drive, enables shiftable gear 61 is synchronous with lower shiftable gear 62 to be rotated in the same direction,
Translation guide rod 42 is enabled to realize that alternating translational is transported under the alternating induced effect of upper shiftable gear 61 and lower shiftable gear 62
It is dynamic, by the way that translation absorption armature 71, lower shiftable gear are fixedly installed on the translation guide rod 42 of lower 65 two sides of translating rack respectively
End adsorption magnet 72 is fixedly installed vertically respectively on the reciprocal driving arm 60 of 62 two sides, so that translation guide rod 42 is translating
When to both side ends, the fixed realization of absorption that can be utilized respectively translation absorption armature 71 and end adsorption magnet 72 of short duration stops
, so that being connected and lower shiftable gear 62 and lower translating rack 65 are nibbled in engaging for upper shiftable gear 61 and upper translating rack 64
In the batch process for closing connection, it can be avoided rotating bracket 41 and carry out reset turn in the case where gravity is important after turning to both side ends
It moves and translation guide rod 42 is driven to reset translation, translation guide rod 42 is caused to hit with upper shiftable gear 61 and the generation of lower shiftable gear 62
It hits, carries out of short duration pause being moved to both side ends using translation guide rod 42, can not only realize that translation guide rod 42 steadily has
The carry out alternating translational of sequence, additionally it is possible to ensure rotating bracket 41 when turning to two sides can short stay it is enabled by wool spinning gauze
Lamination is carried out, 41 Rapid reset of rotating bracket is avoided to rotate and the breadth of wool spinning gauze lamination is caused to be difficult to be guaranteed.Pass through
Such structure, structure of the invention design rationally, can be steadily easily continuous in transmit process by sparse wool spinning gauze
Lamination processing is smoothly carried out, allows to be processed into the closely knit wool spinning gauze of quality, high degree of automation meets what processing used
It needs.
Above content is only illustrations made for the present invention described in this specification.Technology belonging to the present invention
The technical staff in field can make various modifications or additions to the described embodiments or by a similar method
Substitution, content without departing from description of the invention or beyond the scope defined by this claim should belong to this
The protection scope of invention.
Claims (5)
1. a kind of wool spinning gauze continuously transmits laminated device, it is characterised in that: the wool spinning gauze continuously transmits laminated device packet
Wool spinning material guiding bracket, preceding material stacking mechanism, transition delivery mechanism and rear material stacking mechanism are included, the preceding material stacking mechanism, transition are sent machine
Structure and rear material stacking mechanism are successively horizontally placed on wool spinning material guiding bracket along wool spinning gauze direction of transfer, and the preceding material stacking mechanism includes
Gauze feeds deflector roll, the first material transfer belt, the first material transfer motor, stack motor, rotating circular disc, pendulum material bracket, the second material transfer skin
Band and the second material transfer motor, the gauze charging deflector roll, which horizontally rotates, to be connected at the upper side of wool spinning material guiding bracket, gauze charging
Successively horizontally rotate in the horizontal direction on the wool spinning material guiding bracket of deflector roll side and is connected with two first material transfer transfer rollers, the first material transfer
Belt is horizontally placed on the upside of wool spinning material guiding bracket, and the first material transfer belt two sides are wound respectively is connected to wool spinning material guiding bracket two sides
The first material transfer transfer roller, the first material transfer motor level is fixedly installed on the upside of wool spinning material guiding bracket, and the first material transfer motor is defeated
It is connected between outlet and the first material transfer transfer roller of the first material transfer belt side using the first material transfer chain drive, first material transfer
Being horizontally disposed with respectively on the wool spinning material guiding bracket of two sides below belt has reciprocal guide groove, and the pendulum material support level is set to first
Below material transfer belt, pendulum material bracket is square frame structure, and pendulum material bracket two sides are horizontally placed on wool spinning material guiding bracket two respectively
In the reciprocal guide groove of side, two sides are rotatably connected to translation guide wheel vertically respectively up and down at pendulum material bracket both ends, and translation guide wheel is along horizontal
Direction, which rolls, is set to wool spinning material guiding bracket, and pendulum material bracket two sides horizontally rotate respectively is connected with blanking transfer roller, and blanking turns
Roller is parallel to each other with gauze charging deflector roll, and the blanking transfer roller end of pendulum material bracket two sides is coaxially fixedly installed blanking vertically respectively
Gear, pendulum expect that successively there are two the companies for being intermeshed connection for vertical rotation connection respectively between the blanking gear at bracket side both ends
Gear is connect, connection is engaged with two blanking gears of pendulum material bracket end two sides respectively in two sides below two connection gears, described
Rotating circular disc is rotatably connected on the wool spinning material guiding bracket of pendulum material bracket side vertically, is arranged between rotating circular disc and pendulum material bracket
There is pendulum material connecting rod, pendulum material connecting rod two end is hinged with rotating circular disc side outer end and pendulum material one middle side part of bracket respectively, described folded
Material motor level is fixedly installed on the upside of wool spinning material guiding bracket, and stack chain is used between stack motor output end and rotating circular disc
Transmission connection, the wool spinning material guiding bracket are provided with the first transmission along the first material transfer transfer roller end of gauze charging deflector roll side and connect
Plate, the first transmission connecting plate side are rotationally connected with the first material transfer transfer roller end, and the first material transfer transfer roller end is coaxially arranged with vertically
First sprocket wheel, the blanking transfer roller end of pendulum material bracket side are provided with the second transmission connecting plate, and the second transmission connecting plate side rotation connects
It is connected to blanking transfer roller end, blanking transfer roller end is coaxially arranged with the second sprocket wheel vertically, and the first transmission connecting plate and second pass
Being horizontally disposed between dynamic connecting plate has drive shaft, and the first transmission connecting plate and the second transmission connecting plate end are rotationally connected with transmission respectively
Shaft, drive shaft two sides are fixedly installed third sprocket wheel and the 4th sprocket wheel, first sprocket wheel and third sprocket wheel vertically respectively
Between using first connection chain transmission connection, between the second sprocket wheel and the 4th sprocket wheel using second connection chain transmission connection,
Level is fixedly installed bearing material transmission bracket on wool spinning material guiding bracket on the downside of the pendulum material bracket, and bearing material transmits bracket two sides point
Do not horizontally rotate and be connected with the second material transfer transfer roller, the second material transfer transfer roller is mutually perpendicular to blanking transfer roller, the second material transfer belt
It is horizontally placed on the upside of bearing material transmission bracket, the second material transfer belt two sides winds respectively is connected to bearing material transmits bracket two sides the
Two material transfer transfer rollers, the second material transfer motor level are fixedly installed on bearing material transmission bracket side, and the second material transfer motor drives the
Two material transfer transfer rollers are rotated, and the first material transfer belt is mutually perpendicular to the second material transfer belt direction of transfer, and described second passes
Expect to be provided with tapping channel on the wool spinning material guiding bracket of belt side, transition delivery mechanism includes preceding transition deflector roll, third
Material transfer belt, third material transfer motor and rear transition deflector roll, water on the wool spinning material guiding bracket of the second material transfer belt lower outer
It is flat to be rotatably connected to preceding transition deflector roll, company is successively horizontally rotated in the horizontal direction on the wool spinning material guiding bracket of preceding transition deflector roll side
Two third material transfer transfer rollers are connected to, third material transfer belt is horizontally placed on wool spinning material guiding bracket side, third material transfer belt two sides
Winding is connected to two third material transfer transfer rollers respectively, and the third material transfer motor level is fixedly installed under wool spinning material guiding bracket
Side is connected between third material transfer motor output end and third material transfer transfer roller using the second material transfer chain drive, and the rear transition is led
Roller, which horizontally rotates, to be connected on the wool spinning material guiding bracket of third material transfer belt side, the preceding transition deflector roll and rear transition deflector roll pair
Claim the wool spinning material guiding bracket for being set to third material transfer belt two sides, the preceding transition deflector roll, third material transfer transfer roller, rear transition deflector roll
It is parallel to each other with gauze charging deflector roll, the rear material stacking mechanism includes commutation material transfer bracket, rotating bracket, translates guide rod, is reciprocal
Driving mechanism, the 4th material transfer belt and the 4th material transfer motor, the commutation material transfer support level are fixedly installed on rear transition deflector roll
The wool spinning material guiding bracket of upside, commutation material transfer bracket are L-type structure, successively horizontally rotate on the material transfer bracket that commutates and are connected with first
Commutation transfer roller, the second commutation transfer roller and third commutation transfer roller, the first commutation transfer roller, the second commutation transfer roller and third commutation transfer roller phase
Mutually parallel and be mutually perpendicular to rear transition deflector roll, the rotating bracket is set to the commutation material transfer branch on the downside of third commutation transfer roller
On frame, rotating bracket upper center two sides are hinged respectively is connected to two sides below commutation material transfer bracket, the commutation on the upside of rotating bracket
Blanking guide groove is provided on material transfer bracket, the rotating bracket two sides have been symmetrically arranged drawing material belt, have drawn material belt or more
Horizontally rotate respectively in the rotating bracket of two sides and be connected with drawing material transfer roller, drawing material belt two sides, which wind to be connected to respectively, draws material to turn
Roller draws material transfer roller to be parallel to each other with third commutation transfer roller, and level is fixedly installed drawing material motor at the upper side of the rotating bracket,
Drawing material motor to drive draws material transfer roller to be rotated, and the drawing material transfer roller end of two sides is vertical coaxial solid respectively below the rotating bracket
Surely it is provided with drawing material gear, the drawing material gear of rotating bracket two sides is intermeshed connection, and the wool spinning of the rotating bracket two sides is led
Level is fixedly installed reciprocal sleeve respectively on material bracket, and the translation guide rod is horizontally placed on rotating bracket side, and translation is led
Bar two sides are slideably positioned in the reciprocal sleeve of wool spinning material guiding bracket two sides respectively in the horizontal direction, flat in the middle part of two reciprocal sleeves
It moves on guide rod and is fixedly installed translation guide plate vertically, translate and be vertically arranged with slide plate guide groove on guide plate, in the middle part of the rotating bracket
Side is provided with reciprocating slide board, is rotationally connected with rotating bracket in the middle part of reciprocating slide board, and reciprocating slide board is slideably positioned in slide plate guide groove,
Reciprocating drive mechanism, the wool spinning guide below the rotating bracket are provided on the wool spinning material guiding bracket of the translation guide rod side
Bracket two sides horizontally rotate respectively is connected with the 4th material transfer transfer roller, and the 4th material transfer belt is horizontally placed below rotating bracket, the
Four material transfer belt two sides wind the 4th material transfer transfer roller for being connected to wool spinning material guiding bracket two sides, the 4th material transfer transfer roller and third respectively
Commutation transfer roller is mutually perpendicular to, and the 4th material transfer motor level is fixedly installed on side below wool spinning material guiding bracket, the 4th material transfer
It is connected between motor output end and the 4th material transfer transfer roller using third material transfer chain drive, the reciprocating drive mechanism includes reciprocal
Driving arm, upper shiftable gear, lower shiftable gear and re-ciprocating driving motor, the reciprocal driving arm are fixedly installed on flat vertically
The wool spinning material guiding bracket of guide rod side is moved, level is fixedly installed translating rack under respectively for two sides up and down for translation guide rod end
Translating rack, it is described translation guide rod up and down two sides reciprocal driving arm on be rotatably connected to vertically respectively shiftable gear and under
Shiftable gear, the upper shiftable gear and lower shiftable gear are the identical intermittent gear of dimensions, and upper shiftable gear is put down with upper
The engagement connection and lower shiftable gear for moving rack gear are connect alternately with the engagement of lower translating rack, and the upper shiftable gear is under
It is connected between shiftable gear using pull rod chain drive, the re-ciprocating driving motor level is fixedly installed on reciprocal driving arm
On, it is sequentially connected between re-ciprocating driving motor and upper shiftable gear using drive chain.
2. a kind of wool spinning gauze according to claim 1 continuously transmits laminated device, it is characterised in that: second material transfer
The anti-fall baffle of stack is symmetrically arranged above belt on the bearing material transmission bracket of two sides, the anti-fall baffle inclination of stack is solid
Surely it is set to bearing material transmission bracket, the anti-fall baffle of stack is the smooth thin sheet metal in surface.
3. a kind of wool spinning gauze according to claim 1 continuously transmits laminated device, it is characterised in that: the pendulum expects bracket
Translation guide groove compatible with the sidewall thickness of wool spinning material guiding bracket is provided on the translation guide wheel of two sides above and below both ends.
4. a kind of wool spinning gauze according to claim 1 continuously transmits laminated device, it is characterised in that: the rotating circular disc
It is radially successively evenly arranged with multiple adjusting mounting holes from inside to outside.
5. a kind of wool spinning gauze according to claim 1 continuously transmits laminated device, it is characterised in that: the lower translation tooth
Translation absorption armature is fixedly installed on the translation guide rod of two sides respectively, on the reciprocal driving arm of lower shiftable gear two sides point
It is not fixedly installed end adsorption magnet vertically.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910326739.4A CN110129925B (en) | 2019-04-23 | Continuous conveying lamination device for wool spinning gauze |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910326739.4A CN110129925B (en) | 2019-04-23 | Continuous conveying lamination device for wool spinning gauze |
Publications (2)
Publication Number | Publication Date |
---|---|
CN110129925A true CN110129925A (en) | 2019-08-16 |
CN110129925B CN110129925B (en) | 2024-07-05 |
Family
ID=
Citations (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5423733A (en) * | 1993-06-21 | 1995-06-13 | Sanei-Kisetsu Co., Ltd. | Method of and apparatus for manufacturing piled-up cotton mat |
JP2011094256A (en) * | 2009-10-29 | 2011-05-12 | Hakuryu Kikaisho Kofun Yugenkoshi | Method for folding falling web cloth of equivalent amount with amount of web cloth knitted and falling down from circular knitting machine, and mechanism of the same |
CN105088429A (en) * | 2015-09-11 | 2015-11-25 | 姚钟钟 | Woolen web corner conveying device |
CN105316869A (en) * | 2015-11-25 | 2016-02-10 | 青岛大学 | Technology and equipment for making pure chitosan fiber filament non-woven fabric based on wet spinning technology |
CN105821580A (en) * | 2016-04-27 | 2016-08-03 | 王征 | Automatic powder spreading system applied to fire resistant fibers |
CN107416576A (en) * | 2017-06-26 | 2017-12-01 | 桐乡市唐潮广告有限公司 | A kind of fabric transmits stacker mechanism |
CN207276894U (en) * | 2017-09-28 | 2018-04-27 | 嘉兴华丽非织布制品有限公司 | Lapping machine for nonwoven production |
CN108251923A (en) * | 2018-02-28 | 2018-07-06 | 浙江新棉纺织有限公司 | A kind of wool top unreels feed device |
CN210163554U (en) * | 2019-04-23 | 2020-03-20 | 浙江秋黎服饰有限公司 | Continuous conveying and laminating device for wool spinning net |
Patent Citations (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5423733A (en) * | 1993-06-21 | 1995-06-13 | Sanei-Kisetsu Co., Ltd. | Method of and apparatus for manufacturing piled-up cotton mat |
JP2011094256A (en) * | 2009-10-29 | 2011-05-12 | Hakuryu Kikaisho Kofun Yugenkoshi | Method for folding falling web cloth of equivalent amount with amount of web cloth knitted and falling down from circular knitting machine, and mechanism of the same |
CN105088429A (en) * | 2015-09-11 | 2015-11-25 | 姚钟钟 | Woolen web corner conveying device |
CN105316869A (en) * | 2015-11-25 | 2016-02-10 | 青岛大学 | Technology and equipment for making pure chitosan fiber filament non-woven fabric based on wet spinning technology |
CN105821580A (en) * | 2016-04-27 | 2016-08-03 | 王征 | Automatic powder spreading system applied to fire resistant fibers |
CN107416576A (en) * | 2017-06-26 | 2017-12-01 | 桐乡市唐潮广告有限公司 | A kind of fabric transmits stacker mechanism |
CN207276894U (en) * | 2017-09-28 | 2018-04-27 | 嘉兴华丽非织布制品有限公司 | Lapping machine for nonwoven production |
CN108251923A (en) * | 2018-02-28 | 2018-07-06 | 浙江新棉纺织有限公司 | A kind of wool top unreels feed device |
CN210163554U (en) * | 2019-04-23 | 2020-03-20 | 浙江秋黎服饰有限公司 | Continuous conveying and laminating device for wool spinning net |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN109292377A (en) | A kind of transfer mechanism that continuously back and forth gets stuck | |
CN106586680A (en) | Synchronous winding device for plurality of groups of yarns | |
CN108438991A (en) | A kind of drive apparatus of jacquard fabric | |
CN108792787A (en) | A kind of continuous rolling-up mechanism of wool top | |
CN108796745A (en) | A kind of mixed yarn removal of impurities transport mechanism | |
CN110079936A (en) | Fiber aftertreatment equipment and method are spun in a kind of sudden strain of a muscle | |
CN109234866A (en) | A kind of multiple roll drafting system for yarn processing | |
CN110127428A (en) | A kind of fleece folding feed mechanism | |
CN109097874A (en) | A kind of section coloured yarn processing unit (plant) | |
CN109554840A (en) | A kind of closely-knitted safety net production equipment | |
CN108977942A (en) | A kind of flax backfin carding mechanism | |
CN110129925A (en) | A kind of wool spinning gauze continuously transmits laminated device | |
CN210162924U (en) | Wool top conveying and winding device | |
CN108251923A (en) | A kind of wool top unreels feed device | |
CN209113237U (en) | A kind of yarn drafts rolling-up mechanism | |
CN208965121U (en) | A kind of section coloured yarn processing unit (plant) | |
CN209555503U (en) | A kind of tape edge device for silk fabrics | |
CN209097916U (en) | A kind of wool top tie rod organisation of working | |
CN208562677U (en) | A kind of mixed yarn removal of impurities transport mechanism | |
CN210162897U (en) | Web lamination width reducing mechanism | |
CN110129925B (en) | Continuous conveying lamination device for wool spinning gauze | |
CN208379075U (en) | A kind of flax material transfer reel releasing mechanism | |
CN209276705U (en) | A kind of multiple roll drafting system for yarn processing | |
CN208136399U (en) | A kind of wool top unreels feed device | |
CN219526932U (en) | Jacquard selvedge twisting mechanism convenient to clear up |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant |