CN203411695U - Automatic connecting device of spinner - Google Patents

Abstract

The utility model discloses an automatic connecting device of a spinner. The automatic connecting device comprises a yarn storage roller controlled by a control system, and a connecting mechanism, wherein the yarn storage roller is arranged below a yarn outlet of the spinner, and the connecting mechanism is arranged in the front of the spinner; an upper yarn guide device and a lower yarn guide device of the connecting mechanism are installed at the lower part and the upper part of a rack respectively; a splicing device is arranged on the rack between the upper yarn guide device and the lower yarn guide device. After a yarn is broken, the automatic connecting device can rapidly catch the broken end of the new yarn and store the new yarn on the yarn storage roller, and the broken end of the new yarn is in a static state at the same time. Meanwhile, the broken end of a seed yarn is lifted up, and the broken ends of the seed yarn and the new yarn are delivered to the splicing device to be spliced. The automatic connecting device is capable of converting dynamic connection into static connection, so that the yarn connecting action of the spinner is not limited by the spinning speed, the problems of difficulty and unstable quality in yarn connection of the high-speed spinner are solved, and the yarn connector can meet the requirement on high quality.

Description

Spinning machine automatic piecing arrangement

Technical field

The utility model belongs to spinning machinery field, is specially a kind of automatic piecing arrangement for spinning machine.

Background technology

Spinning machine is subject to the impact of many factors in spinning process, inevitably there will be broken yarn.So broken yarn joint is modal operating process in spinning process.Traditional broken yarn joint generally includes two kinds of forms: a kind of is manual joint, and another kind is semi-automatic joining.Wherein, manually joint requires spinning speed lower than 80 ms/min, and semi-automatic joining requires spinning speed lower than 150 ms/min.Along with the raising of spinning machine automation, spinning speed is also improving gradually.Joint means with traditional, can only adapt to the spinning machine that spinning speed is lower, for high speed fibre spinning machine, need its reduction of speed even to shut down just and can realize broken yarn joint.This has hindered the raising of spinning machine spinning efficiency undoubtedly, and joint quality does not reach the requirement of high-quality yarn yet.

In the prior art, by joint style, be divided into again two classes: static joint and dynamic joint.Wherein, static joint is mainly used in spinning machine and processes after yarn, for improving yarn quality, increases winding procedure and removes the joint after yarn defect.During joint, the two ends yarn of broken end is all static, and therefore the structure of corresponding static joint mechanism and control are relatively simple and reliable, but static joint mechanism is subject to the restriction of environmental condition.Dynamic joint, also referred to as in wire terminal, is mainly used in the joint of spinning machine in spinning process.During joint, one end yarn is the static yarn being wrapped on bobbin, i.e. seed yarn; The other end is the dynamic yarn that twisting forms yarn to sliver, i.e. new yarn.In dynamic joint process, new yarn is all the time in continuing to produce the state of output.For fear of occur new yarn bulk deposition in joint process, hinder follow-up spinning, so dynamic joint mechanism completes in a short period of time to the joint action need of dynamically new yarn and the enforcement of static seed yarn.This just requires dynamic joint mechanism to have response and the logic control precision of high request, also just means the increase of dynamic joint structural establishment cost.In general, when spinning speed reaches 150 ms/min, the joint control time, existing dynamic joint mechanism still can meet the requirement of joint quality about 0.045 second.But when spinning speed reaches 450 ms/min, the joint control time, this just need to have the dynamic joint mechanism that more high-performance hardware and high accuracy are carried out could meet joint requirement only about 0.004 second.In addition, the in the situation that of spinning machine high-speed spinning, the moving component just having started does not also reach stable state, is easy to cause joint fiber condition fluctuation larger, can cause equally joint quality unstable.

By above-mentioned, can be found out, though static joint mechanism is simple in structure, operation easy to control, the two ends that must meet broken yarn are static state and just can implement joint.And though dynamic joint mechanism is not subject to the above restrictions, the joint time be subject to the impact of spinning machine spinning speed, if spinning speed surpasses 450 ms/min, with existing dynamic joint mechanism, be difficult to guarantee its joint quality.

Summary of the invention

In view of this, the utility model provides a kind of spinning machine automatic piecing arrangement, can, under high speed fibre spinning machine normal operating condition, realize the high-quality joint of broken yarn.

The technical solution of the utility model is: a kind of spinning machine automatic piecing arrangement, comprises yarn storage roller and joint mechanism that controlled system is controlled; Wherein, yarn storage roller is arranged on the below of spinning machine yarn outlet, and joint mechanism is positioned at the front of spinning machine; Joint mechanism comprises the upper yarn withdrawal device being arranged in frame, lower yarn withdrawal device, device of splicer and negative pressure conveying device;

Yarn storage roller, comprises cylinder roller roller, mandrel and twizzle that two ends are enlarging; The upper end of mandrel is connected with motor shaft, and lower end is connected with the hook seat of twizzle, the top of the bill of twizzle in roller roller; Motor can drive roller roller and twizzle to rotate, and twizzle hooks to be got new yarn and can be wound on roller roller;

Lower yarn withdrawal device is arranged on the top of frame, comprise pull bar, large suction nozzle, under draw yarn negative pressure joint and a hollow straight tube under draw yarn yarn-guide tube; Under draw yarn yarn-guide tube front end large suction nozzle be set, the length adaptation of the width of large suction nozzle and yarn volume; Under draw on the pipe shaft of yarn yarn-guide tube and be provided with down and draw yarn negative pressure joint, under draw yarn negative pressure joint and be connected with negative pressure conveying device; Under draw yarn yarn-guide tube rear end by rotating shaft, be connected with the installing plate of frame both sides; One end of pull bar is hinged with push rod, this push rod is fixedly connected with large suction nozzle rotating shaft, the other end of pull bar with under draw yarn drive unit and be connected, under draw yarn drive unit and can drive large suction nozzle to overturn between upper rack and bottom, large suction nozzle can turn to yarn volume position downwards;

Upper yarn withdrawal device is arranged on the bottom of frame, comprise draw yarn stepper motor, little suction nozzle, on draw yarn negative pressure joint and a syphon shape on draw yarn yarn-guide tube; On draw yarn stepper motor and on draw on the installing plate that yarn yarn-guide tube is arranged on frame; On draw yarn yarn-guide tube rear end by travelling gear with on draw yarn stepper motor and be connected; Little suction nozzle is arranged on the front end that draws yarn yarn-guide tube; On draw yarn negative pressure joint and be arranged near the yarn-guide tube place little suction nozzle, above draw yarn negative pressure joint and be connected with negative pressure conveying device; On draw yarn stepper motor and can drive little suction nozzle to overturn between the bottom of frame and top, little suction nozzle can upwards turn to yarn outlet position;

Device of splicer is arranged in the frame between lower yarn withdrawal device and upper yarn withdrawal device, comprises driving gear set, splicer and thread-carrier; Wherein, mouthful opening direction of splicing of splicer is corresponding with yarn; One end of thread-carrier is hinged on the side that splicer is spliced mouthful, and the other end can be done open and close movement around hinged end, the distance that its radius of clean-up is greater than yarn and splices between mouth; Thread-carrier can be spliced yarn feeding in mouth; The drive unit of splicing is connected with splicer by driving gear set.

Further, in the frame near yarn volume, be also provided with unwinding device, this unwinding device comprises unwinding stepper motor, unwinding roller roller, transmission component and connecting rod; Wherein, unwinding stepper motor drives the rotation of unwinding roller roller by transmission component, the motion that connecting rod drives unwinding roller roller to do near or roll up away from yarn by transmission component.

Further, under described, draw yarn drive unit, splice drive unit and unwinding drive unit merge into a cam link drive unit; This cam link drive unit comprises actuated by cams servomotor, the camshaft being parallel to each other and link supports axle, large suction nozzle cam, large suction nozzle connecting rod, the travelling gear of splicing, unwinding cam, unwinding connecting rod and back-moving spring; Actuated by cams servomotor drives camshaft to rotate, and the two ends of link supporting axle are fixed in frame; Large suction nozzle cam, the unwinding cam travelling gear of splicing is coaxially fixed on camshaft; Large suction nozzle connecting rod, the set position of unwinding connecting rod are corresponding with large suction nozzle cam, unwinding cam respectively; One end of two connecting rods all coordinates with link supporting shaft clearance; The middle part of two connecting rods is respectively equipped with a roller, and roller can roll on the working face of corresponding cam; On two connecting rods, be connected with respectively back-moving spring, the other end of back-moving spring is connected with frame, for guaranteeing that the self-corresponding cam working face of roller and each contacts all the time; Wherein, large suction nozzle connecting rod is connected with the pull bar in lower yarn withdrawal device, and unwinding connecting rod is connected with the connecting rod in unwinding device, and the travelling gear of splicing is connected with the driving gear set in device of splicer.

Further, below described device of splicer, be provided with an electronic yarn clearer.

Further, be also provided with walking positioning device in frame, this walking positioning device comprises walking upper rail, walking lower guideway, travel driving unit and positioner; Wherein, walking upper rail and walking lower guideway are along spinning captain to setting, and frame is arranged between upper and lower two guide rails;

Travel driving unit comprises that walking drives servomotor, wheel base member, driving wheel, driven pulley and directive wheel; Wheel base member is fixedly connected with frame top and/or bottom; Wheel base member is provided with can be at driving wheel and the driven pulley of guide rail surface walking, and driving wheel drives servomotor to be connected with walking; On wheel base member, be also provided with directive wheel, the axis of this directive wheel is vertical with driven pulley with driving wheel, with the contacts side surfaces of guide rail;

Positioner comprises location-plate, positioning cylinder, positioning rotating shaft and the alignment pin that is disposed on guide rail side; The position of this alignment pin is corresponding with each ingot position on spinning machine, leaves the locating hole mating with alignment pin on location-plate; Positioning rotating shaft is along wheel base member length to fixing; Location-plate is socketed on this positioning rotating shaft, and the plate face that is provided with locating hole is relative with the side that guide rail is provided with alignment pin; Positioning cylinder is connected with positioning rotating shaft by driver plate; The flexible of positioning cylinder can drive location-plate and walking lower guideway laminating or separated by positioning rotating shaft.

Further, described head end and/or tail end of taking turns base member is provided with cleaning member; The cleaning end of this cleaning member contacts with guide rail surface.

The beneficial effects of the utility model are: yarn is after fracture, upper yarn withdrawal device on joint mechanism can obtain rapidly the broken end of new yarn, continuing spun new yarn can temporarily be stored on the roller roller of yarn storage roller by twizzle, new yarn breakage now remains static, meanwhile, lower yarn withdrawal device is mentioned seed yarn broken end immediately, it is paid to device of splicer jointly with the broken end of new yarn and splice.This device that dynamic joint is changed into static joint, makes the Yarn connecting action of spinning machine no longer be subject to the restriction of spinning speed, has solved that high speed fibre spinning machine Yarn connecting is difficult, the unsettled problem of quality, can guarantee that the joint of yarn reaches high-quality requirement.

In additional technical feature, owing to being provided with untwisting apparatus, make lower yarn withdrawal device can conveniently obtain fast seed yarn.

In additional technical feature, owing to being provided with electronic yarn clearer, so the quality of Yarn connecting has been had to further assurance.

In additional technical feature, owing to being provided with walking positioning device, can improve the utilization rate of equipment, reduce the equipment cost of spinning machine integral body.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the left view of Fig. 1;

Fig. 3 is the structural representation of yarn storage roller;

Fig. 4 is the structural representation of upper yarn withdrawal device;

Fig. 5 is the left view of Fig. 4;

Fig. 6 is the structural representation of cam link drive unit;

Fig. 7 is the structural representation of lower yarn withdrawal device;

Fig. 8 is the structural representation of device of splicer;

Fig. 9 is the structural representation of negative pressure conveying device;

Figure 10 is the structural representation of unwinding device;

Figure 11 is the drive connection schematic diagram of unwinding device;

Figure 12 is the installation site schematic diagram of walking positioning device in frame;

Figure 13 is the structural representation of travel driving unit in walking positioning device;

Figure 14 is the structural representation of positioner in walking positioning device;

Figure 15 is the left view of Figure 14;

Figure 16 is fundamental diagram of the present utility model.

The specific embodiment

Core thinking of the present utility model is that a yarn storage roller and joint mechanism are set in piecing devices.After Yarn break, first by the set upper yarn withdrawal device of joint mechanism, obtain new yarn breakage, new yarn by drop-down process in, by yarn storage roller, will continue the spun new yarn of high speed and be wound around storage; Secondly, the set lower yarn withdrawal device of joint mechanism obtains the seed yarn broken end on yarn volume, and will on seed yarn, draw; Finally new yarn and seed yarn are paid to the joint that device of splicer completes yarn jointly.Secondly because first lasting spun new yarn can be stored on yarn storage roller, just can pay device of splicer and splice, so the new yarn of backing off from yarn storage roller and the seed yarn of backing off from yarn volume have been realized the transformation to static joint by dynamic joint.Again because the change of joint style, thus can provide the sufficient operating time for joint, and then guaranteed stable and high-quality broken yarn joint.

In order to make those skilled in the art understand better the technical solution of the utility model, below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

As depicted in figs. 1 and 2, the utility model is a kind of spinning machine automatic piecing arrangement, comprises yarn storage roller and joint mechanism that controlled system is controlled.Wherein, yarn storage roller 2 is arranged on the below of spinning machine 13 yarn outlets 12.Joint mechanism is positioned at the front of spinning machine 13, comprises the upper yarn withdrawal device 3, lower yarn withdrawal device 4, device of splicer 5 and the negative pressure conveying device 7 that are arranged in frame 1.Wherein, yarn storage roller 2 continues for storing the new yarn that produces after Yarn break; Upper yarn withdrawal device 3 is for obtaining new yarn breakage; Lower yarn withdrawal device 4 is for obtaining seed yarn broken end; Device of splicer 5 breaks end and splices joint for receiving new yarn breakage and seed yarn; Negative pressure conveying device 7 is for upwards yarn withdrawal device 3, lower yarn withdrawal device 4 provide negative pressure, the searching of convenient broken end, the refuse yarn also producing for collecting joint process simultaneously.It should be noted that, lower yarn withdrawal device 4 is connected with cam link drive unit 6 respectively with device of splicer 5; Yarn storage roller 2, upper yarn withdrawal device 3 and 7 of negative pressure conveying devices are respectively equipped with the drive unit of self correspondence.

In above-mentioned each device, need to stress yarn storage roller 2, upper yarn withdrawal device 3, lower yarn withdrawal device 4 and device of splicer 5 set position in frame 1:

Yarn storage roller 2 is arranged on the below that is positioned at spinning machine 13 yarn outlets 12, and higher than frame 1.That is, yarn storage roller 2 is positioned at the top in Yarn connecting path.The reason of setting is like this, and yarn storage roller 2 is first steps that dynamic joint is converted to static joint.Work as yarn breakage, only have yarn storage roller 2 first will continue spun new yarn and be wound around after storage, the joint work of splicing mechanism could be changed into dynamically by static state.Also avoided spun new yarn to produce piles up simultaneously.

Lower yarn withdrawal device 4 is arranged on the top of frame 1, and upper yarn withdrawal device 3 is arranged on the bottom of frame 1, and device of splicer 5 is arranged in the frame 1 between lower yarn withdrawal device 4 and upper yarn withdrawal device 3.The reason arranging is like this, device of splicer 5 is spliced in joint process implementing, and need to carry out to new yarn and seed yarn that common untwisting, fiber mix, twisting again, so will look for novelty yarn and seed yarn have one section of coincidence yarn.This section of coincidence yarn is by upper yarn withdrawal device 3, to obtain the backward frame of new yarn 1 bottom to overturn, and lower yarn withdrawal device 4 obtains that the 1 top upset of the backward frame of seed yarn forms.

Negative pressure conveying device 7 is arranged on the back side of frame 1, does not affect other devices.

The concrete structure of above-mentioned each device is:

As shown in Figure 3, yarn storage roller 2 comprises roller roller 202, mandrel 205, twizzle 204.Wherein, roller roller 202 is a column structure that two ends are enlarging.Mandrel is arranged on the axis of roller roller 202 inner chambers by bearing.The upper end of mandrel 205 is connected with motor shaft, and lower end is connected with the hook seat of twizzle 204.This twizzle 204 stretches out the lower enlarging 203 of roller roller 202, and to the cylinder direction inflection of roller roller 202, the top of the bill of twizzle 204 in roller roller 202.In driven by motor roller roller 202 rotation, twizzle 204 also be take mandrel and as the center of circle, is done the rotation of 360 °.Because yarn storage roller 2 is positioned at the top in Yarn connecting path, so obtain new yarns and by it in downward distraction procedure, new yarn can be obtained and guide close roller roller 202 surfaces by twizzle 204 at upper yarn withdrawal device 3.Roller roller 202 will continue spun new yarn successively from upwards enlarging 201 windings of lower enlarging 203 by self rotating, and when so new yarn is continued to draw downwards by upper yarn withdrawal device 3, just can from yarn storage roller 2, back off smoothly.

As shown in Figure 4 and Figure 5, upper yarn withdrawal device 3 comprise draw yarn stepper motor 301, travelling gear, little suction nozzle 304, on draw yarn negative pressure joint 305 and on draw yarn yarn-guide tube 306.Wherein, above draw yarn stepper motor 301, travelling gear and on draw on the installing plate that yarn yarn-guide tube 306 is arranged on frame 1.Travelling gear comprises pinion 302 and gear wheel 303.On to draw yarn yarn-guide tube 306 be a bend pipe.On draw yarn stepper motor 301 power output shaft through installing plate, be coaxially connected with pinion 302, the gear shaft of gear wheel 303 is connected with the rear end of above drawing yarn yarn-guide tube 306.Little suction nozzle 304 is arranged on the front end that draws yarn yarn-guide tube 306.On draw yarn negative pressure joint 305 and be arranged near the yarn-guide tube place little suction nozzle 304, on this, draw yarn negative pressure joint 305 with in negative pressure conveying device 7 on draw yarn negative pressure transportation pipeline 701 and be connected.

When on when drawing yarn stepper motor 301 and rotating, pinion 302 drives gear wheels 303 and then makes to draw yarn yarn-guide tube 306 and from the bottom of frame 1, turn to the top of frame 1.Little suction nozzle 304 after upset is relative with the yarn outlet 12 of spinning machine 13, and under the effect of negative pressure, the new yarn breakage of spinning mouthful output is inhaled into little suction nozzle 304.After obtaining new yarn, above draw in 301 drives of yarn stepper motor and draw the bottom that yarn yarn-guide tube 306 returns back to frame 1.In little suction nozzle 304 turning courses, first new yarn is stored on yarn storage roller 2, and then backs off and be stretched to the bottom of frame 1 from yarn storage roller 2, and in order to splice, joint is prepared.

Owing to above drawing being limited in scope of yarn yarn-guide tube 306 upsets, so gear wheel 303 is fixed with the total number of teeth in engagement of pinion 302.Therefore draw on meeting under the prerequisite that yarn conduit can overturn completely, gear wheel 303 can be set to sector structure, to save device fabrication cost.

As shown in Figure 6, cam link drive unit 6 is lower yarn withdrawal device 4 and device of splicer 5 integration of connecting drive device respectively, comprises actuated by cams servomotor 608, driving gear set 607, the camshaft being parallel to each other and link supports axle, large suction nozzle cam 603, large suction nozzle connecting rod 601, splice travelling gear 604 and back-moving spring 609.Wherein, actuated by cams servomotor 608 drives camshaft to rotate by driving gear set 607, and the two ends of link supporting axle are fixed in frame 1.Large suction nozzle cam 603 and the travelling gear 604 of splicing are coaxially fixed on camshaft.The set position of large suction nozzle connecting rod 601 is corresponding with large suction nozzle cam 603, and its one end coordinates with link supporting shaft clearance.The middle part of large suction nozzle connecting rod 601 is provided with a roller 602, and this roller 602 can roll on the working face of large suction nozzle cam 603.The other end of large suction nozzle connecting rod 601 is connected with lower yarn withdrawal device 4 by connector.On large suction nozzle connecting rod 601, be also connected with back-moving spring 609, the other end of this back-moving spring 609 is connected with frame 1, for guaranteeing that roller 602 contacts all the time with the working face of large suction nozzle cam 603.

As shown in Figure 7, lower yarn withdrawal device 4 comprise pull bar 401, large suction nozzle 406, under draw yarn negative pressure joint 403 and under draw yarn yarn-guide tube 405.Wherein, under, drawing yarn yarn-guide tube 405 is the straight tube of a hollow.Under draw yarn yarn-guide tube 405 front ends large suction nozzle 406 be set, the length adaptation of the width of large suction nozzle 406 and yarn volume.Under draw on the pipe shaft of yarn yarn-guide tube 405 and arrange down and draw yarn negative pressure joint 403, under this, draw yarn negative pressure joint 403 with in negative pressure conveying device 7 under draw yarn negative pressure transportation pipeline 703 and be connected.Under draw yarn yarn-guide tube 405 rear end by rotating shaft, be connected with the installing plate of frame 1 both sides.One end of pull bar 401 is hinged with push rod 402, and this push rod 402 is fixedly connected with large suction nozzle 406 rotating shafts 404, and the other end of pull bar 401 is connected with large suction nozzle 406 connecting rods 601 in cam link drive unit 6.

Large suction nozzle 406 connecting rods 601 in cam link drive unit 6 drive pull bar 401 to do stretching motion.When pull bar 401 is in extended state, pull bar 401 can promote by the effect of push rod 402 large suction nozzle 406 rotating shafts 404 and rotate, and then makes down to draw yarn yarn-guide tube 405 and from the top of frame 1, turn to the bottom of frame 1.Large suction nozzle 406 after upset touches mutually with the surface of yarn volume, and under the effect of negative pressure, the seed yarn broken end on yarn volume is inhaled into large suction nozzle 406.Band obtains after seed yarn, and cam link drive unit 6 drives pull bars 401 retractions, and pull bar 401 utilizes push rod 402 to make large suction nozzle 406 rotating shafts 404 revolutions, and then under driving, draws the top that yarn yarn-guide tube 405 and large suction nozzle 406 return back to frame 1.In large suction nozzle 406 turning courses, the seed yarn on yarn volume is backed off and is stretched to the top of frame 1, forms with the new yarn that is stretched to frame 1 bottom the yarn that overlaps, and waits for device of splicer 5 joint of splicing.

Device of splicer 5 is arranged in the frame 1 between lower yarn withdrawal device 4 and upper yarn withdrawal device 3.As shown in Figure 8, device of splicer 5 comprises driving gear set 501, splicer 502 and thread-carrier 504.Wherein, driving gear set 501 is connected with the travelling gear 604 of splicing in cam link drive unit 6, can drive splicer 502 work.Mouthful 503 opening directions of splicing of splicer 502 are corresponding with the coincidence yarn of formation.One end of thread-carrier 504 is hinged on a splice side of mouthfuls 503 of splicer 502, and the other end can be done open and close movement around hinged end.The distance that the radius of clean-up of thread-carrier 504 is greater than coincidence yarn and splices between mouthfuls 503, for mouthfuls 503 joints of splicing that the feeding of coincidence yarn is spliced.The course of work of device of splicer 5 is: after coincidence yarn forms, thread-carrier 504 closures, splice its feeding in mouth 503.Now, splicer 502 can cut unnecessary new yarn and the seed yarn joint of splicing.The new yarn cutting and seed yarn can by draw yarn negative pressure transportation pipeline 701 and under draw yarn negative pressure transportation pipeline 703 and be inhaled in negative pressure conveying device 7.When splicer 502 completes after broken yarn joint, thread-carrier 504 is opened, and the yarn connecting is got back on original spinning path and continued to spin.Because splicer 502 is when the joint, new yarn and seed yarn are all static, so the steady quality of joint is reliable.The joint of splicing that splicer 502 is implemented has been mature technology, and in the utility model, splicer 502 can be selected air splicer 502.

As shown in Figure 9, negative pressure conveying device 7 comprise draw yarn negative pressure transportation pipeline 701, under draw yarn negative pressure transportation pipeline 703, refuse yarn cutting cylinder 702 and negative pressure joint 704.Wherein, above draw yarn negative pressure transportation pipeline 701 with on draw yarn negative pressure joint 704 and be connected, for yarn withdrawal device 3 upwards, negative pressure is provided and shifts the refuse yarn that joint process produces.Under draw yarn negative pressure transportation pipeline 703 with under draw yarn negative pressure joint 704 and be connected, for yarn withdrawal device 4 downwards, negative pressure is provided and shifts the refuse yarn that joint process produces.Scissors is arranged in negative pressure conveying device 7, controlled by refuse yarn cutting cylinder 702, for cutting off the refuse yarn that enters negative pressure conveying device 7.The negative pressure system of negative pressure joint 704 and spinning machine self is connected, and for the whole negative pressure of the utility model is provided, such setting can simplified structure, reduce energy consumption and equipment cost.

Through the acting in conjunction of yarn storage roller 2, upper yarn withdrawal device 3, lower yarn withdrawal device 4, device of splicer 5 and negative pressure conveying device 7, the utility model can reach the object that dynamic joint changes static joint into, and can guarantee joint quality.In addition, owing to having broken away from the restriction of spinning speed, so the utlity model has the larger scope of application.

On the basis of technique scheme, preferred version of the present utility model is described further below.

Be subject to the how many impact of yarn volume volume yarn amount, at lower yarn withdrawal device 4, obtain in the process of seed yarn broken end, may run into the situation that yarn coil diameter is larger.Now, seed yarn broken end may appear at the position away from from large suction nozzle and yarn volume contact-making surface, if rely on merely the absorption of negative pressure, obtains the seed yarn difficulty that breaks end larger.The scheme addressing this problem is, in the frame 1 near yarn volume, a unwinding device 8 is set.When large suction nozzle is rolled up near yarn, unwinding device 8 drives yarn to involve in row unwinding and rotates.Coordinate the effect of negative pressure absorbing simultaneously, when the close large suction nozzle of seed yarn broken end, just can be easy to be acquired.

As shown in figure 10, unwinding device 8 comprises unwinding stepper motor 801, unwinding roller roller 803, transmission component 802 and connecting rod 806.Wherein, unwinding stepper motor 801 drives 803 rotations of unwinding roller roller by transmission component 802, the motion that connecting rod 806 drives unwinding roller roller 803 to do near and roll up away from yarn by transmission component 802.This transmission component 802 is three groups of band wheels that are parallel to each other.

As shown in figure 11, the first driving wheel with wheels is coaxially connected with stepper motor output shaft, the first driven pulley 809 is coaxially connected with the second driving wheel 810, and the second driven pulley 811 is coaxially connected with the 3rd driving wheel 812, and the 3rd driven pulley 813 is coaxially connected with unwinding roller roller 803.Therefore unwinding stepper motor 801 can drive 803 rotations of unwinding roller roller by three driving belt wheels.

As shown in figure 10, on the pedestal 807 second with wheels, be fixed with an inclination push rod 805, this inclination push rod 805 is hinged with one end of connecting rod 806, and the other end of connecting rod 806 is connected to unwinding drive unit.The 3rd, with the driving wheel place of wheels, extend one section of pedestal 807, between this section of pedestal 807 and frame 1, be hinged with a connecting-rods with constant lengh 804.Connecting-rods with constant lengh 804 and connecting rod homonymy.The 3rd band wheels be take its driving wheel as fulcrum, form the hinged connecting-rods with constant lengh 804 in one end, and the other end connects the lever construction of unwinding roller roller 803.The course of work is: when connecting rod is subject to the drive of driving rod drive, while promoting the second pedestal 807 with wheels by inclination push rod 805, the second driven pulley 811 can rotate around the second driving wheel 810.Because the second driven pulley 811 is coaxially connected with the 3rd driving wheel 812, and the 3rd driving wheel 812 is subject to the spacing of connecting-rods with constant lengh 804, so under the effect the 3rd with wheels lever construction, the 3rd driven pulley 813 drives the coaxial unwinding roller roller connecting 803 to the direction away from connecting-rods with constant lengh 804, to rotate around the 3rd driving wheel 812, and unwinding roller roller 803 is rolled up near yarn.When connecting rod is pulled back inclination push rod 805, above-mentioned each action reversed, unwinding roller roller 803 returns, and unwinding roller roller 803 is rolled up away from yarn.

As shown in Figure 6, for the simplification to device structure, consider equally, the unwinding drive unit being connected can be incorporated on cam link drive unit 6 with unwinding device 8.Be specially, fixing unwinding cam 605 on the camshaft of cam link drive unit 6, the corresponding unwinding connecting rod 606 arranging coordinates with link supporting shaft clearance.Between unwinding connecting rod 606 and frame 1, by back-moving spring 609, be connected.Stage casing on unwinding connecting rod 606 is provided with roller 602, and roller 602 contacts all the time with the working face of unwinding cam 605 under the effect of back-moving spring 609.It is to be noted: unwinding cam 605 and the shape of large suction nozzle cam 603 and the fixed angle on camshaft are according to working method and the job order of jockey are determined separately.

In order further to guarantee the quality of joint, so complete and splice after joint at device of splicer 5, increased the operation of a yarn defect check.Be specially, as shown in Figure 8, below the mouth 503 of splicing of splicer 502, an electronic yarn clearer 10 be set.After joint completes, first the Yarn connecting reconnecting detects through the yarn mouth 12 of testing of electronic yarn clearer 10.If joint is qualified, thread-carrier 504 is opened, and yarn is returned on spinning path; If defective, electronic yarn clearer 10 is cut off, and joint again, until meet standard.

Because the longer ingot of spinning machine 13 position is more, if a joint mechanism is set in each ingot position, though can complete in time broken yarn joint, concerning spinning machine, cost burden is larger, and there is no need.In addition, the number of times of each ingot position broken yarn every day is limited, from improving this angle of capacity utilization, considers, walking positioning device 9 can be set on joint mechanism to address the above problem.Fast moving and accurate location by walking positioning device 9, can meet the requirement to the timely joint of broken yarn equally.

Walking positioning device 9 comprises walking upper rail 901, walking lower guideway 902, travel driving unit and positioner.Wherein, walking upper rail 901 and walking lower guideway 902 are long to setting along spinning machine 13, and 1 of frame is arranged between upper and lower two guide rails.

Travel driving unit comprises that walking drives servomotor 904, wheel base member 903, driving wheel 906, driven pulley 907 and directive wheel 908.Wherein, wheel base member 903 is fixedly connected with frame 1 top and/or bottom; Wheel base member 903 is provided with can be at driving wheel 906 and the driven pulley 907 of guide rail surface walking, and driving wheel 906 drives servomotor 904 to be connected with walking; On wheel base member 903, be also provided with directive wheel 908, the axis of this directive wheel 908 is vertical with driven pulley 907 with driving wheel 906, with the contacts side surfaces of guide rail.

Positioner comprises location-plate 910, positioning cylinder 913, positioning rotating shaft 911 and the alignment pin 905 that is disposed on guide rail side.The position of this alignment pin 905 is corresponding with each ingot position on spinning machine, leaves the locating hole 912 mating with alignment pin 905 on location-plate 910.Positioning rotating shaft 911 is long to fixing along wheel base member 903.Location-plate 910 is socketed on this positioning rotating shaft 911, and its plate face that is provided with locating hole 912 is relative with the side that guide rail is provided with alignment pin 905.Positioning cylinder 913 is connected with positioning rotating shaft 911 by driver plate.When positioning cylinder 913 is flexible, positioning rotating shaft 911 can drive location- plate 910 and 902 laminatings or separated of walking lower guideway.

Due to spinning machine 13 impurity that inevitably can drop in spinning joint process, so be provided with cleaning member 909 at head end and/or the tail end of wheel base member 903.The cleaning end of this cleaning member 909 contacts with guide rail surface, with this, realizes the object of refuse yarn on cleaning guide rail.

Walking positioning device 9 is subject to the control of external control system, automatically runs to the ingot position of broken yarn by travel driving unit.After arriving appointment ingot position, positioner, under the drive of positioning cylinder 913, makes location-plate 910 and the laminating of guide rail side, and locating hole 912 is plugged on alignment pin 905, with this, completes location work.Wherein, travel driving unit belongs to coarse positioning, and positioner belongs to accurate location, can guarantee walking positioning device 9 operating position that is positioned at appointment ingot position promptly and accurately.

Now the course of work of the present utility model is introduced:

As shown in figure 16, in figure, c is spinning path, and d is Yarn connecting path.Yarn when a certain ingot position occurs after broken end, cam link drive unit 6 is subject to the control of external control system, cam servomotor is driven be fixed on large suction nozzle cam on camshaft, splice travelling gear and unwinding cam synchronously rotate, and then make each self-corresponding connecting rod drive lower yarn withdrawal device, device of splicer 5 and unwinding device to operate with specific work schedule.Little suction nozzle in upper yarn withdrawal device, under upper drive of drawing yarn stepper motor and travelling gear, upwards turn to a place in figure, i.e. the position of yarn outlet 12.Under suction function, little suction nozzle obtains new yarn and original position is got back in upset downwards.This stylish yarn, after the storage of yarn storage roller 2, continues to be pulled down mouthful correspondence position of splicing extending with splicer, and preparation forms with seed yarn the yarn that overlaps.At upper yarn withdrawal device, obtain in the process of new yarn, the large suction nozzle in lower yarn withdrawal device turn to b place in figure downwards, i.e. the position of yarn volume 11.Unwinding roller roller in unwinding device contacts with yarn volume 11, and under the drive of unwinding stepper motor, unwinding roller roller drives yarn volume 11 to rotate unwinding by frictional force, so that large suction nozzle can find seed yarn broken end in time.When large suction nozzle obtains after seed yarn, large suction nozzle upwards upset is got back to original position.The seed yarn of now unwinding is upwards stretched to mouthful correspondence position of splicing with splicer, forms with new yarn the yarn that overlaps.Coincidence yarn, under the guiding of device of splicer 5 middle yarn guiders, enters the mouth of splicing, and thread-carrier is in closure state.Now, the drive of splicer by the travelling gear of splicing in the cam link drive unit operation that starts to splice.After the joint of splicing completes, whether yarn allows to continue spinning through the test and judge of electronic yarn clearer 10.If qualified, thread-carrier is opened, and yarn is got back to former spinning path and normally spinned; If defective, cutting continuous strand, carries out joint again, until meet standard.

Claims (6)

1. a spinning machine automatic piecing arrangement, is characterized in that: comprise yarn storage roller and joint mechanism that controlled system is controlled; Wherein, yarn storage roller is arranged on the below of spinning machine yarn outlet, and joint mechanism is positioned at the front of spinning machine; Joint mechanism comprises the upper yarn withdrawal device being arranged in frame, lower yarn withdrawal device, device of splicer and negative pressure conveying device;

Described yarn storage roller, comprises cylinder roller roller, mandrel and twizzle that two ends are enlarging; The upper end of mandrel is connected with motor shaft, and lower end is connected with the hook seat of twizzle, the top of the bill of twizzle in roller roller; Motor can drive roller roller and twizzle to rotate, and twizzle hooks to be got new yarn and can be wound on roller roller;

Described lower yarn withdrawal device is arranged on the top of frame, comprise pull bar, large suction nozzle, under draw yarn negative pressure joint and a hollow straight tube under draw yarn yarn-guide tube; Under draw yarn yarn-guide tube front end large suction nozzle be set, the length adaptation of the width of large suction nozzle and yarn volume; Under draw on the pipe shaft of yarn yarn-guide tube and be provided with down and draw yarn negative pressure joint, under draw yarn negative pressure joint and be connected with negative pressure conveying device; Under draw yarn yarn-guide tube rear end by rotating shaft, be connected with the installing plate of frame both sides; One end of pull bar is hinged with push rod, this push rod is fixedly connected with large suction nozzle rotating shaft, the other end of pull bar with under draw yarn drive unit and be connected, under draw yarn drive unit and can drive large suction nozzle to overturn between upper rack and bottom, large suction nozzle can turn to yarn volume position downwards;

Described upper yarn withdrawal device is arranged on the bottom of frame, comprise draw yarn stepper motor, little suction nozzle, on draw yarn negative pressure joint and a syphon shape on draw yarn yarn-guide tube; On draw yarn stepper motor and on draw on the installing plate that yarn yarn-guide tube is arranged on frame; On draw yarn yarn-guide tube rear end by travelling gear with on draw yarn stepper motor and be connected; Little suction nozzle is arranged on the front end that draws yarn yarn-guide tube; On draw yarn negative pressure joint and be arranged near the yarn-guide tube place little suction nozzle, above draw yarn negative pressure joint and be connected with negative pressure conveying device; On draw yarn stepper motor and can drive little suction nozzle to overturn between the bottom of frame and top, little suction nozzle can upwards turn to yarn outlet position;

Described device of splicer is arranged in the frame between lower yarn withdrawal device and upper yarn withdrawal device, comprises driving gear set, splicer and thread-carrier; Wherein, mouthful opening direction of splicing of splicer is corresponding with yarn; One end of thread-carrier is hinged on the side that splicer is spliced mouthful, and the other end can be done open and close movement around hinged end, the distance that its radius of clean-up is greater than yarn and splices between mouth; Thread-carrier can be spliced yarn feeding in mouth; The drive unit of splicing is connected with splicer by driving gear set.

2. spinning machine automatic piecing arrangement as claimed in claim 1, is characterized in that: in the frame near yarn volume, be also provided with unwinding device, this unwinding device comprises unwinding stepper motor, unwinding roller roller, transmission component and connecting rod; Wherein, unwinding stepper motor drives the rotation of unwinding roller roller by transmission component, the motion that connecting rod drives unwinding roller roller to do near and roll up away from yarn by transmission component.

3. spinning machine automatic piecing arrangement as claimed in claim 2, is characterized in that: under described, draw yarn drive unit, splice drive unit and unwinding drive unit merge into a cam link drive unit; This cam link drive unit comprises actuated by cams servomotor, the camshaft being parallel to each other and link supports axle, large suction nozzle cam, large suction nozzle connecting rod, the travelling gear of splicing, unwinding cam, unwinding connecting rod and back-moving spring; Actuated by cams servomotor drives camshaft to rotate, and the two ends of link supporting axle are fixed in frame; Large suction nozzle cam, the unwinding cam travelling gear of splicing is coaxially fixed on camshaft; Large suction nozzle connecting rod, the set position of unwinding connecting rod are corresponding with large suction nozzle cam, unwinding cam respectively; One end of two connecting rods all coordinates with link supporting shaft clearance; The middle part of two connecting rods is respectively equipped with a roller, and roller can roll on the working face of corresponding cam; On two connecting rods, be connected with respectively back-moving spring, the other end of back-moving spring is connected with frame, for guaranteeing that the self-corresponding cam working face of roller and each contacts all the time; Wherein, large suction nozzle connecting rod is connected with the pull bar in lower yarn withdrawal device, and unwinding connecting rod is connected with the connecting rod in unwinding device, and the travelling gear of splicing is connected with the driving gear set in device of splicer.

4. spinning machine automatic piecing arrangement as claimed in claim 1, is characterized in that: below described device of splicer, be provided with an electronic yarn clearer.

5. the spinning machine automatic piecing arrangement as described in any one in claim 1-4, is characterized in that: in frame, be also provided with walking positioning device, this walking positioning device comprises walking upper rail, walking lower guideway, travel driving unit and positioner; Wherein, walking upper rail and walking lower guideway are along spinning captain to setting, and frame is arranged between upper and lower two guide rails;

Travel driving unit comprises that walking drives servomotor, wheel base member, driving wheel, driven pulley and directive wheel; Wheel base member is fixedly connected with frame top and/or bottom; Wheel base member is provided with can be at driving wheel and the driven pulley of guide rail surface walking, and driving wheel drives servomotor to be connected with walking; On wheel base member, be also provided with directive wheel, the axis of this directive wheel is vertical with driven pulley with driving wheel, with the contacts side surfaces of guide rail;

Positioner comprises location-plate, positioning cylinder, positioning rotating shaft and the alignment pin that is disposed on guide rail side; The position of this alignment pin is corresponding with each ingot position on spinning machine, leaves the locating hole mating with alignment pin on location-plate; Positioning rotating shaft is along wheel base member length to fixing; Location-plate is socketed on this positioning rotating shaft, and the plate face that is provided with locating hole is relative with the side that guide rail is provided with alignment pin; Positioning cylinder is connected with positioning rotating shaft by driver plate; The flexible of positioning cylinder can drive location-plate and walking lower guideway laminating or separated by positioning rotating shaft.

6. spinning machine automatic piecing arrangement as claimed in claim 5, is characterized in that: described head end and/or tail end of taking turns base member is provided with cleaning member; The cleaning end of this cleaning member contacts with guide rail surface.

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