CN107187070A - A kind of yarn dyeing tube outer surface filter layer coating machine - Google Patents

Abstract

The present invention discloses a kind of yarn dyeing tube outer surface filter layer coating machine, including frame, cladding rotating disk, ultrasonic bonding machine, filter layer discharging frame, filter layer feed mechanism and its drive part and control section；The cladding rotating disk is arranged in frame by bearing block, rotating disk is coated in the front side of frame, the rotating disk driving being connected with cladding rotating disk installs carrying axle on the rear portion of frame, cladding rotating disk, rotating disk is vertical is connected with cladding by bearing for carrying axle, carrying axle and carrying axle drive connection；Described filter layer feed mechanism includes being fixed on the horizontal stand in frame, the feed clamp on horizontal stand, the clipper on feed clamp；The highest point bus of the vertically-aligned carrying axle of plumb joint of the ultrasonic bonding machine.It is simple in construction, automatic control, not only efficiency high, and filter layer can be enable neat smooth and be reliably coated on yarn dyeing tube.

Description

A kind of yarn dyeing tube outer surface filter layer coating machine

Technical field

The invention belongs to textile technology field, more particularly to a kind of yarn dyeing tube outer surface filter layer coating machine, for inciting somebody to action Filter layer is coated on the yarn dyeing tube coating machine of yarn dyeing tube outer surface.

Background technology

It is to colour the dyestuff in a dye liquor to weaving fibre through dip-dye mode in the dyeing engineering of general textile industry Tie up on yarn, the weaving for making it become to carry out cloth after required color again.Sharp overflow dyeing machine most common at present carries out dyeing operation, Overflow dyeing machine has multiple yarn dye rods, and every yarn dye rod is arranged with branched yarn dyeing tube, and yarn dyeing tube is mutually contacted with head, the outer wall of yarn dyeing tube There are the multiple spray orifices for forming netted hollow out, fiber yarn is set around yarn dyeing tube and forms fixation on face.When progress dyeing operation When, using the high-pressure pump pressurization dye liquor of overflow dyeing machine, the dye liquor after pressurization can spray from spray orifice, then pass outwards through the spray of yarn dyeing tube Hole, makes the dyestuff of dye liquor be attached on fiber yarn, waits for quietly after a period of time, just can reach the effect of even dyeing.However, by Need to bear longitudinal pressure and radial distorted power during dyeing is participated in yarn dyeing tube, while still suffering from certain temperature Degree, thus cause existing yarn dyeing tube has following drawback after heated denaturalization：1. can not longitudinal contraction, cause after linear deformation Yarn dyeing tube is set to heave influence dyeing；2. radial deformation causes yarn dyeing tube to distort, similar to twisted shape, fiber yarn is caused to be wrapped in On Dyeing pipe；3. after heated, fiber yarn and yarn dyeing pipe outer wall adhesion.

The content of the invention

The problem of existing for background technology, is used to filter layer being coated on yarn dyeing it is an object of the invention to provide one kind The yarn dyeing tube coating machine of tube outer surface, it is to avoid fiber yarn is directly contacted with yarn dyeing tube, while playing prevents dyestuff residue from overflowing Go out the yarn dyeing tube coating machine of yarn dyeing tube.

To reach above-mentioned purpose, the yarn dyeing tube coating machine that the present invention is designed, including frame, cladding rotating disk, ultrasonic bonding machine, Filter layer discharging frame, filter layer feed mechanism and its drive part and control section, it is characterised in that：The cladding rotating disk passes through Bearing block is arranged in frame, and cladding rotating disk is driven at the rear portion of frame in the front side of frame, the rotating disk being connected with cladding rotating disk, Carrying axle is installed on cladding rotating disk, rotating disk is vertical is connected by bearing and cladding for carrying axle, carrying axle and carrying axle drive connection； Described filter layer feed mechanism includes being fixed on the horizontal stand in frame, the feed clamp on horizontal stand, installed Clipper on feed clamp；The highest point bus of the vertically-aligned carrying axle of plumb joint of the ultrasonic bonding machine.

It is preferred that, line slideway is installed, feed clamp is by linear bearing and drive installation straight on described horizontal stand On line guide rail, the stroke of feed clamp is matched with the circumferential length of yarn dyeing tube.

It is preferred that, described filter layer feed mechanism is provided with by glassware and its driven by material, is driven by glassware and its by material In frame or on ultrasonic bonding machine or on horizontal stand, matched by the width of glassware with the width of filter layer.

Described yarn dyeing tube material loading part includes feeding clip mechanism and transport mechanism, and feeding clip mechanism includes clamping jaw, and clamping jaw is installed On slide unit and its driving, slide unit and its drive installation are on the horizontal slide rail on feed frame；Rotation is connected on described clamping jaw Rotating motor, electric rotating machine is arranged in slide unit and its driving, and yarn dyeing tube testing agency, dye are installed on the feed frame of correspondence clamping jaw Spool testing agency judges that the port size of yarn dyeing tube electric rotating machine rotates 180 °；Feed frame is provided with material carrier platform, Material carrier platform is located at immediately below yarn dyeing tube testing agency to be slided vertically by material carrier platform driving on feed frame, the inner side of material carrier platform The drive connection of photoelectric sensor, photoelectric sensor and clamping jaw is installed.

Described material loading part includes feeding clip mechanism and transport mechanism, and transport mechanism is arranged on feed frame, described to pass The feeding rotating disk and its feeding that sending mechanism includes being arranged on feed frame drive, and are provided with and hold vertically on the circumference of feeding rotating disk The groove of yarn dyeing tube is carried, the groove can be rotated to the front of feeding station carrying axle；The top of feeding rotating disk is clamping machine Structure.

It is further preferred that described feeding rotating disk is connected by hollow bearing with feed frame, hollow bearing and feeding Drive connection；Described feeding rotating disk is provided with charging ram；Pusher drive installation is fixed on feed frame in hollow bearing, Pusher is driven to rotate with hollow bearing and is connected, and pusher driving output shaft is connected by plate with charging ram, charging ram and cladding rotating disk The carrying axle correspondence of feeding station.

It is preferred that, being installed in described carrying axle has axially open in unloading mechanism, carrying axle, unloading mechanism includes the material returned Cross bar, the push rod being connected with material returned cross bar intermediate vertical and material returned driving, material returned cross bar are placed in the axially open in carrying axle, The length of material returned cross bar is more than carrying shaft diameter and matched with yarn dyeing tube, is stretched out by axially open both sides, the rear end of push rod has square Fixture block, material returned drive installation is in frame, and the dead astern positioned at material returned station carrying axle is corresponding with square fixture block；Described carrying Axle rotation driving is used on servomotor, servomotor installation frame, positioned at the dead astern of cladding station carrying axle；Servomotor Output shaft end have bayonet socket with square card Block- matching.

It is preferred that, it is preferred that four carrying axles are installed on described cladding rotating disk, central angle arrangement is waited and its axle center is same On one circumference.

It is further preferred that the groove on described feeding rotating disk there are four, wait central angle arrangement and its axle center is same On circumference；The feeding rotating disk and cladding rotating disk synchronous axial system.

It is preferred that, saddle is provided with the frame of road on described, saddle is located at directly over upper road rotating disk.

It is preferred that, two blowing bars are set on described filter layer discharging frame, two filter layers are put.

The beneficial effects of the invention are as follows：The present invention covered section by feed clamp, ultrasonic bonding machine, clipper, by material The cooperation of device, the rotation of carrying axle by non-woven fabrics filter layer it is close, smooth, be coated on securely on yarn dyeing tube.4 of the present invention Carrying axle undertakes cladding station, material returned station, room, feeding station in turn, realizes efficient, orderly automated production.

Judge whether the direction of feeding is correct, automates feeding by yarn dyeing tube testing agency；By feeding rotating disk and The synchronous axial system of cladding rotating disk realizes feeding and the synchronous progress raising efficiency of cladding；The flatness of cladding is substantially increased by glassware And using effect.Simple in construction, automatic control of the invention, not only efficiency high, and filter layer can be enable neatly to put down It is whole and be reliably coated on yarn dyeing tube.

Brief description of the drawings

Fig. 1 is the dimensional structure diagram of the present invention, wherein not shown by glassware.

Fig. 2 is the schematic top plan view of the present invention.

Fig. 3 is the front view of the present invention.

Fig. 4 is carrying axle construction and rotation driving schematic diagram.

Fig. 5 is carrying axle construction and material returned driving schematic diagram.

Fig. 6 is a kind of example structure schematic diagram of feeding transport mechanism.

Fig. 7 is a kind of example structure schematic diagram of eccentric swage.

Embodiment

Below by Fig. 1~Fig. 7 and the mode for some alternative embodiments for enumerating the present invention, to the technical side of the present invention Case (including optimal technical scheme) is described in further detail, any technical characteristic and any technical side in the present embodiment Case is not limited the scope of the invention.

As shown in Figures 1 to 6, yarn dyeing tube outer surface filter layer coating machine disclosed in the present embodiment includes frame 1, cladding turn Disk 2, ultrasonic bonding machine 3, filter layer discharging frame 4, filter layer feed mechanism 5 and its drive part and control section, the cladding Rotating disk 2 is arranged in frame 1 by bearing block, and cladding rotating disk 2 drives in the front side of frame 1, the rotating disk being connected with cladding rotating disk 2 2b installs carrying axle 2a at the rear portion of frame 1 on cladding rotating disk 2, carrying axle 2a by bearing with coating that rotating disk 2 is vertical to be connected, Carrying axle 2a and carrying axle drive connection；Described filter layer feed mechanism 5 include being fixed on horizontal stand 5a in frame 1, Feed clamp 5c on horizontal stand 5a, the clipper 5d on feed clamp 5c；The welding of the ultrasonic bonding machine 3 Head erect alignment carrying axle 2a highest point bus.

Line slideway 5b is installed, feed clamp 5c is by linear bearing and drive installation in straight line on described horizontal stand 5a On guide rail 5b, feed clamp 5c stroke is matched with the circumferential length of yarn dyeing tube.

Described filter layer feed mechanism 5 is provided with by glassware 5f and its drives 5h by material, is driven by glassware 5f and its by material 5h is arranged in frame 1 or on ultrasonic bonding machine 3 or on horizontal stand 5a, by glassware 5f width and the width of filter layer Match somebody with somebody.

Described yarn dyeing tube material loading part 6 includes feeding clip mechanism 6d and transport mechanism, and feeding clip mechanism 6d includes clamping jaw 6d1, Clamping jaw 6d1 is arranged on slide unit and its driving 6d2, the horizontal slide rail 6d6 of slide unit and its driving 6d2 on feed frame 6a On；Electric rotating machine 6d3 is connected on described clamping jaw 6d1, electric rotating machine 6d3 is arranged on slide unit and its driving 6d2, correspondence clamping jaw Installation yarn dyeing tube testing agency 6d4 on 6d1 feed frame 6a, yarn dyeing tube testing agency 6d4 enter to the port size of yarn dyeing tube Row judges that electric rotating machine 6d3 rotates 180 °；Feed frame 6a is provided with material carrier platform 6d5, and material carrier platform 6d5 is detected positioned at yarn dyeing tube Slided vertically on feed frame 6a by material carrier platform driving immediately below mechanism 6d4, photoelectric sensing is installed in material carrier platform 6d5 inner side Device, the drive connection of photoelectric sensor and clamping jaw 6d1.After photoelectric sensor detects yarn dyeing tube in place, clamping jaw 6d1 is clamped.

Fig. 6 is a kind of example structure schematic diagram of feeding transport mechanism：The transport mechanism of described material loading part 6 is arranged on On feed frame 6a, the transport mechanism includes the feeding rotating disk 6b being arranged on feed frame 6a and its feeding driving, feeding Groove 6c on rotating disk 6b circumference vertically provided with carrying yarn dyeing tube, the groove 6c can be rotated to feeding station carrying axle 2a Front；Feeding rotating disk 6b top is feeding clip mechanism 6d.

Described feeding rotating disk 6b is connected by hollow bearing 6h with feed frame 6a, and hollow bearing 6h drives with feeding 6b1 connections；Described feeding rotating disk 6b is provided with charging ram 6e；Pusher driving 6f, which is arranged in hollow bearing 6h, is fixed on feeding On frame 6a, pusher driving 6f and hollow bearing 6h, which are rotated, to be connected, and pusher drives 6f output shaft 6f1 by guide plate 6g with pushing away Expect bar 6e connections, charging ram 6e is corresponding with the carrying axle 2a for coating the feeding station of rotating disk 2.

Feeding transport mechanism can also be using other manner transmission.

The cladding rotating disk 2 is arranged in frame 1 by bearing block, and cladding rotating disk 2 turns in the front side of frame 1 with cladding The rotating disk driving 2b of disk connection installs carrying axle 2a on the rear portion of frame 1, cladding rotating disk, and carrying axle 2a passes through bearing and cladding Rotating disk 2 is vertically connected, carrying axle 2a and carrying axle drive connection；Unloading mechanism 7, carrying axle 2a are installed on described carrying axle 2a On have an axially open 2a1, unloading mechanism includes material returned cross bar 7a, the push rod 7b being connected with material returned cross bar 7a intermediate verticals and the material returned 7c, material returned cross bar 7a is driven to be placed in the axially open 2a1 on carrying axle 2a, material returned cross bar 7a length is straight more than carrying axle 2a Footpath is matched with yarn dyeing tube, is stretched out by axially open 2a1 both sides, and push rod 7b rear end has square fixture block 7d, material returned driving 7c to install In frame 1, the dead astern positioned at material returned station carrying axle 2a is corresponding with square fixture block 7d；Described carrying axle rotation driving is used Servomotor 2a1, servomotor 2a1 are arranged in frame 1, positioned at cladding station carrying axle 2a dead astern；Servomotor 2a1 Output shaft end have the bayonet socket 2a2 matched with the square fixture block 7b1.

It is preferred that, 4 carrying axle 2a are installed on described cladding rotating disk 2, central angle arrangement is waited and its axle center is in same circle Zhou Shang.Groove 6c on described feeding rotating disk 6b has 4, waits central angle arrangement and its axle center is on same circumference；On described Expect rotating disk 6b and cladding rotating disk 2a synchronous axial systems.

It is preferred that, two blowing bars are set on described filter layer discharging frame 4, two filter layers are put

It is preferred that, described filter layer feed mechanism 5 is provided with by glassware 5f and its drives 5h by material, by glassware 5f and its presses Material driving 5h is arranged in frame 1 or on horizontal stand 5a, is matched by glassware 5f width with the width of filter layer.Such as Fig. 3 institutes It is to load on ultrasonic bonding machine by glassware 5f to show.

Fig. 7 is a kind of example structure schematic diagram of eccentric swage.It is described that horizontal stand is arranged on by balladeur train 5e by glassware 5f On 5a, drive and reciprocatingly slided by glassware 5f by material driving 5h.It is further preferred that being additionally provided with monitoring sensor on the balladeur train 5e 5g, the monitoring sensor 5g is connected with ultrasonic bonding machine 3, and in place whether, yarn dyeing tube is arrived monitoring sensor 5g detections yarn dyeing tube Position, ultrasonic bonding machine 3 just works.

Two blowing bars are set on described filter layer discharging frame 4, two non-woven fabrics are put, filter layer is by two-layer nonwoven structure Into.

The course of work of the present invention is as follows：

4 carrying axle 2a, original state are installed on the cladding rotating disk 2 of the present invention as shown in figure 3,4 carrying axle 2a difference Positioned at 45 °, 135 °, 225 °, 315 °；45 ° are cladding station, and 135 ° are material returned station, and 225 ° are room, and 315 ° are feeding work Position, cladding rotating disk 2 rotates 90 ° every time, and 4 carrying axle 2a are located at feeding, cladding, the material returned, four, room process in turn.

Yarn dyeing tube is placed in after material carrier platform 6d5, and material carrier platform 6d5 rises to specified location, while clamping jaw 6d1 opens, clamping jaw 6d1 clamps yarn dyeing tube, material carrier platform 6d5 returns；Yarn dyeing tube testing agency 6d4 stretches out, and is stretched out by yarn dyeing tube testing agency 6d4 The stroke at end judges the direction of yarn dyeing tube, if towards incorrect, clamping jaw 6d4 passes through electric rotating machine 6d3 and rotates 180 °, court To after correct, clamping jaw 6d4 is driven to move right to above saddle 6n by slide unit and its driving 6d2；Now, on feeding rotating disk 6b A groove 6c just upward, yarn dyeing tube is dropped downward into groove 6c in leading for saddle 6n；Then feeding rotating disk 6b is rotated 90 °, the carrying axle 2a of feeding stations of this groove 6c with coating rotating disk 2 is corresponding, and yarn dyeing tube is pushed into by subsequent charging ram 6e On the carrying axle 2a for expecting station；Cladding rotating disk rotation 2 is rotated by 90 ° goes to cladding station by the carrying axle 2a for being loaded with yarn dyeing tube, now The square fixture block 7d of carrying axle 2a upper push-rod 7b rear ends is caught in bayonet socket 2a2；Meanwhile, the feed clamp 5c on filter layer feed mechanism 5 Filter layer is delivered at cladding station yarn dyeing tube highest bus, ultrasonic bonding machine 3 is moved down and by the front end of filter layer and dye Spool is welded, and is remained stationary as, and feed clamp 5c unclamps, retracts (stroke is equal to yarn dyeing tube girth+surplus) original position, feed clamp 5c folders Tightly, clipper 5d cuts filter layer, and ultrasonic bonding machine 3 retracts, at the same time, by glassware 5f in the presence of its driving with yarn dyeing Pipe is contacted, and carrying axle 2a rotate counterclockwises one week, filter layer are coated yarn dyeing tube one week by subsequent servomotor 2a1, ultra-sonic welded Machine 3 moves down and completes the welding of filter layer tail end；Cladding rotating disk 2 is rotated by 90 ° and will be coated with filter layer after the completion of second of welding The carrying axle 2a of yarn dyeing tube delivers to material returned station, and the square fixture block 7d alignment material returned driving 7c of push rod 7b rear ends, the driving material returned is horizontal Bar 7a releases the yarn dyeing tube for being coated with filter layer from carrying axle 2a.Unloading mechanism 7 resets, and 7e is back-moving spring.Feeding, bag Cover process, three stations of blanking to carry out simultaneously, and so on, you can realize automation feeding, cladding process, blanking.

Certainly, detect yarn dyeing tube towards when, can also twice be detected, be first to determine towards correct, then Yarn dyeing tube is sent into groove 6c by slide unit and its driving 6d2.

Fig. 7 of the present invention appends another embodiment by glassware 5f, this by glassware 5f and rotation detection sensing Device 5g is linkage, and when by material, rotation sensor 5g is remote by glassware 5f when carrying axle 2a rotates away from yarn dyeing tube From yarn dyeing tube.It is different from the mode in Fig. 3, be in Fig. 3 rotation sensor 5g be it is fixed, it is swingable by glassware 5f To realize by material.No matter which kind of mode, can not be excessive by the contact force of glassware 5f and yarn dyeing tube, it can be provided Elastic Contact, And rotation sensor 5g contact is elastic.

4 carrying axle 2a are installed on the cladding rotating disk 2 of the present invention, 90 ° are rotated every time, 4 carrying axle 2a undertake in turn Material, cladding, the material returned, four, room process.Groove 6c on feeding rotating disk 6b has 4,4 groove 6c original state and cladding Rotating disk 2 differs 45 °, and the groove 6c of its feeding station is at 90 °.Feeding rotating disk 6b and cladding rotating disk 2a synchronous axial systems, are rotated every time 90 ° of upper pipes.All drivings press programme-control by controller, and whole flow process is efficiently, in order.

It should be readily apparent to one skilled in the art that these are only presently preferred embodiments of the present invention, not to limit this hair Bright, all any modification, combination, replacement, improvement made under the spirit and principles in the present invention etc. are all contained in the guarantor of the present invention Within the scope of shield.

Claims (10)

1. a kind of yarn dyeing tube outer surface filter layer coating machine, including yarn dyeing tube material loading part and covered section, covered section include Frame (1), cladding rotating disk (2), ultrasonic bonding machine (3), filter layer discharging frame (4), filter layer feed mechanism (5) and its drive division Divide and control section, it is characterised in that：The cladding rotating disk (2) is arranged in frame (1) by bearing block, coats rotating disk (2) Front side in frame (1), the rotating disk driving (2b) being connected with cladding rotating disk (2) is on the rear portion of frame (1), cladding rotating disk (2) Carrying axle (2a) is installed, carrying axle (2a) is connected by the way that bearing is vertical with cladding rotating disk (2), and carrying axle (2a) drives with carrying axle Connection；Described filter layer feed mechanism (5) includes being fixed on horizontal stand (5a) in frame (1), installed in horizontal stand Feed clamp (5c) on (5a), the clipper (5d) on feed clamp (5c)；The plumb joint of the ultrasonic bonding machine (3) is erected The highest point bus of straight alignment carrying axle (2a).

2. yarn dyeing tube outer surface filter layer coating machine according to claim 1, it is characterised in that：Described horizontal stand On (5a) install line slideway (5b), feed clamp (5c) by linear bearing and drive installation on line slideway (5b), feeding The stroke of folder (5c) is matched with the circumferential length of yarn dyeing tube.

3. yarn dyeing tube outer surface filter layer coating machine according to claim 1 or 2, it is characterised in that：Described filter layer Feed mechanism (5) is provided with by glassware (5f) and its drives (5h) by material, and machine is arranged on by glassware (5f) and its by material driving (5h) On frame (1) or on ultrasonic bonding machine (3) or on horizontal stand (5a), matched by the width of glassware (5f) with the width of filter layer.

4. yarn dyeing tube outer surface filter layer coating machine according to claim 1 or 2, it is characterised in that：Yarn dyeing tube feeding portion Point (6) include feeding clip mechanism and transport mechanism, and feeding clip mechanism (6d) includes clamping jaw (6d1), clamping jaw (6d1) be arranged on slide unit and its Drive on (6d2), slide unit and its driving (6d2) are arranged on the horizontal slide rail (6d6) on feed frame (6a)；Described clamping jaw Electric rotating machine (6d3) is connected on (6d1), electric rotating machine (6d3) is arranged in slide unit and its driving (6d2), correspondence clamping jaw (6d1) Feed frame (6a) on install yarn dyeing tube testing agency (6d4), port size of the yarn dyeing tube testing agency (6d4) to yarn dyeing tube Judged, electric rotating machine (6d3) rotates 180 °；Feed frame (6a) is provided with material carrier platform (6d5), and material carrier platform (6d5) is located at Slided vertically on feed frame (6a) by material carrier platform driving immediately below yarn dyeing tube testing agency (6d4), material carrier platform (6d5) Inner side is installed by photoelectric sensor, the drive connection of photoelectric sensor and clamping jaw (6d1).

5. yarn dyeing tube outer surface filter layer coating machine according to claim 1, it is characterised in that：Material loading part (6) includes Feeding clip mechanism (6d) and transport mechanism, transport mechanism are arranged on feed frame (6a), and the transport mechanism includes being arranged on upper Expect on the feeding rotating disk (6b) in frame (6a) and its feeding driving, the circumference of feeding rotating disk (6b) vertically provided with carrying yarn dyeing The groove (6c) of pipe, the groove (6c) can be rotated to feeding station carrying axle (2a) front；Feeding rotating disk (6b) it is upper Portion is feeding clip mechanism (6d).

6. yarn dyeing tube outer surface filter layer coating machine according to claim 5, it is characterised in that：Described feeding rotating disk (6b) is connected by hollow bearing (6h) with feed frame (6a), and hollow bearing (6h) is connected with feeding driving (6b1)；Described Feeding rotating disk (6b) is provided with charging ram (6e)；Pusher driving (6f) is arranged in hollow bearing (6h) and is fixed on feed frame On (6a), pusher drives (6f) to be rotated with hollow bearing (6h) and is connected, and the output shaft (6f1) of pusher driving (6f) passes through guide plate (6g) is connected with charging ram (6e), and charging ram (6e) is corresponding with the carrying axle (2a) for coating rotating disk (2) feeding station.

7. yarn dyeing tube outer surface filter layer coating machine according to claim 1 or 2, it is characterised in that：Described carrying axle Being installed on (2a) has axially open (2a1) in unloading mechanism (7), carrying axle (2a), unloading mechanism includes material returned cross bar (7a), with The push rod (7b) and material returned driving 7c of material returned cross bar (7a) intermediate vertical connection, material returned cross bar (7a) are placed in carrying axle (2a) In axially open (2a1), the length of material returned cross bar (7a) is matched more than carrying axle (2a) diameter with yarn dyeing tube, by axially open (2a1) both sides are stretched out, and there is square fixture block (7d) rear end of push rod (7b), and material returned driving (7c) is arranged in frame (1), positioned at moving back Expect that the dead astern of station carrying axle (2a) is corresponding with square fixture block (7d)；Described carrying axle rotation driving uses servomotor (2a1), servomotor (2a1) is arranged in frame (1), positioned at the dead astern of cladding station carrying axle (2a)；Servomotor The output shaft end of (2a1) has the bayonet socket (2a2) matched with the square fixture block (7d).

8. yarn dyeing tube outer surface filter layer coating machine according to claim 1 or 2, it is characterised in that：Described cladding turns 4 carrying axles (2a) are installed on disk (2), central angle arrangement is waited and its axle center is on same circumference.

9. yarn dyeing tube outer surface filter layer coating machine according to claim 5, it is characterised in that：Described feeding rotating disk Groove (6c) on (6b) has 4, waits central angle arrangement and its axle center is on same circumference；The feeding rotating disk (6b) and cladding Rotating disk (2a) synchronous axial system.

10. yarn dyeing tube outer surface filter layer coating machine according to claim 5, it is characterised in that：In the feed frame (6a) is provided with saddle (6n), and saddle (6n) is located at directly over feeding rotating disk (6b).