CN208022503U - A kind of winding device - Google Patents

Abstract

The utility model discloses a kind of winding devices, it include the friction roller driven by driving source, moveable reel cage with a pair of opposite clamping part, relative to yarn direction of advance, the reciprocal guide device in the friction roller upstream side is set, positioned at staying tail yarn element near a clamping part in the pair of clamping part, and the controller of the control driving source, wherein, the reciprocal guide device and it is described stay tail yarn element cooperation to start the winding of yarn, wherein, sensing element is arranged on tail yarn element in described stay, the sensing element is electrically connected with the controller.Yarn leaves stay tail yarn element after immediately begin to yarn winding, be based on this, at the beginning of the controller accurately can know yarn winding, and then each spinning cake has carried out the winding of equal time.

Description

A kind of winding device

Technical field

The utility model is related to a kind of winding devices for textile machine.

Background technology

In such as false twist texturing machine etc. needs the textile machine for carrying out final winding shaping to yarn, need to utilize winding Device by one either two continuous yarns be wound into cone cylinder shape or cylindrical shape.The yarn assembly of this form is referred to as " bobbin ".Before the winding of " bobbin " starts, need to reserve tail yarn on rolling tube.This tail yarn is reserved in a winding manner In the one end of rolling tube, and except the reciprocal traversing traverse of yarn.The reserved of the tail yarn stays tail by known Yarn element is realized.

When " bobbin " is applied to the later process such as warp knit, length of yarn needs phase as far as possible in each bobbin Together.In order to obtain controllable " bobbin " length of yarn, the control system of textile machine needs to obtain a winding commencing signal, and And start to calculate winding time according to the signal.It is realized in the textile machine for staying tail yarn by staying tail yarn element, at present There are no one reliably, be exactly available winding commencing signal system.

Utility model content

On the basis of fully taking into account the aforementioned prior art, in order to solve drawbacks described above, the utility model provides a kind of It can accurately, reliably obtain the winding device of the cone yarn of predetermined length.Technical solution is specific as follows：

A kind of winding device includes the friction roller driven by driving source, has the moveable of a pair of opposite clamping part The reciprocal guide device in the friction roller upstream side is arranged relative to yarn direction of advance in reel cage, is located at the pair of clamping Tail yarn element, and the controller of the control driving source are stayed near a clamping part, wherein the reciprocal guiding dress in portion It sets and stays the cooperation of tail yarn element to start the winding of yarn with described, sensing element, the induction is arranged in described stay on tail yarn element Element is electrically connected with the controller.

Therefore, the sensing element stays tail yarn to be detected on yarn whether processing is in real time, and by the result of detection Electric signal transmission is converted into the controller.Once staying tail knot beam, sensing element transmits this information to the control immediately Device processed.

The sensing element, which is configured, to be changed and base with incuding yarn in the state stayed in tail yarn element from having nothing Change in the state and generates signal.

After the completion of staying tail yarn, yarn be carried over it is described stay tail yarn element and be brought into reciprocating motion, bobbin is in the past of yarn It moves and is overlapped mutually down again and gradually form.Since tail yarn is moving back and forth except region, the meter of the length of yarn of bobbin The starting point that a little should be and move back and forth region is counted, to stay the yarn that the length of yarn of tail yarn process should not be counted into bobbin long Degree.Based on above-mentioned principle, when sensing element detect pass through originally stay the yarn of tail yarn element to be brought into reciprocating motion when, induction The change of this state is converted to a signal by element.

The controller includes the timing module being electrically connected with the sensing element so as to change the letter generated based on state Number can triggering timing module start timing, wherein the timing module can set the duration of a work period of driving source.

When the sense element senses are to the yarn stayed in tail yarn element from " having " to "None", the sensing element It triggers the timing module and starts timing, to define the starting point that winding starts.From the off after one section of duration of timing, so that it may Obtain scheduled length of yarn.By this control mode, " bobbin " of all positions will obtain identical length of yarn.

The winding device further comprises the instruction modulation element that the timing module with the controller is electrically connected, the finger Show that modulation element is made of several light emitting diodes.

At the end of winding duration, indicate that the lumination of light emitting diode of modulation element, instruction operating personnel " bobbin " have reached Scheduled length of yarn.

The reciprocal guide device of different configuration is all applicable, and as one of embodiment, the reciprocal guide device is The construction of groove drum box-type.

It is described that tail yarn element is stayed to be arranged in a projecting manner on the groove drum babinet based on the box construction of groove drum, In, the fiber guiding element of the reciprocal guide device is located at the friction roller and described stays between tail yarn element.

In order to which the existence to yarn is sensitively incuded, the sensing element may be structured to capacitive induction knot Structure also is configured to photo-electric induction structure.

It is described stay tail yarn element have two plates, two plates surround for yarn by by space, it is described Two sheet body portions overlap and intersection separates at a certain distance in coincidence direction.

This structure stay tail yarn element can be easy to be threaded into or export in certifiable yarn described in stay the same of tail yarn element When, it also ensures that during staying tail yarn that yarn will not drop out and described stays tail yarn element.

Description of the drawings

Fig. 1 is schematically shown stay tail yarn during the utility model winding device vertical view；

Fig. 2 is schematically shown stay tail yarn after, yarn normal winding when the utility model winding device vertical view Figure；

Fig. 3 is schematically shown, and when sensing element is capacitive induction structure, yarn, which passes through, stays tail yarn element to be stayed The fundamental diagram of the sensing element of winding device when tail yarn；

Fig. 4 is schematically shown, and when sensing element is capacitive induction structure, yarn stays the winding after tail yarn The fundamental diagram of the sensing element of device；

Fig. 5 is schematically shown, when the reciprocal guide device is the box construction of groove drum, the winding of the utility model The side view of device；

Fig. 6 is schematically shown, and when sensing element is photo-electric induction structure, yarn, which passes through, stays tail yarn element to be stayed The fundamental diagram of the sensing element of winding device when tail yarn.

Specific implementation mode

Fig. 1 schematically shows the vertical view of the utility model winding device claimed when staying tail yarn, Fig. 2 signals The vertical view of the utility model winding device claimed when yarn normal winding is shown to property.The winding device has The reel cage 1 that can be rotated around rotary shaft 1.1.The rotary shaft 1.1 is arranged in one end of the reel cage 1, the other end of the reel cage 1 It is open, there is a pair of opposed circular clamping part 3.The clamping part 3 can be rotated freely around itself center of circle.Rolling tube 2 are clamped between the pair of opposed clamping part 3.At least one clamping part 3 is arranged to can be along the rolling tube 2 Axis direction movement so that the rolling tube 2 can be mounted between the clamping part 3 or by from the clamping part 3 It removes.The winding device also has friction roller 4.The friction roller 4 directly by driving source 6 drive rotate, the friction roller 4 with The rolling tube 2 is arranged in parallel.In the case where winding working condition, the periphery of the rolling tube 2 abuts against the circle of the friction roller 4 On circumferential surface, under the action of mutual frictional force, the rotation of the friction roller 4 drives the rolling tube 2 to rotate.The yarn of advance Line 10 is walked between the rolling tube 2 and the friction roller 4 to be winding on rolling tube 2.Direction of advance with yarn 10 is Reference, reciprocal guide device 17 is arranged in the upstream side of the friction roller 4, described for the yarn 10 to be equably laid on On the periphery of rolling tube 2.

As shown in Fig. 2, the angle of the crossing with certain angle between the yarn 10 being laid on the rolling tube 2.Fig. 1 and The reciprocal guide device 17 in embodiment illustrated in fig. 2 is particularly configured to, and has three synchronous pulleys being triangularly arranged 7, the synchronous belt 8 that three synchronous pulleys are tensioned by one connects, and fiber guiding element 9 is mounted on parallel with the friction roller synchronous On 8 part of band.One of synchronous pulley 7 directly motor 11 driven driving, and the driving motor 11 be can be positive and negative To the motor of alternate-running.Under the operating condition of 11 alternating direction of the driving motor, the synchronous belt 8 can alternating direction it is straight Line moves.Therefore, it is mounted on the back and forth movement within the scope of the traverse of setting of the fiber guiding element 9 on the synchronous belt 8, by yarn 10 are laid on certain angle of the crossing on the rolling tube 2.Above-mentioned traverse determines the length of final molding bobbin 2.1.

Using the direction of advance of the yarn 10 as reference, as depicted in figs. 1 and 2, the setting of tail yarn element 12 is stayed to be led described The upstream side of silk element 9, and is located in one of near 3 corresponding position of the clamping part, in figure for right side clamping part 3 pair Near the position answered.It is explained below the reason of being so arranged.

The yarn 10 moves back and forth in the traverse of the fiber guiding element 9 and is overlapped mutually to form so-called " bobbin 2.1".Continuous continual unwinding yarn is formed when several bobbins are unwound for convenience, several full reel need phase It connects.Based on this, each completely reel needs to reserve the tail yarn of certain length, so between the tail loose thread of latter two full reel It can connect to form continuous unwinding yarn by a connector.Therefore, tail yarn is preferably formed in except the traverse range, On the rolling tube 2 between the namely described bobbin 2.1 and the clamping part 3.It is so-called in order to be obtained before winding starts " tail yarn ", operator need after yarn 10 is stayed tail yarn element 12 described in using suction gun, and yarn 10 is hung over the clamping In portion 3, such yarn 10 can be wound onto on the rolling tube 2.Position due to staying tail yarn element is fixed, one Yarn, which can be concentrated, in the section time is wound onto between the bobbin 2.1 and the clamping part 3 in region, forms the tail yarn in diagram 5.After the tail yarn 5 of certain length is reserved, operating personnel can be by tapping unshowned mechanical type lever device Mode or with hand, makes yarn be pressed downwards, such yarn 10 is located on the face contour with 9 traversing face of the fiber guiding element. Therefore yarn 10 can be captured by the fiber guiding element 9, reciprocating transverse movement is carried out together with the fiber guiding element 9.At this moment, bobbin 2.1 winding formally starts.After being captured by the fiber guiding element 9 Fig. 2 shows yarn, yarn 10 is wound as certain thickness Bobbin 2.1.

The method above-mentioned for obtaining the tail yarn is known technological means.The present utility model application on this basis, into A sensing element 13 is arranged in one step.As depicted in figs. 1 and 2, the sensing element 13 is mounted on described stay on tail yarn element 12.Institute Sensing element 13 is stated to be electrically connected with a controller 20.The controller 20 is electrically connected with the driving source 6 of the friction roller 4, with control The working condition of the driving source 6 is made, such as starts or shuts down, set running speed.When yarn 10 passes through described stay When tail yarn element 12, the sensing element 13 is located at the position that can sense the yarn 10.Further shown in Fig. 1 and Fig. 2, There is the controller 20 timing module 14, the timing module 14 to be electrically connected with instruction modulation element 15.The instruction modulation element 15 are made of several light emitting diodes 16, the light emitting diode 16 by different colours diode configuration.In general, the instruction Modulation element 15 is mounted on the place that easily operated member discovers.

When the sensing element 13 senses that some particular parameter value changes, the changing value is converted into one Electric signal.The electric signal is transferred to the controller 20 and is identified by the timing module of the controller 20 14.Identify telecommunications Number the timing module 14 start timing, after accumulative timing reaches certain numerical value, the length of yarn of " bobbin " has arrived Scheduled length value.At this point, the timing module 14 sends electric signal to the instruction modulation element 15, the instruction modulation element 15 The light emitting diode 16 it is shinny, to operating personnel indicate " bobbin has completely been rolled up ".

The variation that the sensing element 13 senses is substantially the variation of the existence of yarn, i.e., whether yarn is also in institute It states to stay and be walked in tail yarn element 12.Its principle utilized is that stay tail knot beam be the formal beginning of winding.Yarn is led by described Silk element 9 from it is described stay taken out of in tail yarn element 12 after immediately begin to yarn winding.More precisely, described to stay tail yarn element 12 In yarn since the state change of " having " to "None" be yarn is formally wound.

Fig. 3 shows, yarn passes through when tail yarn element being stayed to carry out staying tail yarn, the work of the sensing element of the winding device Schematic diagram.In this embodiment, the sensing element 13 is configured to capacitive induction structure.The sensing element 13 has shell 21.Tail yarn element 12 is stayed described in being provided in the side of the shell 21.It is described to stay tail yarn element 12 that there is two panels metal or modeling Expect material plates 12.1,12.2, two plates 12.1,12.2 surround for yarn by pass through space.Described Below the left side in space, the marginal portion of two plates 12.1,12.2 overlaps and is overlapping direction with smaller Distance separates, in order to be able to have space that operating personnel is allowed to be linked into yarn and described pass through space.Further as shown in figure 3, institute Stating has triode 22 in shell 21.The emitter E of the triode 22 introduces power supply, the collector C output electricity of triode 22 Pressure, the collector C are connect with acquisition module 17, and the acquisition module 17 is connect with the controller 20.Pass through sky when described It is interior without yarn by when, the collector C export one constant voltage value X to the acquisition module 17, the acquisition Module 17 does not collect the variation of voltage.

Fig. 4 shows that, when sensing element is capacitive induction structure, yarn stays the winding device after tail yarn The fundamental diagram of sensing element.At this point, the yarn to advance by space and is located near sensing element 13 described in.Movement In the self-contained electrostatic charge of yarn generate voltage signal, effect, which is similar to, is closed the switch on the left of triode, then institute The voltage output value for stating collector C becomes zero.

The acquisition module 17 is configured to, and when collecting voltage value from zero and becoming the variation of X, voltage liter is converted into Electric signal transmission gives the timing module 14 of the controller 20.After receiving the electric signal, the timing module 14 starts Timing, and after timing certain time length, activate the instruction modulation element 15.This when the winding that sets of a length of timing module 14 Duration.At the beginning of defining winding by state change of the induction yarn of the sensing element 13 from having nothing, this is undoubtedly It is very accurately.

Unlike Fig. 3, Fig. 6 is shown when sensing element is photo-electric induction structure, and yarn, which passes through, stays tail yarn first The fundamental diagram of part sensing element of winding device when stay tail yarn.It is described that tail yarn element 12 is stayed to have for yarn 10 The space passed through.There are one the receiving terminals of the transmitting terminal 18 and a receivable light that can emit light for the tool of the sensing element 13 19.The receiving terminal 19 is electrically connected with collection module 17.The position relationship of the transmitting terminal 18 and the receiving terminal 19 is to emit The light that end 18 is launched is reflected when reaching the yarn 10, and the light after reflection can be received by the receiving terminal 19.It stays During tail yarn, the acquisition module 17 detects light and does not trigger the transmission of any signal.

After staying tail yarn process, yarn stays tail yarn element 12 to disappear from described.Launch from the transmitting terminal 18 Light can not be reflected to the receiving terminal 19.When the acquisition module 17 can't detect light, convert the variation to Electric signal transmission gives the timing module 14 of the controller 20.The timing module 14 starts timing, and certain in timing After duration, the instruction modulation element 15 is activated.

Fig. 5 is schematically shown when the reciprocal guide device is the box construction of groove drum, the winding of the utility model The side view of device.In this embodiment, the reciprocal guide device is the box construction of groove drum.Due to the box construction of groove drum It is disclosed in detail in prior art CN104860119A, therefore is only briefly described herein.Back and forth drawing in Fig. 5 Leading device, there is groove drum babinet 23, the side of the groove drum babinet 23 to be equipped with the notch being pierced by for fiber guiding element 24.The slot Groove drum shaft 25 is equipped in cylinder babinet 23, upper recess thereof is equipped with the guide groove for guiding shuttle 26.Sliding block 27 is arranged in the shuttle 26 On, the shuttle 26 can drive axial reciprocating priming of the sliding block 27 along the groove drum shaft 25.It is described to stay tail yarn element 12 It is arranged on the groove drum babinet 23 in a manner of the protrusion groove drum babinet 23.Yarn when tail yarn is stayed in the solid line representative bent in figure The position of line 10, the position of yarn 10 when dotted line represents normal winding.The fiber guiding element 24 is located at the friction roller 4 and described It stays between tail yarn element 12.

Embodiment shown in Fig. 1 to Fig. 6 is only exemplary, does not constitute the limitation to this patent.The core of this patent For using sensing device to stay in tail yarn element whether have yarn pass through incude, and will induction result be converted to electric signal biography Controller is transported to, timing is started with the timing module in trigger controller.By the starting point for accurately defining winding so that have " bobbin " length of each winding position winding is identical in the textile machine of 200 winding positions.

Claims (9)

1. a kind of winding device includes the friction roller driven by driving source, there is the moveable of a pair of opposite clamping part to shake The reciprocal guide device in the friction roller upstream side is arranged relative to yarn direction of advance in frame, is located at the pair of clamping part In stay tail yarn element, and the controller of the control driving source near a clamping part, wherein the reciprocal guide device Stay the cooperation of tail yarn element to start the winding of yarn with described, which is characterized in that

Sensing element is arranged in described stay on tail yarn element, the sensing element is electrically connected with the controller.

2. winding device as described in claim 1, which is characterized in that the sensing element is configured to incude yarn described Stay in tail yarn element from have the state to nothing change and be based on the state change generate signal.

3. winding device as claimed in claim 2, which is characterized in that the controller includes to be electrically connected with the sensing element Timing module, the timing module can change the signal generated based on above-mentioned state and be triggered and start timing, wherein should Timing module can set the duration of a work period of driving source.

4. winding device as claimed in claim 3, which is characterized in that the winding device further comprises and the controller Timing module electrical connection instruction modulation element, the instruction modulation element is made of several light emitting diodes.

5. winding device as claimed in claim 2, which is characterized in that the reciprocal guide device is the structure of groove drum box-type It makes.

6. winding device as claimed in claim 5, which is characterized in that described that tail yarn element is stayed to be arranged in a projecting manner in institute State on groove drum babinet, wherein the fiber guiding element of the reciprocal guide device be located at the friction roller and it is described stay tail yarn element it Between.

7. such as winding device according to any one of claims 1 to 6, which is characterized in that the sensing element is configured to electricity Appearance formula induction structure.

8. such as winding device according to any one of claims 1 to 6, which is characterized in that the sensing element is configured to light Electric-type induction structure.

9. such as winding device according to any one of claims 1 to 6, which is characterized in that described to stay tail yarn element that there is two panels Shape body, two plates surround for yarn by by space, the two sheets body portion overlaps and intersection is in weight Direction is closed to separate at a certain distance.