CN110395613A

CN110395613A - A kind of double-station multiple thread strands winder

Info

Publication number: CN110395613A
Application number: CN201910670659.0A
Authority: CN
Inventors: 戴德明; 陈鹏
Original assignee: CHANGZHOU HUASHENG PLASTIC MACHINERY Co Ltd
Current assignee: CHANGZHOU HUASHENG PLASTIC MACHINERY Co Ltd
Priority date: 2019-07-24
Filing date: 2019-07-24
Publication date: 2019-11-01
Anticipated expiration: 2039-07-24
Also published as: CN110395613B

Abstract

The present invention relates to a kind of winder, specifically a kind of double-station multiple thread strands winder, including rack, shaft, turntable, the first winding station, the second winding station；The shaft passes through the rack, and is fixedly connected at one end of the shaft and the turntable medial center；The first winding station, the second winding station are provided on the outside of the turntable, the first winding station is consistent with the second winding station structure, and both ends are arranged on the outside of the turntable in rotational symmetry；Change of lap is realized by the way that two stations are arranged, the function of being not only able to achieve the winding of sub-thread silk but also be able to achieve in multiple sub-thread silk warpings to I-shaped disk greatly improves working efficiency.

Description

A kind of double-station multiple thread strands winder

Technical field

The present invention relates to a kind of winder, specifically a kind of double-station multiple thread strands winder.

Background technique

Winder is a kind of by rotating I-shaped disk, multiple thread strands or wire rod is wound around the mechanism on I-shaped disk, routine Winder be usually used multiple I-shaped disks difference winding sub-thread silk, then arranged by the sub-thread silk on multiple I-shaped disks to same On I-shaped disk, thus in conventional wrap-up, generally require to use multiple I-shaped disks, occupied area is larger；In addition, normal In the winder of rule, after I-shaped disk completes winding work, need to shut down, by I-shaped disk detachment winder, then will be to be wound I-shaped disk is mounted on winder, and the end of a thread of multiply wire rod is relocated and carries out warping work, and such reciprocating operation is often imitated Rate is not high, and wastes time；How by directly arranging multiply wire rod onto I-shaped disk, to reduce occupied area and mention High winder change of lap efficiency, reducing warping process becomes our company's urgent problem.

Summary of the invention

The technical problem to be solved by the present invention is how by directly arranging multiply wire rod onto I-shaped disk, to subtract Few occupied area and raising winder change of lap efficiency simultaneously reduce warping process.

To achieve the above object, the invention provides the following technical scheme:

The present invention is a kind of double-station multiple thread strands winder, including rack, shaft, turntable, the first winding station, the second receipts Roll up station；

Shaft passes through rack, and is fixedly connected at one end of shaft and turntable medial center；

The effect of shaft is that turntable is driven to be rotated.

The first winding station, the second winding station, the first winding station and the second winding station are provided on the outside of turntable Structure is consistent, and both ends are arranged on the outside of turntable in rotational symmetry；

First winding station and the second winding station are used to wind, and the rotation for being followed by turntable occurs between two stations Switching.

First winding station includes the first winding shaft, the I-shaped disk for wrapping wire, limited block, the first driving motor, the One Wire guide roller, the second Wire guide roller；

First winding shaft passes through turntable, and one end of the first winding shaft is driven between turntable and rack, and with first Dynamic motor output end connection, the first driving motor are fixed on turntable inner sidewall；

First winding shaft is controlled by the first driving motor, and rotation occurs.

It is arranged with I-shaped disk and limited block on the other end of first winding shaft, limited block is located on the outside of I-shaped disk, and blocks It is located at I-shaped disk end, limited block is suitable for that I-shaped disk and the first winding shaft is driven to rotate synchronously, and limited block and the first winding turn Axis is detachably connected；

The rotation of first winding shaft is to drive the rotation of limited block, since limited block is fastened on the end that the first winding turns Portion, therefore limited block drives the rotation of I-shaped disk to be used for winding wire rod；Limited block is detachable, when on I-shaped disk around full wire rod it Afterwards, limited block is separated with the first winding shaft, and I-shaped disk is taken out along the first winding shaft axis direction.

First Wire guide roller and the second Wire guide roller are arranged on turntable, and axis direction is consistent with shaft axis direction, when turn Disk rotation, when the first winding station being driven to turn to right above the second winding station, the first Wire guide roller is located at the upper right of I-shaped disk Side, the second Wire guide roller are located at the lower left of I-shaped disk；It is equipped on first Wire guide roller and the second Wire guide roller for gathering wire rod Bidirectional helical；

First Wire guide roller and the second Wire guide roller are arranged relative to the first winding station in diagonal line, equally wind work second Position is also equipped with the first Wire guide roller and the second Wire guide roller, and at the end of the first winding station winding, driven by rotary disc first winds work Position turns to the underface of the second winding station, at this time due to the presence of Wire guide roller, by wire rod by the with the first winding station The second Wire guide roller contact of one Wire guide roller and the second winding station, one end of wire rod and I-shaped disk is separated, convenient for subsequent to line The cutting of material and the end of a thread after cutting is fixed on the I-shaped disk of the second winding station again；When wire rod is mobile in Wire guide roller When, due to the presence of bidirectional helical, multiply wire rod, which will do it, to be gathered, and is fixed convenient for subsequent collet.

The collet for the wire rod after fixed gather is provided with below first Wire guide roller, collet tail portion is provided with flexible Bar, telescopic rod are passed through and are connect with cylinder, and telescopic rod drives collet to do translational motion relative to rack；

Collet is for gathering multiply wire rod, and when multiply wire rod is located on two Wire guide rollers, telescopic rod drives collet to be translated To multi cord material, collet clamps wire rod, after preventing cutting wire rod, wire rod arrangement at random.

Horizontal vertical is in being provided with pan feeding Wire guide roller on I-shaped disk axis direction；

Vertically perpendicular to the liftable pinch roller being provided on I-shaped disk axis direction for being depressed into wire rod on I-shaped disk, pressure Wheel is connect by the first elevating lever with rack；

It is parallel to pinch roller and the side of the first Wire guide roller is provided with cutting mechanism, when wire rod is depressed into I-shaped by pinch roller Disk, cutting mechanism is for cutting off the wire rod being wound around on I-shaped disk and the first Wire guide roller；Cutting mechanism includes hot knife and band Second elevating lever of dynamic hot knife lifting, the other end of the second elevating lever are connect with rack；

After cutting mechanism cuts off wire rod, downlink is controlled by the first elevating lever by pinch roller, new one section the end of a thread is depressed into It is coated on the I-shaped disk of adhesive, carries out the winding work of the second winding station.

Since multiply wire rod is in wrapup procedure, by pan feeding Wire guide roller, sub-thread wire rod will do it stacking and be wound around I-shaped On disk, it is easy the case where multiple thread strands in winding, on I-shaped disk will appear hollow out, to solve the above-mentioned problems, this hair in this way It is bright fixed on the first plane by supporting element by pan feeding Wire guide roller, it is provided with the second plane below the first plane, first is flat Sliding rail on the sliding block and the second plane of the setting of face lower end surface is cooperatively connected, and realizes that the sliding of the first plane and the second plane connects It connects；Second plane lower end surface is provided with servo motor, and the output end of servo motor passes through the second plane, is connected in the first plane One end of balance staff, the technical solution of the output end eccentric setting of the other end and servo motor of balance staff；

Second plane is mutually fixed to remain stationary with rack, and the first plane carries out traversing shifting, band relative to the second plane Dynamic pan feeding Wire guide roller progress is traversing, so that it is traversing to drive wire rod to carry out relative to I-shaped disk, to prevent the stacking of sub-thread wire rod.

How to realize that the first plane is opposite traversing with the progress of the second plane, the present invention, which is used, is fixed on second for servo motor In plane, the output end of servo motor is connected with balance staff bias, and the other end of balance staff and the connection of the first plane, when servo electricity Machine rotation, due to bias connection setting, it is traversing that balance staff will pull or push the first plane to carry out.

How the automatic start-stop of turntable is realized, the present invention is provided with induction rod, machine using setting rotational symmetry on the inside of turntable Induction point is provided on shell；When turntable rotates, by induction rod and induction point contact, turntable stops operating, the first winding station, the Two winding stations are in technical solution arranged up and down；

When turntable rotates, while induction rod being driven to be rotated, it is electric when induction rod connects induction with the induction point on casing Machine stops operating, and the first winding station and the second winding station are presented lower placement, wound and unloaded volume operation respectively.

Since turntable is in conversion station, I-shaped disk has stopping in short-term, and the end of a thread after cutting is pressed into I-shaped In disk, pan feeding Wire guide roller will not stop pan feeding at this time, how wire rod be allowed to remain tight state, when preventing winding, multi cord Material interlocks, when the present invention is located at right above the second winding station using the first winding station, in pan feeding Wire guide roller and second Lifting thread depressing mechanism is provided between Wire guide roller, lifting thread depressing mechanism includes the third elevating lever connecting with rack, third lifting Bar bottom is provided with the compression bar for compressing wire rod；

Compression bar is controlled by third elevating lever, is moved up and down, and when pinch roller downlink, compression bar while downlink will continue pan feeding Wire rod tightened.

Beneficial effects of the present invention: the present invention is a kind of double-station multiple thread strands winder, is realized by two stations of setting Change of lap, can effectively save the change of lap time, improve work efficiency, and wire rod can be directly wound around on I-shaped disk, no It needs to wind to sub-thread silk, then multiple sub-thread silks is wound to the cumbersome process of the warping on I-shaped disk.

Detailed description of the invention

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is structural schematic diagram of the invention；

Fig. 2 is pivot structure schematic diagram of the invention:

Fig. 3 is the first winding station of the invention, the second winding station structure schematic diagram；

Fig. 4 is chuck structure schematic diagram of the invention；

Fig. 5 is pan feeding Wire guide roller structural schematic diagram of the invention；

Fig. 6 is cutting mechanism structural schematic diagram of the invention；

In figure: 1- rack, 11- induction point, 12- induction rod, 2- shaft, 3- turntable, 4- first wind station, 41- first Wind shaft, 42- I-shaped disk, 43- limited block, the first driving motor of 44-, the first Wire guide roller of 45-, the second Wire guide roller of 46-, 47- Bidirectional helical, the winding of 5- second station, 6- collet, 61- telescopic rod, 7- pan feeding Wire guide roller, the first plane of 71-, 72- second are flat Face, 73- servo motor, 74- balance staff, 8- pinch roller, the first elevating lever of 81-, 9- cutting mechanism, 91- hot knife, 92- second are gone up and down Bar, 10- go up and down thread depressing mechanism, 101- third elevating lever, 102- compression bar.

Specific embodiment

In conjunction with the accompanying drawings, the present invention is further explained in detail.These attached drawings are simplified schematic diagram, only with Illustration illustrates basic structure of the invention, therefore it only shows the composition relevant to the invention.

Picture 1-4, shown in 6, the present invention is a kind of double-station multiple thread strands winder, including rack 1, shaft 2, turntable 3, One winding station 4, second winds station 5；

Shaft 2 passes through rack 1, and is fixedly connected at one end of shaft 2 and 3 medial center of turntable；

The effect of shaft is that turntable is driven to be rotated.

The first winding station 4, second winding station 5, the first winding station 4 and the second winding are provided on 3 outside of turntable 5 structure of station is consistent, and rotational symmetry is arranged at 3 outside both ends of turntable；

First winding station 4 includes the first winding shaft 41, the I-shaped disk 42 for wrapping wire, the driving of limited block 43, first Motor 44, the first Wire guide roller 45, the second Wire guide roller 46；

First winding shaft 41 passes through turntable 3, and first winds one end of shaft 41 between turntable 3 and rack 1, and with The connection of first driving motor, 44 output end, the first driving motor 44 are fixed on 3 inner sidewall of turntable；

It is arranged with I-shaped disk 42 and limited block 43 on the other end of first winding shaft 41, limited block 43 is located at I-shaped disk 42 Outside, and it is fastened on 42 end of I-shaped disk, limited block 43 is suitable for that I-shaped disk 42 and the first winding shaft 41 is driven to rotate synchronously, limit Position block 43 is detachably connected with the first winding shaft 41；

First Wire guide roller 45 and the second Wire guide roller 46 are arranged on turntable, and axis direction is consistent with 2 axis direction of shaft, When turntable 3 rotates, and the first winding station 4 is driven to turn to the second winding 5 surface of station, the first Wire guide roller 45 is located at I-shaped The upper right side of disk 42, the second Wire guide roller 46 are located at the lower left of I-shaped disk 42；On first Wire guide roller 45 and the second Wire guide roller 46 Equipped with the bidirectional helical 47 for gathering wire rod；

The lower section of first Wire guide roller 45 is provided with the collet 6 for the wire rod after fixed gather, and 6 tail portion of collet, which is provided with, stretches Contracting bar 61, telescopic rod 61 pass through rack 1 and connect with cylinder, and telescopic rod 61 drives collet 6 to do translational motion relative to rack 1；

Horizontal vertical is in being provided with pan feeding Wire guide roller 7 on 42 axis direction of I-shaped disk；

It is liftable on I-shaped disk 42 for wire rod to be depressed into perpendicular to being provided on 42 axis direction of I-shaped disk vertically Pinch roller 8, pinch roller 8 are connect by the first elevating lever 81 with rack；

It is parallel to pinch roller 8 and the side of the first Wire guide roller is provided with cutting mechanism 9, when wire rod is depressed into work by pinch roller 8 Letter disk 42, cutting mechanism 9 is for cutting off the wire rod being wound around on I-shaped disk 42 and the first Wire guide roller 45；Cutting mechanism 9 includes heat Cutter 91, and the second elevating lever 92 for driving hot knife 91 to go up and down, the other end of the second elevating lever 92 are connect with rack 1；Heat Cutter cuts off wire rod in such a way that hot melt is disconnected；

Pan feeding Wire guide roller plays winding displacement, and the end of a thread of multiply wire rod is sequentially arranged on pan feeding Wire guide roller；

As shown in figure 5, by pan feeding Wire guide roller, sub-thread wire rod will do it stacking since multiply wire rod is in wrapup procedure It is wound around on I-shaped disk, is easy the case where multiple thread strands in winding, on I-shaped disk will appear hollow out in this way, it is above-mentioned in order to solve Problem, the present invention by supporting element fixation on the first plane 71, are provided with the by pan feeding Wire guide roller 7 below the first plane 71 Two planes 72, the sliding rail on sliding block and the second plane 72 that 71 lower end surface of the first plane is arranged are cooperatively connected, and realize the first plane 71 are slidably connected with second plane 72；Second plane lower end surface is provided with servo motor 73, and the output end of servo motor 73 is worn The second plane 71 is crossed, one end of balance staff 74, the output of the other end and servo motor 73 of balance staff 74 are connected in the first plane 71 Hold the technical solution of eccentric setting；Servo motor motor is also alternatively at torque motor.

As shown in figure 4, how to realize the start and stop of turntable, the present invention is using setting rotational symmetry setting thoughts on the inside of turntable 3 Bar 11 is answered, induction point 12 is provided on casing 1；When the rotation of turntable 3, induction rod 11 is contacted with induction point 12, turntable 3 stops turning Dynamic, it is in technical solution arranged up and down that the first winding station 4, second, which winds station 5,；

When turntable rotates, while induction rod being driven to be rotated, it is electric when induction rod connects induction with the induction point on casing Machine stops operating, and the first winding station and the second winding station are presented lower placement, wound and unloaded volume operation respectively, this The setting of sample can be realized the automation conversion of double-station.

As shown in fig. 6, since turntable is in conversion station, I-shaped disk has stopping in short-term, by the end of a thread after cutting Into I-shaped disk, pan feeding Wire guide roller will not stop pan feeding at this time, how wire rod be allowed to remain tight state, prevent from winding for indentation When, multiply wire rod interlocks, and when the present invention is located at the second winding 5 surface of station using the first winding station 4, leads in pan feeding Lifting thread depressing mechanism 10 is provided between line roller 7 and the second Wire guide roller 46, lifting thread depressing mechanism 10 includes the connect with rack Three elevating levers 101,101 bottom of third elevating lever are provided with the compression bar 102 for compressing wire rod；

In addition, conventional warping process is that the yarn of monofilament is arranged resultant yarn packet by winder, multiple yarn packets carry out whole Be wound around in same I-beam wheel, and the present invention can between by the end of a thread of multiple monofilament into cross pan feeding Wire guide roller, warping to work On letter disk, and eliminate monofilament around the process for being set as corresponding yarn packet, greatly high warping efficiency, reduce monofilament finally around The time being located on I-shaped disk；When needing woven fabric, the I-beam wheel of arrangement and cloth equivalent width pulls out the end of a thread in I-beam wheel It is woven as weft.

The present invention is a kind of double-station multiple thread strands winder, realizes change of lap by the way that two stations are arranged, can be effective The change of lap time is saved, is improved work efficiency, and wire rod can be directly wound around on I-shaped disk, does not need to carry out to sub-thread silk Winding, then multiple sub-thread silk warpings are wound to I-shaped disk.

Taking the above-mentioned ideal embodiment according to the present invention as inspiration, through the above description, relevant staff is complete Various changes and amendments can be carried out without departing from the scope of the technological thought of the present invention' entirely.The technology of this invention Property range is not limited to the contents of the specification, it is necessary to which the technical scope thereof is determined according to the scope of the claim.

Claims

1. a kind of double-station multiple thread strands winder, it is characterised in that: including rack, shaft, turntable, the first winding station, second Wind station；

The shaft passes through the rack, and is fixedly connected at one end of the shaft and the turntable medial center；

Be provided with the first winding station, the second winding station on the outside of the turntable, the first winding station and The second winding station structure is consistent, and both ends are arranged on the outside of the turntable in rotational symmetry；

The first winding station includes the first winding shaft, the I-shaped disk for wrapping wire, limited block, the first driving motor, the One Wire guide roller, the second Wire guide roller；

The first winding shaft passes through the turntable, and one end of the first winding shaft is located at the turntable and the rack Between, and connect with the first driving motor output end, first driving motor is fixed on the turntable inner sidewall；

It is arranged with the I-shaped disk and the limited block on the other end of the first winding shaft, the limited block is located at described On the outside of I-shaped disk, and it is fastened on I-shaped disk end, the limited block is suitable for driving the I-shaped disk and first winding Shaft rotates synchronously, and the limited block is detachably connected with the first winding shaft；

First Wire guide roller and second Wire guide roller are arranged on the turntable, and axis direction and the shaft axis side It is described when the turntable rotates, and the first winding station is driven to turn to right above the second winding station to consistent First Wire guide roller is located at the upper right side of the I-shaped disk, and second Wire guide roller is located at the lower left of the I-shaped disk；Described The bidirectional helical for gathering wire rod is equipped on one Wire guide roller and second Wire guide roller；

The collet for the wire rod after fixed gather is provided with below first Wire guide roller, the collet tail portion, which is provided with, stretches Contracting bar, the telescopic rod pass through the rack and connect with cylinder, and the telescopic rod drives the collet to do relative to the rack Translational motion；

It is liftable on the I-shaped disk for wire rod to be depressed into perpendicular to being provided on I-shaped disk axis direction vertically Pinch roller, the pinch roller are connect by the first elevating lever with the rack；

It is parallel to the pinch roller and the side of the first Wire guide roller is provided with cutting mechanism, when wire rod will be depressed by the pinch roller The I-shaped disk, the cutting mechanism are used to cut off the wire rod being wound around on the I-shaped disk and first Wire guide roller；It is described Cutting mechanism includes hot knife, and drives the second elevating lever of the hot knife lifting, the other end of second elevating lever It is connect with the rack.

2. a kind of double-station multiple thread strands winder according to claim 1, it is characterised in that: the pan feeding Wire guide roller passes through Supporting element is fixed in first plane, is provided with the second plane, first plane lower end surface below first plane Sliding rail on the sliding block of setting and second plane is cooperatively connected, and realizes that the sliding of first plane and the second plane connects It connects；

Second plane lower end surface is provided with servo motor, and the output end of the servo motor passes through second plane, institute State one end that balance staff is connected in the first plane, the output end eccentric setting of the other end of the balance staff and the servo motor.

3. a kind of double-station multiple thread strands winder according to claim 1, it is characterised in that: setting rotation on the inside of the turntable Turn to be symmetrically arranged with induction rod, is provided with induction point on the casing；When the turntable rotates, by the end position of the induction rod In the front of the induction point, the turntable stops operating, and the first winding station, the second winding station are in upper and lower cloth It sets.

4. a kind of double-station multiple thread strands winder according to claim 1, it is characterised in that: when the first winding station When right above the second winding station, buck is provided between the pan feeding Wire guide roller and second Wire guide roller Line mechanism, the lifting thread depressing mechanism include the third elevating lever connecting with the rack, the setting of third elevating lever bottom There is the compression bar for compressing wire rod.