CN205529237U - Full automatic connection device - Google Patents

Full automatic connection device Download PDF

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Publication number
CN205529237U
CN205529237U CN201620052899.6U CN201620052899U CN205529237U CN 205529237 U CN205529237 U CN 205529237U CN 201620052899 U CN201620052899 U CN 201620052899U CN 205529237 U CN205529237 U CN 205529237U
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China
Prior art keywords
right flank
left wing
yarn
pedestal
full
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Application number
CN201620052899.6U
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Chinese (zh)
Inventor
潘军江
谢坤辅
李凯
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Shaoxing Chengsheng Textile Co Ltd
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Shaoxing Chengsheng Textile Co Ltd
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Priority to CN201620052899.6U priority Critical patent/CN205529237U/en
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Abstract

The utility model relates to a full automatic connection device belongs to spinning or twisting technical field. Including the base, snatch mechanism, friction roller, briquetting, frame, suction gun and close parallel machine and construct, the base passes through the slide rail to be installed in the frame, friction roller, suction gun and briquetting are located the base top, snatch the mechanism and are located lateral wall of the base, close parallel machine and construct and be located the base below, the friction roller constitute by a set roll body, pivot, all -wing aircraft, inertia adjusting nut, syringe needle and flywheel, the mechanism of picking include left wing and right flank, the left wing passes through the pendulum rod installs before the base on the lateral wall, and this pendulum rod is connected with the controller, the right flank corresponds the installation with the left wing, the parallel machine that closes construct the below that is located left wing and right flank. Be applied to spinning or twisting with utility model, have automatic height, operate advantages such as swift.

Description

Full-automatic termination
Technical field
This utility model relates to a kind of full-automatic termination, belongs to spinning or twisting technique field.
Background technology
In spinning or twisting process, when the cotton sliver supplied, yarn gradually decrease, for avoiding midway short-term, it will usually carry out patching operations, will the yarn tail end of the previous cylinder yarn head end with latter be overlapping merges, to realize supplying being carried out continuously of yarn.But the most manual joint of processing method that wiring is conventional, i.e. when previous cylinder still has part surplus, will merge by the tail end of the previous cylinder yarn yarn head end with latter, then as the lasting supply of yarn, this wiring position parts entrance is without interruption.Although this processing method also achieves continuous prodution, but manual operation is loaded down with trivial details, it is impossible to realizes full-automation and produces.
Based on this, make the application.
Utility model content
In order to overcome the drawbacks described above existing for existing wiring operation, this utility model provide a kind of swift to operate, the full-automatic termination of full-automatic wiring can be realized.
For achieving the above object, the technical scheme that this utility model is taked is as follows:
Full-automatic termination, including pedestal, grasping mechanism, friction roller, briquetting, frame, suction gun and merging mechanism, pedestal is installed in frame by slide rail, friction roller, suction gun and briquetting are positioned at above pedestal, grasping mechanism is positioned on pedestal sidewall, merge mechanism and be positioned at below pedestal, described friction roller is by dish roll body, rotating shaft, all-wing aircraft, inertia adjusting nut, syringe needle and flywheel are constituted, described dish roll body lateral wall is ramp structure, its two ends are respectively provided with inner bottom and periphery, rotating shaft and inertia adjusting nut are positioned at dish roll body, and inertia adjusting nut is sleeved in rotating shaft;All-wing aircraft is fixed at spindle central, on flywheel is peripherally located, is flexibly connected by syringe needle between all-wing aircraft with flywheel;Described grasping mechanism includes left wing and right flank, and left wing is installed on pedestal front side wall by fork, and this fork is connected with controller, and right flank is corresponding with left wing installs;The described mechanism that merges is positioned at the lower section of left wing and right flank.
Further, as preferably:
Described dish roll body lateral surface is inclined plane, and its tilt angle theta is 2-5 °.
Described rotating shaft, inertia adjusting nut, dish roll body three axis overlapping.
Described merging mechanism includes merging block one, merging block two, and merging block one, merging block two are installed on below left wing, right flank by rotating shaft respectively.
Described left wing includes dewclaw and lower claw, and lower claw is on same level line with right flank;During work, dewclaw hook take, lower claw coordinate with right flank realize yarn merging.It is furthermore preferred that described right flank and left wing are arc, and right flank is little compared with left wing.
Being provided with slide rail on described pedestal sidewall, pedestal is installed in vortex spinning frame by slide rail.
Described controller includes cylinder, and the outfan of cylinder is connected with fork.
This utility model is applied to spinning or twisting, and friction roller is fixed in frame by inner bottom, and periphery then highlights outside, and yarn or fiber detour on dish roll body, and through syringe needle and flywheel;After starting device, rotating shaft will drive all-wing aircraft to rotate, and syringe needle is therewith around peripherally pivoted, and yarn or fiber lay out from dish roll body, realize transmission downwards under syringe needle with the common effect of flywheel.
nullWherein,In the application,Friction roller is yarn or fiber contacts most positions with this friction roller,During the high-speed transfer of yarn or fiber,The lateral surface of dish roll body is set to the ramp structure at certain inclination angle,And periphery is big compared with inner bottom,Frictional force between yarn or fiber is decomposed into the power of horizontally and vertically both direction downwards,The active force on roller that rubs is acted perpendicularly to weakening、While alleviating the abrasion that yarn or fiber itself are caused by friction,It is also beneficial to the downward sliding of yarn,Make the yarn on dish roll body or convenient the coming off of fiber,Reduce between yarn and yarn、And the mutual rubbing action between yarn and dish roll body,Be conducive to the steady fast supply of yarn,When the tilt angle theta of dish roll body lateral surface is 2-5 °,Especially when this tilt angle theta is 2-3 °,The power of horizontal direction even can be converted into the oblique sliding along dish roll body lateral surface of yarn or fiber,This phorogenesis is more beneficial for the transmission of yarn or fiber,Avoid because of the bad yarn cylinder caused by yarn transmission shakiness.
nullWhen the leading portion yarn on the roller that rubs is decreased to set point,Detector sends signal,And this signal is passed to controller,Suction gun is moved downward between left wing and right flank after drawing yarn,This signal is then converted into order and passes to cylinder and pedestal by controller,Pedestal moves forward along slide rail,Cylinder operation simultaneously,And drive fork along chute sliding to the right by its outfan,Left wing is driven to move to right flank direction,Now,The yarn that suction gun sucks is as back segment yarn,This back segment yarn is hooked in it by dewclaw,When lower claw contacts with right flank,This yarn is i.e. in the closed space that left wing and right flank are formed,Realize the crawl of yarn,Now,Simultaneously,The properly functioning yarn that friction roller is supplied is as leading portion yarn,Briquetting moves down,By this leading portion yarn downwardly against,Leading portion yarn closes up with back segment yarn,Merge block one、Merge block two to close up,Leading portion yarn completes to merge with back segment yarn during high-speed cruising;Now, sensor sends signal, and controller sends instruction, merge block one, merging block two is opened, and briquetting moves up, and fork is moved to the left along chute, lower claw departs from right flank, and pedestal is then moved rearwards by along slide rail, proceeds for yarn, whole process is carried out automatically, without manual operation, it is not required that on-site supervision personnel monitor in real time, while saving human input, also improving wiring efficiency, work efficiency is greatly improved.
In the application, pedestal realizes movable by slide rail, left wing then realizes contacting or isolating by fork with right flank, integrated operation is convenient, grasp speed is fast, and whole wiring is carried out in the case of unbroken, because of without producing joint, it is to avoid joint introduce caused by the irregular phenomenon of yarn molding.
Accompanying drawing explanation
Fig. 1 is overall structure figure of the present utility model;
Fig. 2 is the structural representation of roller of rubbing in this utility model;
Fig. 3 is the side view of roller of rubbing in this utility model;
Fig. 4 is the structural representation of base part in this utility model;
Fig. 5 is side view of the present utility model.
Label in figure: 1. pedestal;11. chutes;2. grasping mechanism;21. left wings;211. dewclaw;212. lower claw;213. fork;22. right flanks;3. friction roller;31. dish roll bodies;311. inner bottom;312. it is peripheral;32. rotating shafts;33. all-wing aircrafts;34. inertia adjusting nuts;341. lightening grooves;34a. arc-shaped side;34b. straight line;35. syringe needles;36. flywheels;4. briquetting;5. frame;6. slide rail;7. merge mechanism;71. merge block one;72. merge block two;73. balance staffs;8. suction gun;9. nozzle.
Detailed description of the invention
Embodiment 1
The full-automatic termination of the present embodiment, in conjunction with Fig. 1, including pedestal 1, grasping mechanism 2, friction roller 3, briquetting 4, frame 5, suction gun 8 and merging mechanism 7, pedestal 1 is installed in frame 5 by slide rail 6, friction roller 3, suction gun 8 and briquetting 4 are positioned at above pedestal 1, grasping mechanism 2 is positioned on pedestal 1 sidewall, merge mechanism 7 and be positioned at below pedestal 1, in conjunction with Fig. 2, friction roller 3 is by dish roll body 31, rotating shaft 32, all-wing aircraft 33, inertia adjusting nut 34, syringe needle 35 and flywheel 36 are constituted, dish roll body 31 lateral wall is ramp structure, its two ends are respectively provided with inner bottom 311 and peripheral 312, rotating shaft 32 and inertia adjusting nut 34 are positioned at dish roll body 31, and inertia adjusting nut 34 is sleeved in rotating shaft 32;All-wing aircraft 33 is fixed on rotating shaft 32 center, on flywheel 36 peripherally located 312, is flexibly connected by syringe needle 35 between all-wing aircraft 33 with flywheel 36;In conjunction with Fig. 4, grasping mechanism 2 includes left wing 21 and right flank 22, left wing 21 relatively right flank 22 is big, left wing 21 includes dewclaw 211, lower claw 212 and fork 213, dewclaw 211 and lower claw 212 are installed at the chute 11 on pedestal 1 front side wall by fork 213, and this fork 213 is connected with controller, lower claw 212 and right flank 22 are on same level line;During work, dewclaw 211 hooks and takes, and lower claw 212 coordinates with right flank 22 and realizes leading portion yarn and merge with back segment yarn;Pedestal 1 is installed in frame 5 by slide rail 6;Controller includes cylinder, and the outfan of cylinder is connected with fork 213;Merging mechanism 7 to include merging block 1, merging block 2 72, merging block 1, merging block 2 72 are installed on below left wing 21, right flank 22 lower section being positioned at left wing 21 with right flank 22 respectively by balance staff 73.
This utility model is applied to spinning or twisting, and friction roller 3 is fixed in frame 5 by inner bottom 311, and peripheral 312 then highlight outside, and yarn or fiber detour on dish roll body 31, and through syringe needle 35 and flywheel 36;After starting device, drive all-wing aircraft 33 is rotated by rotating shaft 32, and syringe needle 35 rotates around peripheral 312 therewith, and yarn or fiber lay out from dish roll body 311, realizes transmission downwards under syringe needle 35 with the common effect of flywheel 36.
nullWherein,In the application,Friction roller 3 is yarn or the most position of fiber contacts,During the high-speed transfer of yarn or fiber,The lateral surface of dish roll body 31 is set to the ramp structure at certain inclination angle,And periphery 312 relatively inner bottom 311 are big,Frictional force between yarn or fiber is decomposed into the power of horizontally and vertically both direction downwards,The active force on roller 3 that rubs is acted perpendicularly to weakening、While alleviating the abrasion that yarn or fiber itself are caused by friction,It is also beneficial to the downward sliding of yarn,Make the yarn on dish roll body 31 or convenient the coming off of fiber,Reduce between yarn and yarn、And the mutual rubbing action between yarn and dish roll body 31,Be conducive to the steady fast supply of yarn,In conjunction with Fig. 3,When the tilt angle theta of dish roll body 31 lateral surface is 2-5 °,Especially when this tilt angle theta is 2-3 °,The power of horizontal direction even can be converted into the oblique sliding along dish roll body 31 lateral surface of yarn or fiber,This phorogenesis is more beneficial for the transmission of yarn or fiber,Avoid because of the bad yarn cylinder caused by yarn transmission shakiness.
nullWhen the leading portion yarn on the roller 3 that rubs is decreased to set point,Detector sends signal,And this signal is passed to controller,Suction gun 8 is moved downward between left wing 21 and right flank 22 after drawing yarn,This signal is then converted into order and passes to cylinder and pedestal 1 by controller,Pedestal 1 moves forward along slide rail 6,Cylinder operation simultaneously,And drive fork 213 along chute 11 sliding to the right by its outfan,Left wing 21 is driven to move to right flank 22 direction,Now,The yarn that suction gun 8 sucks is as back segment yarn,This back segment yarn is hooked in it by dewclaw 211,When lower claw 212 contacts with right flank 22,This yarn is i.e. in the closed space that left wing 21 and right flank 22 are formed,Realize the crawl of yarn,Now,Simultaneously,The properly functioning yarn that friction roller 3 is supplied is as leading portion yarn,Briquetting 4 moves down,By this leading portion yarn downwardly against,Leading portion yarn closes up with back segment yarn,Merge block 1、Merge block 2 72 to close up,Leading portion yarn completes to merge with back segment yarn during high-speed cruising;Now, sensor sends signal, and controller sends instruction, merge block 1, merging block 2 72 is opened, and briquetting 4 moves up, and fork 213 is moved to the left along chute 11, lower claw 212 departs from right flank 22, and pedestal 1 is then moved rearwards by along slide rail 6, proceeds for yarn, whole process is carried out automatically, without manual operation, it is not required that on-site supervision personnel monitor in real time, while saving human input, also improving wiring efficiency, work efficiency is greatly improved.
In the application, pedestal 1 realizes movable by slide rail 6, left wing 21 then realizes contacting or isolating by fork 213 with right flank 22, integrated operation is convenient, grasp speed is fast, and whole wiring is carried out in the case of unbroken, because of without producing joint, it is to avoid joint introduce caused by the irregular phenomenon of yarn molding.
Embodiment 2
The present embodiment is identical with the setting of embodiment 1 and operation principle, difference is: peripheral 312 in bell mouth shape structure, while facilitating flywheel 36 fixing, also avoid yarn or the fiber phenomenon that flies out under inertia force effect, advantageously reduce the winding on all-wing aircraft 33 of yarn or fiber fragment and residual.
Embodiment 3
The present embodiment is identical with the setting of embodiment 1 and operation principle, difference is: peripheral 312 in bell mouth shape structure, while facilitating flywheel 36 fixing, also avoid yarn or the fiber phenomenon that flies out under inertia force effect, advantageously reduce the winding on all-wing aircraft 33 of yarn or fiber fragment and residual;Dewclaw 211, lower claw 212 and right flank 22 are arc dentalation, and dewclaw 211, lower claw 212 the most relatively right flank 22 is big, and dewclaw 211, lower claw 212 opening are to the right, and right flank 22 opening is to the left.
During crawl, yarn is first in the arcuate structure of dewclaw 211, lower claw 212, now, when right flank 22 contacts with lower claw 212, the contact point that right flank 22 and lower claw 212 are formed will come together in this point by yarn, and during this high-speed cruising, leading portion yarn i.e. completes to merge with back segment yarn.
Above content is the further description that provided technical scheme is made by the preferred implementation combining the invention; it cannot be assumed that the invention is embodied as being confined to these explanations above-mentioned; for the invention person of an ordinary skill in the technical field; without departing from the concept of the premise of the invention; some simple deduction or replace can also be made, all should be considered as belonging to the protection domain of the invention.

Claims (9)

1. full-automatic termination, it is characterized in that: include pedestal, grasping mechanism, friction roller, briquetting, frame, suction gun and merging mechanism, pedestal is installed in frame by slide rail, friction roller, suction gun and briquetting are positioned at above pedestal, grasping mechanism is positioned on pedestal sidewall, merge mechanism and be positioned at below pedestal, described friction roller is by dish roll body, rotating shaft, all-wing aircraft, inertia adjusting nut, syringe needle and flywheel are constituted, described dish roll body lateral wall is ramp structure, its two ends are respectively provided with inner bottom and periphery, rotating shaft and inertia adjusting nut are positioned at dish roll body, and inertia adjusting nut is sleeved in rotating shaft;All-wing aircraft is fixed at spindle central, on flywheel is peripherally located, is flexibly connected by syringe needle between all-wing aircraft with flywheel;Described grasping mechanism includes left wing and right flank, and left wing is installed on pedestal front side wall by fork, and this fork is connected with controller, and right flank is corresponding with left wing installs;The described mechanism that merges is positioned at the lower section of left wing and right flank.
2. full-automatic termination as claimed in claim 1, it is characterised in that: described right flank is little compared with left wing.
3. full-automatic termination as claimed in claim 1 or 2, it is characterised in that: described left wing includes dewclaw and lower claw, and lower claw is on same level line with right flank.
4. full-automatic termination as claimed in claim 3, it is characterised in that: described right flank and left wing are arc.
5. full-automatic termination as claimed in claim 1, it is characterised in that: being provided with slide rail on described pedestal sidewall, pedestal is installed in vortex spinning frame by slide rail.
6. full-automatic termination as claimed in claim 1, it is characterised in that: described controller includes cylinder, and the outfan of cylinder is connected with fork.
7. the most full-automatic termination, it is characterised in that: described merging mechanism includes merging block one, merging block two, and merging block one, merging block two are installed on below left wing, right flank by rotating shaft respectively.
8. full-automatic termination as claimed in claim 1, it is characterised in that: the tilt angle theta of described dish roll body lateral surface is 2-5 °.
9. termination as claimed in claim 1 full-automatic, it is characterised in that: described rotating shaft, inertia adjusting nut, dish roll body three axis overlapping.
CN201620052899.6U 2016-01-20 2016-01-20 Full automatic connection device Active CN205529237U (en)

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Application Number Priority Date Filing Date Title
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107299428A (en) * 2017-08-25 2017-10-27 遵义天蕴纺织有限责任公司 It is easy to connect the cotton thread weaving device of broken string
CN111945265A (en) * 2019-05-16 2020-11-17 拉卡什米机械厂有限公司 Automatic joining device for textile ring spinning machine
CN112877837A (en) * 2021-02-24 2021-06-01 江苏泓丰线业科技有限公司 Yarn mixing and twisting device

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107299428A (en) * 2017-08-25 2017-10-27 遵义天蕴纺织有限责任公司 It is easy to connect the cotton thread weaving device of broken string
CN107299428B (en) * 2017-08-25 2019-04-26 遵义天蕴纺织有限责任公司 Convenient for connecing the cotton thread weaving device of broken string
CN111945265A (en) * 2019-05-16 2020-11-17 拉卡什米机械厂有限公司 Automatic joining device for textile ring spinning machine
CN111945265B (en) * 2019-05-16 2024-03-22 拉卡什米机械厂有限公司 Automatic joining device for a spinning ring spinning machine
CN112877837A (en) * 2021-02-24 2021-06-01 江苏泓丰线业科技有限公司 Yarn mixing and twisting device

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