CN1129266A - Wax-applicating device and fabric machine with said wax-applicating device - Google Patents

Abstract

The invention provides an automatic waxing device which is applicable to various spindle fiber machines; the automatic waxing device is steady in wax attached amount and consumption, which removes the uneven wax attached amount and consumption between spindles; meanwhile, the routing thereof is quick and accurate. The automatic waxing device comprises wax blocks, wax block compressing part that can clamp the lines between the wax blocks and is positioned opposite to the wax blocks, and a part to squeeze the wax block compressing part through fluid pressure so as to press the wax blocks. The waxing devices are installed on every unit of a plurality of line unit fiber machines, meanwhile, a switching part for supple fluid to discharge or discharge fluid from the pressurizing part of every waxing device and a pressure regulating part to regulate the pressure of the fluid are installed on every plural unit or every unit. A sliding wax supporting part to carry out switching is positioned between the wax block and the wax block compressing part.

Description

Go up cured device and have the fibre machinery of going up cured device

The present invention relates to a kind of fibre machinery that on the line that moves, is coated with cured last cured device and has the automatic winder of going up cured device.

In the past, with the automatic winder spiral time, for the frictional resistance that reduces line with suppress fluffiness simultaneously, the cured end face of mobile line and the solid of forcing to rotate cylindraceous was contacted, and made and adhere to curedly on the line, in Figure 11, represented one of them example.

In the drawings, go up cured device 81 and comprised that will cured 82 cylindraceous being inserted into the section that rotates by the power source (not shown) is on the square bolster 83, and then on this bolster 83 sheathed one have the circular fixed head 85 that runs through square hole 84, by pin 86 outstanding on its single face cured 82 is fixed on the bolster 83.And, on another face of said fixing plate 85, there is one to be the pressure ram 87 that the center can be shaken with the fulcrum (not shown), can compress axially with this pressure ram 87, make to contact through cured 82 line Y contact side end face 88 and with three pin rods 89, when determining these end face 88 positions, clamp cured 82 after, by the adjustment cable guiding device 90,91 that is arranged on drawing lines upstream side and downstream side, make line Y slight curvature,, adhere on the online Y cured so that its end face 88 with cured 82 contacts.

; this in the cured device 81; owing to vertically move when waiting the coiling tension make line Y to change; make that then in addition, pressure ram 87 is because helical spring effect to the also change of extruding force of cured end face 88; consumption along with cured 82; dislocation has taken place in the angle of pressure ram 87, makes the plus-pressure of this pressure ram 87 change, and it is constant that cured like this 82 adhesion amount just can not keep.And then cured 82 side that can only adhere to online Y sometimes is so adhesion amount can not be thought fully.And cut the cured powder that gets off by line attached to after bolster 83, pin rod 89 and the cable guiding device 90,91, and make drawing lines and cured block positioning device entanglement, changed line Y and cured 82 curvilinear angle, produce non-uniform phenomenon at (between parts) between spindle.In addition, because the consumption between each spindle is easy to produce non-uniform phenomenon, so cured 82 replacing management is brought difficulty.

In addition, in changing operations such as bobbin and wiring, when making line pass through last cured device 81, behind the cured end face of pin rod 92 roof pressures, make cured 82 and break away from from pin rod 89, between this, pass through line Y, behind online the passing through, when making cured 82 again with pin rod 89 and contacting, cured 82 is slided along bolster 83 with the be squeezed extruding meeting of bar 87 of fixed head 85, so the resistance to sliding between cured 82 and the bolster 83 increases, and, in use, be attached with on the bolster 83 cured after, more increased resistance to sliding, the result makes cured 82 time delay of getting back to normal effect operating position again, cured 82 answer back during because line Y also moving, so increased the cured part of not adhering on the line Y.

Changing cured 82, with in new cured 82 pin 86 that is inserted into fixed head 85 fixedly the time, when the square hole 84 of fixed head 85 and cured 82 decide core when incorrect, can more increase above-mentioned difficulties, make that changing cured 82 becomes problem.And then need concern by the delicate position of regulating cured 82 end face 88 and cable guiding device 90,91 and regulate cured adhesion amount, this adjusting is very bothersome, and because need make cured 82 rotation, then need cured 82 is fixed on the fixed head 85 that has pin 86, use up so partly cured 82 that be fixed can not be made by full consumption at last.

In view of some problems that exist with cured device up, the objective of the invention is to, what a kind of new structure was provided can stablize cured adhesion amount and consumption, and can eliminate adhesion amount and consumption non-uniform phenomenon between each spindle, simultaneously do not need to regulate cured adhesion amount, and can all consume cured last cured device.

Another object of the present invention is to, a kind of aforementioned fibre machinery of cured device that has is provided, make it can carry out the supply of fluid and the switching of discharge to each plurality of elements or each subdivision, and can regulate the pressure of fluid, the cured adhesion amount of each plurality of elements or each subdivision can easily be regulated.

Technical solution of the present invention provides can stablize cured adhesion amount and consumption, and can eliminate adhesion amount and consumption non-uniform phenomenon between each spindle, does not need to regulate cured adhesion amount simultaneously, and can all consume cured last cured device.

The last cured device of technical solution of the present invention record is characterized in that having cured, and cured compressing member can clamping line between this cured and be provided with this cured subtend and push the parts of cured compressing member to above-mentioned cured pressurization by fluid pressure.

In addition, the fibre machinery with above-mentioned cured device of technical solution of the present invention record, it will carry out fluid switching part of supplying with and discharging and the voltage regulation part of regulating above-mentioned fluid pressure to cured device pressures partially on each and be installed on each plurality of elements or each unit when cured device above-mentioned being installed on each unit with a plurality of cabling cell fiber machineries.

And between cured and cured compressing member, the cured support unit of slip that can open and close is set, this support unit can move in the direction of cured switching, be provided with on the cured support unit this support unit when the cured direction of opening moves can with cured chimeric fitting portion.

The fluid of above-mentioned pressurization is an air, and be provided with compressed air imported between cured and the cured supporting member and cured and cured compressing member between compressed air import parts.

Cured device on a kind of lines of technical solution of the present invention record, it is characterized in that having solid wax, with the cured co-operating of solid, and slightly the vertical direction clamping move the hold assembly of lines, drive the rotary part of rotation solid wax forcibly and with the cured extruder member that is squeezed on the hold assembly of solid.Aforesaid lines waxing attachment, wherein said extruder member is squeezed in solid wax on the hold assembly with slightly certain pressure, and irrelevant with the amount of solid wax.Aforesaid lines waxing attachment, wherein said solid wax and hold assembly rotate synchronously.

In the cured device, cured is to be pressed on the cured compressing member by pressue device on being put down in writing in technical solution of the present invention, makes line be sandwiched in to go up between cured compressing member and cured cured.At this moment, keep certain by the fluid pressure with pressue device, not influenced by the tension force of cured thickness effect and line, it is certain to remain cured extruding force to line, and it is certain that cured like this adhesion amount also keeps.

In the fibre machinery of in technical solution of the present invention, being put down in writing, owing to can carry out the supply of fluid and the switching of discharge to each plurality of elements or each subdivision, and can regulate the pressure of fluid, so the cured adhesion amount of each plurality of elements or each subdivision can easily be regulated.

And then, on in technical solution of the present invention, being put down in writing in the cured device, when feeding line, cured supporting member is deviated from when mobile from cured compressing member, cured from be engaged on the cured support unit and and the cured compressing member that becomes one of support unit on leave immediately, between them, carry out by line, with cured supporting member opposite direction when mobile, cured mobile with the cured supporting member that pressurizes with pressue device, and be compressed in immediately on the cured compressing member.

In addition, in technical solution of the present invention, put down in writing in the cured device, the pressurization that compresses cured is imported between cured and the cured compressing member by blowing plant with air and cured and cured supporting member between, clean these spaces with compressed air.

Concrete structure of the present invention, feature and effect thereof are provided in detail by following examples and accompanying drawing thereof.

The simple declaration of figure

Fig. 1 represents to have the stereogram of 1 batching apparatus of the automatic winder of cured device on the present invention the 1st embodiment.

Fig. 2 represents the left view of cured device on the present invention the 1st embodiment.

Fig. 3 is the profile of X-X ' among Fig. 2.

Fig. 4 is the side view of cured of expression and bolster.

The profile of X-X ' among Fig. 1 when Fig. 5 is cabling.

Fig. 6 is expression profile of X-X ' among Fig. 1 when changing cured.

Fig. 7 represents the orthogonal view of cured device on the 2nd embodiment.

Fig. 8 represents to have the pipe arrangement situation skeleton diagram of the automatic winder of cured device on the embodiment of the invention.

Fig. 9 represents to have the pipe arrangement situation skeleton diagram of the automatic winder of cured device on the embodiment of the invention.

Figure 10 represents to have the pipe arrangement situation skeleton diagram of the automatic winder of cured device on the embodiment of the invention.

Figure 11 represents with the orthogonal view of cured device up.

Figure 12 represents the approximate three-dimensional map of 1 batching apparatus of cured device on the present invention's the 3rd embodiment lines.

Figure 13 represents the vertical cross section of cured device on the present invention's the 3rd embodiment lines.

Figure 14 represents the exploded perspective view of the extruder member of cured device on the present invention's the 3rd embodiment lines.

Figure 15 is the sectional side view along A among Figure 13-A line cover.

Figure 16 represents the part enlarged side view of cured device on the present invention's the 3rd embodiment lines.

Figure 17 represents the cured support unit stereogram of solid of cured device on the present invention's the 4th embodiment lines.

Figure 18 represents the front view of the extruder member of cured device on the present invention's the 5th embodiment lines.

Figure 19 represents the front view of the extruder member of cured device on the present invention's the 6th embodiment lines.

The explanation of symbol

Cured device on 1

2 cured

3

4 rotating discs (cured compressing member)

5 pressure-producing parts

7 rotating shafts

31 cured supports

32 flange portion (auxiliary section)

33 airways

41 depressed parts

51 cylinders

52 plungers

53 steam vents

60 urceolus

The Y line

The W automatic winder

Wu bobbin winder batching apparatus

The C compressor

Rm, Rs, Ru adjuster

Vm, Vs, Vu electromagnetic valve

Fig. 1 represents to have automatic winder W and 1 the batching apparatus Wu that goes up cured device 1 that have of the present invention the 1st embodiment.In Fig. 1, automatically coil winder W comprise with from give line Y that bobbin B unties through tensioner 6, go up cured device 1, flat is subjected to line device Sc, twists in parts on the roller P that packs with the runout of reel D.Sp is a termination, and N is the relay pipe that will import to the end of a thread of bobbin B side among the termination Sp, and M is that these all are arranged on the side of spiral unit Wu framework F with the suction inlet among the end of a thread importing termination Sp of packing roller P side.

Fig. 1 to Fig. 3 represents the last cured device 1 of the present invention the 1st embodiment.In the drawings, go up cured device 1 by constituting with the lower part, with the bolster 3 that is inserted with cured 2 of cylindric solid be configured in coaxial on, and the rotating disc 4 that be provided with relative with this front end face 2a of cured 2, push above-mentioned cured 2 rear end face 2b, will this front end face 2a of cured 2 be crimped on the pressure-producing part 5 on the rotating disc 4 (cured compacting part), cured device 1 becomes shared unit with tensioner 6 on this.

Rotating disc 4 forms annular recess portion 41 in the surface central authorities with cured 2 opposite side, except the wheel hub 42 from rotating disc 4 is provided with 3 to 4 muscle arm 43 parts radially, all is to be communicated in rear side on this depressed part 41.And, rotating disc 4 is the tops that are fixed on the hollow rotating shaft 7 in the above-mentioned wheel hub 42, but this rotating shaft 7 (this sleeve 10 is arranged on the substrate 9 that is fixed on casing 8 inboards) on the sleeve 10, and stops axial moving by pad 13, split ring 14,15 by bearing 11,12 free rotary ground supportings.

Fixing gear 16 at the pars intermedia of above-mentioned rotating shaft 7, this gear 16 is meshed with gear 17, and the gear 18 that is connected as a single entity with this gear 17 is meshed with the gear 19 on being fixed on motor 21 output shafts 20, and they form a speed increasing gear series.In addition, fixing the movable plate 6a of tensioner 6 on the end of this gear 19, tensioner 6 and rotating disc 4 are driven in rotation with certain velocity ratio by motor 21.

Form on the top of bolster 3 and can insert cured large diameter cured support 31, formed flange portion 32 respectively than these cured support 31 larger diameter at the base end side of this cured support 31.Above-mentioned cured support 31, as shown in Figure 3, Figure 4, the section that equally spaced is formed with 4 chamferings in the circumference side slightly octagonal or bight has the square shape of R, with cured 2 intercalation cylindraceous to this cured support 31 time, then between this inner peripheral surface 2C of cured 2 and cured support 31, form airway 33 along above-mentioned chamfered section.

And above-mentioned bolster 3, behind the rotating shaft 7 that is inserted into above-mentioned hollow, can be fixed with axially being free to slide, and on rearward end, since the pad of fixing with slotted collar 34 35 and and the spring retainer 36 that joins of the end face of rotating shaft 7 between spring 37 is housed, make bolster 3 because the right of effect in Fig. 3 of this spring 37 often is added with elastic force, flange portion 32 is positioned at the depressed part 41 of rotating disc 4, and follows mutually with the end face of hollow rotating shaft 7.

In addition, the top ends of the pull bar 38 that near the tilting member 39 that is provided with the rear end of bolster 3 and can freely swings by fulcrum 39b becomes one, the top ends of above-mentioned tilting member 39 is provided with on the auxiliary section 39a of breach, is provided with the pin 40a that is arranged on the sliding bar 40.

Pressure-producing part 5 is to be made of the plunger 52 that cylinder 51 reaches by cylinder 51 turnover.These plunger 52 bottoms are closed, and become the hollow cylindrical of top ends opening a side of cured 2, its periphery wall and cylinder 51 hermetic sliding-contacts of minor diameter top ends 51a, the bottom middle body that is closed at this plunger 52 is provided with a steam vent 53 in addition, form one on the circumference of this bottom and be the valve body 54 of air-tightness sliding-contact, the inner area of cylinder 51 is divided into the air chamber 55 of bottom and air chamber 56 2 parts of top ends by this valve body 54 than the big slightly diameter of cylindrical portions may and with the internal face of cylinder 51.In addition, after the bottom of cylinder 51 is packed plunger 52 into, with lid 57 good seals.

Top ends in the cylinder 51 and bottom connect with circumferential side wall respectively, and are provided with passage 58,59.This passage 58,59 along the circumferential direction is provided with a plurality of respectively.And can assemble a urceolus 60 in the outside of cylinder 51 with being free to slide, so that can cover the circumferential lateral surface that has above-mentioned passage 58,59.

Urceolus 60 is at the wholecircle that is positioned at its inner peripheral wall middle body on week, be provided with banded ditch (being airway 61 parts), between the excircle side of this ditch and cylinder 51, form airway 61, be communicated with snorkel Pu on this airway 61, in the both sides of this airway 61, urceolus 60 is hermetic with the circumference side of cylinder 51 and slidably contacts.

In addition, be provided with pull bar 63 integratedly in the bottom of urceolus 60.This pull bar 63 is plugged near in the perforation pilot hole 64 on fixed outer cylinder 60 parts, in pilot hole 64, inserts and to lead to guide post 66 outstanding and that be arranged in parallel with cylinder 51 on the bottom of the abutment wall 65 of fixed cylinder 51.At the fixing retainer of the spring 68 of the top ends inserting opening card ball 67 of this guide post 66 with make its spring 69 between above-mentioned pull bar 63, elastic energy by this spring 69 makes pull bar 63 reach the bottom that the urceolus 60 that becomes one with this pull bar 63 is usually located at cylinder 51, under this state, airway 61 is communicated with the passage 59 of bottom end side, and 58 inner peripheral walls owing to urceolus 60 of the passage of top ends are sealed.

The above-mentioned supporting arm 65 of supporting cylinder 51, be inserted into by the wheel hub 70 that its bottom is wholely set in the one-sided fulcrum 71 of casing 8, with this fulcrum 71 is center above-below direction swing (as shown in Figure 2), and can axially slide, the swing of downward direction is fixed on its position owing to the retainer 73 on the top that is fixed on the fulcrum 72 on the casing 8 is prevented from.

In addition, the top of fulcrum 71 is provided with spring 76 between spring retainer 75 fixing with slotted collar 74 and above-mentioned wheel hub 70, supporting arm 65 is fixed on the position that the stage portion 71a of end of wheel hub 70 and fulcrum 71 joins to the elastic force of right as shown in Figure 3 by this spring 76.Wherein, the 77, the 78th, upward the cable guiding device of guide line Y in the cured device 1 is fixed on the casing 8.

Below illustrate in the last cured device 1 of said structure by Fig. 8 to Figure 10, for the embodiment of the snorkel Pu pipe arrangement situation of a plurality of automatic winder batching apparatus Wu that are arranged in parallel.

In Fig. 8, each the snorkel Pu that delivers to the last cured device 1 of each batching apparatus Wu is responsible for Pm branch by 1 and comes out, the end of this person in charge Pm is connected with compressor C as the compressed air supply source by electromagnetic valve Vm, adjuster Rm simultaneously, carry out switching that compressed air supplies with and discharge, carry out the adjusting of air pressure with electromagnetic valve Vm, make all batching apparatuss reach consistent with adjuster Rm.

And in the embodiment of Fig. 9, with the snorkel Pu of last cured device 1 that delivers to each batching apparatus Wu with plural batching apparatus (being 6 batching apparatuss in the legend) as 1 span group Ws, per 1 span group Ws is connecting the branched pipe Ps that is provided with, this branched pipe Ps is connected when being responsible for Pm, carries out the adjustment of compressed-air actuated supply, discharge switching and air pressure to each plural batching apparatus (1 span group Ws) by electromagnetic valve Vs and the adjuster Rs that is provided with on branched pipe Ps respectively.In addition in Figure 10, be sent to after be responsible for Pm branch each batching apparatus Wu on the snorkel Pu of cured device 1, be provided with electromagnetic valve Vu and fine adjustment knob Ru respectively, can each carry out the adjustment of compressed-air actuated supply, discharge switching and air pressure respectively to each coiling apparatus Wu like this.

Below, the action of cured device is described according to the 1st embodiment.See also Fig. 1 to shown in Figure 6, the compressor C of slave you is by being responsible for Pm, snorkel Pu, in the airway 61 of the cylinder 51 that is arranged on the last cured device 1 of each batching apparatus Wu, send into compressed air, this compressed air flows in the air chamber 55 through passage 59, rise by the air pressure in this air chamber 55, make that plunger 52 is pressurized, outstanding and extruding embeds cylindric cured 2 rear end face 2b on the cured support 31 of bolster 3 from the top of cylinder 51, this front end face 2a of cured 2 with by motor 21 through gears 19,18,17, rotating disc 4 crimping of 16 driving rotational, thus, cured 2 with rotating disc 4 by friction-driven.

And line Y moves between rotating disc 4 and cured 2 on one side, Yi Bian be held go up cured.At this moment, but since plunger 52 free rotary ground supportings in cylinder 51, and with cured 2 rotation of do sliding, thus in the contact part of plunger 52 with cured 2, cured 2 minimizing of can not wearing and tearing.In addition along with cured 2 consumption, though plunger 52 is projected into solid line position shown in Figure 6, this moment, the air pressure of giving in the cylinder 51 by maintenance is certain, makes where all often to keep the pressurization of plunger 52 certain, therefore, cured 2 adhesion amount is also certain.And then, owing to be crimped on the rotating disc 4 for cured 2,, make the two sides of line Y all adhere to cured so it is cured also can to replace on the surface of this rotating disc 4.

On the other hand, a compressed-air actuated part of sending in cylinder 51 air chambers 55 flow into plunger 52 inside by steam vent 53, and then, top end opening portion through this plunger 52, import in the airway 33 that between cured 2 inner peripheral surface 2C and cured bolster (being cured support 31) side, forms, and then also can import between cured 2 and the rotating disc 4 through the depressed part 41 of rotating disc 4, so just can by air often clean in the airway 33 and cured 2 with rotating disc 4 between, so can prevent that cured powder is trapped in these positions.And, in airway 33 and cured 2 with rotating disc 4 between the cured powder of blowing over discharge towards the rear side of this rotating disc 4 or the outer circumferential side of rotating disc 4 through the depressed part 41 of rotating disc 4, so can prevent at rotating disc 4 accumulation of cured powder and the change of the cured adhesion amount of the thing followed in the surperficial and depressed part 41.

On the batching apparatus Wu in automatic winder W shown in Figure 1, when because of broken string with when carrying out wiring change for bobbin B, the end of a thread of giving bobbin B side is because the attraction of relay pipe N and being controlled, after drawing from the top, import in the termination Sp process, make line feed tensioner 6 and reach upward cured device 1.At this moment, behind above-mentioned relay pipe N action interlock, sliding bar 40 as shown in Figure 5 in figure left to slip, make auxiliary section 39a be engaged in tilting member 39 on the pin 40a pull bar 38 that left connects together to swing and this tilting member 39 in figure by extrusion spring 37 make bolster 3 in figure left to slip.So the flange portion 32 of above-mentioned bolster 3 is outstanding from the depressed part 41 of rotating disc 4, push cured 2 front end face 2a, as shown in Figure 5, the cured 2 surface disengaging from rotating disc 4 under this state, is inserted into line Y between the surface of cured 2 and rotating disc 4.At this moment, cylinder 51 still is admitted to compressed air, and plunger 52 is in pressurized state, but with the wheel hub 70 that becomes one of supporting arm 65 of this cylinder 51 of supporting, left makes moving that they become one to slip in figure under the elastic force of resistance spring 76.

When by behind the line Y, in predetermined timing in the time, sliding bar 40 is when right is slided in figure, and then tilting member 39 and the pull bar 38 that becomes one with it move to right.Meanwhile, bolster 3 is owing to the elastic force effect of spring 37 is slided to right, 32 of the flange portion of this bolster 3 are embedded in the depressed part 41 of rotating disc 4, be crushed on cured 2 on the flange portion 32, by the elastic force of spring 76 right and continued extruding in figure by pressure-producing part 5, after cured support 31 moves,, begin to go up cured once again immediately with rotating disc 4 crimping.Moreover during above-mentioned cabling, tensioner 6 is by the top of sliding bar 40 and the clutch of the arm spare 6C of pressure side, with last cured device 1 the samely can timing switching.

In last cured device 1 cured 2 consumes, and needs to replenish new when cured, is undertaken by following operation.At first as shown in Figure 6, control pull bar 63, under the elastic force of resistance spring 69, will slide with the right of urceolus 60 in Fig. 6 of pull bar 63 one, so just interdicted airway 61 and passage 59, the passage 58 of airway 61 and cylinder 51 tip side is communicated with, by passage 58, compressed air flows in the air chamber 56, and left is to pressurizeing to valve body 54 in figure, make plunger 52 leave from cured 2, and enter the position of representing with two-dot chain line among Fig. 6 immediately.That is, after cured 2 consumption, even plunger 52 is in the state that bolster is a support 31 that masks, plunger 52 can be that support 31 withdraws from from bolster also.

Then, under the state of controlling pull bar 63, with supporting arm 65 by such (in conjunction with shown in Figure 2) shown in the double dot dash line among Fig. 6 rotate up lift after, under residual used up old cured 2 state, after being inserted into new cured 2 in the cured support 31, put down supporting arm 65, when hand leaves pull bar 63, this pull bar 63 reaches the elastic force that passes through spring 69 with the urceolus 60 of its one, and slide in the left side in Fig. 6, thus, the stream of switching pressurized air, after compressed air flowed into air chamber 55 from passage 59, to plunger 52 pressurizations, then these plunger 52 cured 2 of extruding began to go up cured once more.

Above-mentioned last cured device 1 is owing to be with directly cured 2 of extruding of plunger 52, thus the fixed head 85 in not needing in the past to install etc., and there is no need to carry out adjustment central task between fixed head 85 and cured, so the cured operation of packing into is extremely easy.

In last cured device 1, in order to stablize cured adhesion amount, generally take the important techniques measure to be, the diameter of rotating disc 4 is done to such an extent that the diameter than cured 2 is big as shown in the figure, when making cured 2 front end face 2a often keep smooth, make line Y carry out cabling along the surface of rotating disc 4.But in the cured device 1, because the position of rotating disc 4 is fixed, it is easy that line Y moves along rotating disc 4 of the present invention, so just there is no need also do not have what relation with adjustment critically such as fine setting cable guiding devices even save cable guiding device 77,78.But under this occasion, be preferably in the cable guiding device 77 that promising lead-in wire Y uses also is set in the cured device 1.

In addition, see also shown in the orthogonal view of cured device on Fig. 7 second embodiment of the invention, diameter by cured 2 of ratio that the diameter of rotating disc 4 is done is big, and then, as shown in Figure 7, the circumferential part 44 of rotating disc 4 is expanded into coniform or circular-arc, can reduces line Y moving resistance like this, and also can positively line Y be imported omitting under the cable guiding device situation.

Moreover in last cured device 1 employed cured 2, it is not limited to cylindric, also can be square tube shape, cylindric, flat column etc., and in addition, cured compressing member is that rotating disc 4 also is not limited to plate-like.And then, as the pressurization technical measures, except utilizing air pressure, also can adopt hydraulic pressure, oil pressure.Represent to go up cured device 1 in the foregoing description and be used in the situation of automatic winder W, but the invention is not restricted to this, also gone for the various fibre machineries of two strands of twisting machines, buncher, spinning frame etc. except automatic winder.

Seeing also Figure 12 is the approximate three-dimensional map of cured device on the present invention's the 3rd embodiment lines, Figure 13 is the vertical section front view of cured device on the present invention's the 3rd embodiment lines, Figure 14 is the exploded perspective view of the extruder member of cured device on the lines of the present invention the 3rd embodiment, Figure 15 is the sectional side view of the present invention along A among Figure 13-A line cover etc., and Figure 16 is the part enlarged side view 9 of cured device on the lines of the present invention the 3rd embodiment; Figure 17 is the stereogram of the cured support unit of solid of cured device on the present invention's the 4th embodiment lines; Figure 18 is the front view of the extruder member of cured device on the present invention's the 5th embodiment lines; Figure 19 is the front view of the extruder member of cured device on the lines of the present invention the 6th embodiment; Below describe for other embodiment of the present invention, but these embodiment do not limit the present invention, as long as be no more than subject area of the present invention, all be not subjected to the restriction of these embodiment, all according to technical solution of the present invention essence to any simple modification that above embodiment did be equal to change, all still belong to the scope of technical solution of the present invention.

See also Figure 12, shown in Figure 13, cured device is mainly by forming with the lower part on the lines among the present invention the 3rd embodiment, promptly by cured (hereinafter to be referred as " solid the is cured ") W of solid cylindraceous and with the cured interlock of solid, slightly the vertical direction clamping is moved the crimping section P of rotating part D, the cured W of extrusion solid that the rotating disc of the hold assembly of lines Y together rotates and for by lines Y, the cured W of solid is formed from the disengaging part S that rotating disc breaks away from.

At first, among Figure 12 and Figure 13 make the cured W of solid and with the cured interlock of solid, slightly the rotating part D of rotating disc rotation that moves the hold assembly of lines Y of clamping vertically is illustrated.

D1 is contained among the sleeve d2, and by bearing d3, the free rotating rotating shaft of d3 ' supporting energy, above-mentioned sleeve d2 is installed on the suitable framework f1, and the tubular support unit d4 of the cured W of support solids is installed in the top ends of rotating shaft d1 by the suitable fixed part of bolt d5 etc.In addition, by than on the rotating shaft d1 among little d6 ' of dish portion of the cured W overall diameter of solid and the wheel hub d6 " the rotating disc d6 that forms is installed at wheel hub d6 ", and then gear d7 is installed on rotating shaft d1.Minor axis d8 on framework f1 be installed with one can with the rotating shaft d1 d7 meshed gears d9 that cogs, be installed on the gear d9 pinion d9 ' again be installed in the gear d11 that framework f1 goes up on the motor d10 output shaft d10 ' and be meshed.Therefore, by CD-ROM drive motor d10, make rotating shaft d1 rotation through the gear train biographies that are installed in gear d11, pinion d9 ', gear d9 and gear d7 on the output shaft d10 ' are moving, and then the support unit d4 of the cured W of support solids that is installed on the rotating shaft d1 and rotating disc d6 are together rotated.The direction of rotation of rotating disc d6, with the contacted position of lines Y on be identical with the moving direction of lines Y.

See also Figure 12～shown in Figure 15, d6 ' is littler than the cured W diameter of the solid of rotating disc d6 for dish, below is illustrated for the device that the cured W of solid is squeezed on the dish d6 '.

On the framework f2 that be arranged in parallel with framework f1 trunnion axis f3 is installed, rotatably pivot is being adorned vertical frame f4 on the top ends of trunnion axis f3.Be provided with a helical spring f5 that can reel between flange f3 ' that forms on trunnion axis f3 top and the vertical frame f4, the two ends of this helical spring f5 are separately fixed on flange f3 ' and the vertical frame f4, by helical spring f5 vertical frame f4 being applied one is the center with trunnion axis f3, and counter-clockwise direction adds the elastic force of a rotation as illustrated in fig. 12.F6 is contained in to be subjected to helical spring f5 counter-clockwise direction on the trunnion axis f3 and to rotate the vertical frame f4 of elastic force and stop at retainer on the appropriate location, so that the cylinder part of the crimping section P that is configured on the vertical frame f4 is fixed on the position of the cured W of extrusion solid.

P1 is mounted in the urceolus on the above-mentioned vertical frame f4, and the top ends of urceolus P1 forms minor diameter part P1 ', the relative position on minor diameter part P1 ' top, and the position of 180 degree that promptly stagger is provided with two ditch P2, P2 '.Near the end of the urceolus P1 of the opposition side of minor diameter part P1 ', be provided with and connect through hole P3 in addition, the snorkel P4 that joins with the compressed air source (not shown) is installed in through hole P3.P5 by on the inner face of the perisporium P5 ' that is entrenched in urceolus P1 minor diameter part P1 ' rotationally and sidewall P5 " the cover P5 that forms, the sidewall P5 of this cover P5 " by suitable fixtures such as screw P7, P7 ' be installed with the internal diameter of urceolus P1 slightly with external diameter and be entrenched in the plectane P6 in week in the urceolus P1.

On the perisporium P5 ' of cover P5, on the correspondence position of two ditch P2, the P2 ' of the minor diameter part P1 ' that forms above-mentioned urceolus P1, be through with through hole P8, P8 '.Equally, on the perisporium that is installed on the plectane P6 on the cover P5 with cover P5 perisporium P5 ' on relative being provided with of through hole P8, P8 ' that connect to ground be communicated with ditch P9, P9 '.P10 has than the little cylindrical portion P10 ' of the internal diameter of urceolus P1 and is contained in cylinder part in the urceolus P1, and the end opening of this cylinder part P10, the other end form the P10 with external diameter bigger, slightly littler than urceolus P1 internal diameter than cylindrical portion P10 ' diameter ".P11 is the flange P10 at cylinder part P10 " the steam vent of about central part.

Cylinder part P10 is entrenched in after urceolus P1 on the vertical frame f4 goes up, at the minor diameter part P1 ' of urceolus P1, the cover P5 that plectane P6 is housed hermetic is entrenched in by the periphery of the interior week of the perisporium P5 ' of the top ends of the minor diameter part P1 ' of urceolus P1 and cover P5 and plectane P6 and among the annular recessed portion P12 that forms.Then, being used in vertical frame f4 goes up with suitably fixture installations such as screws, and have the sidewall P5 of vertical component effect P13 ' extruding cover P5 of the stripper plate P13 that slightly is L word shape of the springiness inner face of ", so that make at sidewall P5 " has been installed cover P5 and has been unlikely from urceolus P1 and extracts.Moreover, be equipped with plectane P6 cover P5 chimeric side and oppose to be formed with the protruding ring P1 that joins with the cylindrical portion P10 ' air-tightness of cylinder part P10 on interior all ends of urceolus P1 of side ".

Below, mainly see also Figure 13～shown in Figure 15, the action of the above-mentioned crimping section P that assembles is described.

At first, shown in Figure 15 (a) like that, make cover P5 rotation, make to connect through hole P8, the P8 ' and the connection ditch P9, the P9 ' that on plectane P6 form relative of the perisporium P5 ' of cover P5 with through hole P8, P8 ', and and the minor diameter part P1 ' of urceolus P1 go up the ditch P2, the P2 ' that form and be not communicated with.

Then by through hole P3 compressed air is sent to cylindrical portion P10 ', flange P10 by cylinder part P10 from snorkel P4 " and the air chamber C1 that forms of the inwall of urceolus P1.Can make the left of cylinder part P10 in Figure 13 to applying a thrust owing to send into the compressed air of air chamber C1, send into compressed air among the air chamber C1 from the flange P10 of cylinder part P10 " and the inwall of urceolus P1 between the gap between enter flange P10 by cylinder part P10 ", the air chamber C2 that forms of the inwall of the sidewall of plectane P6 and urceolus P1, the compressed air that enters air chamber C2 is to the cured W direction of solid, and promptly right pushes cylinder part P10 among Figure 13.Here because the flange P10 of air chamber C2 side " area than the flange P10 of air chamber C1 side " area big, its result is pressed to right with cylinder part P10, therefore, the openend P14 of cylinder part P10 extruding be installed in support unit d4 go up the cured W of solid in the side W of cylinder part P10 one side ", so that can make the cured W of solid in the side W ' of rotating disc d6 one side the d6 ' of dish portion with the pressure contact rotating disc d6 of regulation.

As mentioned above, be installed on the rotating shaft d1 that rotates by CD-ROM drive motor d10, process gear train, and the side W ' of the cured W of solid that together rotates with rotating disc d6, the compressed air by air chamber C2 is contacting with the d6 ' of dish portion of rotating disc d6 with the pressure of regulation along the openend P14 of the cylinder part P10 of the cured W direction extruding of solid.So the lines Y that is clamped between the d6 ' of dish portion of the side W ' of the cured W of solid and rotating disc d6 is attached cured.In addition, lines Y inserts to lead in cable guiding device f9, f10, and this cable guiding device f9, f10 are mounted in along on horizontal frame f7, the f8 on cured W of solid and the rotating disc d6 above-below direction framework f2.This cable guiding device f9, f10 also can omit.

Below see also Figure 12, Figure 13 and shown in Figure 15, the replacing operation of cured W of the solid that consumed and the cured W of untapped solid is described.

When the cured W of solid consumes, stop the driving of motor d10, the rotation of rotating disc d6 and the cured W of solid is forcibly prevented in the rotation of a d1 that stops the rotation.Then shown in Figure 15 (b), swivelling cover parts P5, make through hole P8, the P8 ' run through cover P5 perisporium P5 ' and plectane P6 go up the connection ditch P9, the P9 ' that form and go up the ditch P2, the P2 ' that form with the minor diameter part P1 ' of urceolus P1 and be communicated with that promptly air chamber C2 passes through connection ditch P9, P9 ', ditch P2, P2 ' and through hole P8, P8 ' and is communicated with atmosphere.The result, by send into the compressed air of air chamber C1 through through hole P3 from snorkel P4, make the flange P10 of cylinder part P10 " direction extruding left; therefore; cylinder part P10 then as shown in figure 13 left direction move, up to the flange P10 of cylinder part P10 " with cover P5 sidewall P5 " the plectane P6 of inner face installation contact till.

Then, extract when consuming the cured W of solid shorten at support unit d4 from the cured W of support solids, for the crimping section P that constitutes by above-mentioned urceolus P1, cover P5, plate P6, cylinder part P10 etc., in order not hinder the operation of extracting of the cured W of solid, can will the vertical frame f4 of crimping section P be housed, with trunnion axis f3 is the center, is revolting the elastic force of helical spring f5 and rotates.Then, the cured W of solid that consumption is shortened extracts from support unit d4, simultaneously the cured W of untapped solid is inserted on the support unit d4.

After being inserted in the cured W of original solid on the support unit d4, rotate because of the elastic force effect of coiling helical spring f5 makes vertical frame f4, make the openend P14 of the cylinder part P10 in the extruding sub-assembly turn back to extruding and be inserted in the cured W of untapped solid side W on the support unit d4 " the position on.Then, as mentioned above, swivelling cover 5, the minor diameter part P1 ' that makes at urceolus P1 goes up ditch P2, the P2 ' of formation because of the outer peripheral face of plectane P6 and the inner peripheral surface locking of covering the perisporium P5 ' of P5, the passage of air chamber C2 and atmosphere is cut off like this, cylinder part P10 moves towards the cured W direction of new solid that is inserted on the support unit d4, firmly is inserted in the side W of the new cured W of solid on the support unit d4 with the openend P14 extruding of cylinder part P10 ".

Below see also Figure 12, Figure 13 and shown in Figure 16, illustrate in order to pass through line Y, how with the isolated separator S of the d6 ' of dish portion of the cured W of solid from rotating disc d6.

Moreover, when disposing the tension adjustment parts of a pair of tension washer, when line Y passes through, will make of the tension washer disengaging of a side tension washer from the opposing party, forming between packing ring can be by the gap of line, so following for the release unit S that together breaks away from the cured W of solid is described.

At first see also Figure 12 and shown in Figure 13, T describes to the tension adjustment parts.

T1 is mounted in the tension washer on the said motor d10 output shaft d10 ', carries out the brute force rotation by motor 10.T2 has the tension washer that can be entrenched in the sleeve t4 on the minor axis t3 with rotating freely, and minor axis t3 is contained on the rotary part S1 described later, and tension washer t2 can forcibly rotate with tension washer t1 by motor d10 and contact, and rotation.The lines Y (not shown) that moves in vertical direction from the summary of giving the bobbin rollback is clamped between tension washer t1 and the mobile tension washer t2, after being subjected to certain force of strain, inserted and led on the cable guiding device f10, then be clamped between the dish d6 ' of the cured W of above-mentioned solid side W ' and rotating disc d6 and by last cured, then being transplanted on through cable guiding device f9 not have the packing direction represented among the figure.

Above-mentioned rotatable parts S1 as shown in Figure 16, is by the dull and stereotyped S2 that has disposed mobile tension washer t2, with have bigger slightly and leave into a pair of fork spare S3 ', S3 than the rotating disc d6 dish d6 ' of portion external diameter " the tree binary lorm spare S3 that constitutes of Y-piece form.In addition, the cartridge unit S4 that can be embedded in vertical axis f13 is installed on rotatable parts S1, the suitable framework f11 that above-mentioned vertical axis f13 is mounted in cured device on the lines etc. go up and the parts of bearings f12, the f12 ' that keep at a certain distance away on.Therefore, rotatable parts S1 can rotate for axle by vertical axis f13.S5 be with the tree binary lorm spare S3 of rotatable parts S1 to breaking away from the cured W direction of solid, promptly in Figure 16 from the paper surface in paper direction give with elastic force and be configured in coiling helical spring around the vertical axis f13.In addition, make the mobile tension washer t2 on the dull and stereotyped S2 be configured in rotatable parts S1 contact with tension washer t1 on being installed in motor d10 output shaft d10 ' by this coiling helical spring S5 with the contact pressure of regulation.In addition, S6 is clamping cylindrical portion S4, the outstanding cooperation tabling piece that is arranged on the rotatable parts S1 of dull and stereotyped S2 opposition side.

Below, be illustrated for the action of the disengaging parts S with said structure.

Generally be clamped between the d6 ' of dish portion of the side W ' of the cured W of solid and rotating disc d6 at the lines Y that vertical direction moves, when being in cured state, because the effect of above-mentioned coiling helical spring S5, the fork S3 ' of the tree binary lorm spare S3 of rotatable parts S1 among the rotatable parts S1, S3 " as shown in figure 13; after leaving from the cured W of solid; stop near the position of readiness of the framework f2 side d6 ' of dish portion of rotating disc d6; in addition; the reel elastic force of helical spring S5 of mobile tension washer t2 owing to be subjected to; contact with tension washer t1 with suitable contact pressure, clamp lines Y with mobile tension washer t2 and tension washer t1.

During cabling, Y-piece of being arranged on piston rod top (not shown) etc. is assemblied on the tabling piece S6 of rotatable parts S1, piston rod is moved, making rotatable parts S1 is the center with vertical axis f13, the paper in Figure 16 near own on one side direction, be that left among Figure 13 is to rotation.Like this because the rotation of rotatable parts S1, Y-piece S3 ', the S3 of the tree binary lorm spare S3 of rotatable parts S1 " surpass the d6 ' of dish portion of rotating disc d6; and the left in Figure 13 is to moving; after the side W ' of the cured W of solid contact; the cured W of solid is moved to the left side of support unit d4, and formation can be passed through the setting gap of line between the d6 ' of dish portion of the side of the cured W of solid W ' and rolling disc d6 like this.Simultaneously and since be equiped with mobile tension washer t2 rotatable parts S1 dull and stereotyped S2 also left direction move, so mobile tension washer t2 and tension washer t1 break away from, between tension washer t1 and mobile tension washer t2, form the setting gap that can pass through line Y.

After line Y, to remove rotatable parts S1 the Y-piece of tabling piece S6 is cooperated, the elastic force by coiling helical spring S5 rotates the right of rotatable parts S1 in Figure 13.Because tension washer t1 is subjected to a kind of effect of retainer, so when mobile tension washer t2 contacted with tension washer t1, the rotation of rotatable parts S1 had also just stopped.When tension adjustment parts T is not housed, for the dull and stereotyped S2 that saves rotatable parts S1 or stop excessively rotating of rotatable parts S1, can on framework f2 etc., suitable retainer be set to right.

As shown in figure 14, the support unit d4 of the cured W of support solids is a prism that slightly becomes octagonal column, the cured W of solid that therefore will have a cylindrical hollow portion is inserted in support unit d4 when going up, and then forms gap d 12 (as shown in figure 13) between the hollow bulb inner surface of the outer peripheral face of support unit d4 and the cured W of solid.This gap d 12 forms one from air chamber C2, by being applied in the flange P10 of cylinder part P10 " steam vent P11 form to flow into air flow circuit in the cylinder part P10; air flow enters the spatial portion C3 that forms between the recess d14 of the side W ' of the cured W of solid and rotating disc d6 by this gap d12, flows out from the through hole d13 that is applied on the rotating disc d6 appropriate location.Effect by this air flow can prevent that cured powder is attached on support unit d4 and the rotating disc d6.

See also Figure 17 and be the cured support unit stereogram of solid in the cured device on the present invention's the 4th embodiment lines, embodiment among Figure 17 has illustrated that the hollow bulb W1 of the cured W of solid is not cylindric, but a prism-shaped shape, the support unit d4 of simultaneously corresponding with the prism-shaped hollow bulb W1 cured W of support solids also makes prism-shaped.The prism that hollow bulb W1 by the cured W of solid and support unit d4 form can prevent to force to skid between the support unit d4 that rotates and the cured W of solid, and can go up cured on lines Y equably.In addition, d4 ' is the groove that extends lengthwise into rotating disc d6 recess d14 along support unit d4, forms an air flow that can enter the spatial portion C3 of above-mentioned rotating disc d6 recess d14 formation by such groove d4 '.

Below see also shown in Figure 180ly, the extruder member P of cured device on the lines is described among the 5th embodiment of the present invention.

F14 is mounted in the supporting arm on the said frame f2, is provided with a f14 ' on supporting arm f14, and the pressure ram 15 that slightly is in the shape of the letter V is that pivot can freely rotate with above-mentioned axle.Form a side W with the cured W of solid in pressure ram P15 one side's end " contacted press section P15 ', the opposing party's end is installed with a suitably weight P16 of adjusting position.Therefore, pressure ram P15 is owing to the effect of weight P16, and in Figure 18, f14 ' is rotated for middle mind-set counter-clockwise direction with axle, so the cured W of solid can be squeezed on the d6 ' of dish portion of rotating disc d6.In addition owing to can be that the center moves in the direction of the clock with axle f14 with pressure ram P15, and with the side W of press section P15 ' from the cured W of solid " back off; so just can the cured W of the solid that consumption shortens be pulled up from support unit d4, cured W is inserted on the support unit d4 with untapped solid.

Below, see also shown in Figure 19ly, the crimping section P of cured device on the 6th embodiment lines of the present invention is described.

P17 is mounted in that supporting arm f14 goes up and is the pressure ram that slightly is ヘ word shape that pivot freely rotates with axle f14 ', the free end P17 ' of pressure ram P17 and the side W of the cured W of solid " contacting.P18 is configured in a f14 ' coiling helical spring on every side, and making pressure ram P17 by coiling helical spring P18 is the center with axle f14 ', is subjected to counterclockwise elastic force as shown in Figure 19 and rotates, and the cured W of solid can be squeezed on the d6 ' of dish portion of rotating disc d6.Can be that the center moves in the direction of the clock with axle f14 ' also in addition with pressure ram P17, with the side W of free end P17 ' from the cured W of solid " back off; thus the cured W of solid that consumption can be shortened takes off from support unit d4, and cured W is inserted on the support unit d4 untapped solid.

Moreover, in case of necessity, the press section P15 ' of above-mentioned pressure ram P15 and the free end P17 ' of pressure ram P17 also can be able to be made the y-bend shape.Can replace coiling helical spring P18 that compressor arm P17 is applied elastic force with helical spring in addition.

Below, the action effect of the 3rd embodiment of cured device on the lines of the present invention is illustrated.

Because the cured W of solid and with hold assembly that mobile lines Y is clamped in the summary of the cured W co-operating of solid in vertical direction be that rotating disc d6 together forcibly is driven in rotation, slide so can prevent to produce between cured W of solid and rotating disc d6, the cured adhesion amount that so just can guarantee to be coated on the lines Y keeps certain.

Because extruder member P can back off near the side of the cured W of solid easily and promptly, so can shorten the swap time of the cured W of solid, has improved the replacing operating efficiency of the cured W of solid.

Owing to utilize air pressure that the cured W of solid is squeezed on the rotating disc d6, so just no matter the consumption degree of the cured W of solid how, all can often keep certain contact pressure with the cured W of solid to rotating disc d6, therefore, the cured adhesion amount on the lines Y can keep certain.In addition because the pipe arrangement that comes from the compressed air supply source is common the connection, thus can be at the same time, under the identical conditions with a plurality of sons that split of valve regulated, can reduce inhomogeneous between the son of splitting like this, the while can be saved respectively split operation between son of adjusting.

By swivelling cover P5 rotating operation, the compressed air that acts on the cylinder part P10 of the cured W of extrusion solid is discharged to atmosphere, can promptly cylinder part P10 be broken away from from the cured W of solid like this, so the rotary manipulation by extruder member P only, cured W of solid that just can consume and the replacing of the cured W of untapped solid.

Between the inner face of the hollow bulb of the outer peripheral face of the support unit d4 of the cured W of support solids and the cured W of solid, form gap d 12, by this gap d12, can with come from air chamber C2, flow into the spatial portion C3 of formation between the d6 ' of dish portion that air flow in the cylinder part P10 supplies to the side W ' of the cured W of solid and rotating disc d6 by air tap P11, discharge from spatial portion C3 again simultaneously, so can prevent that cured powder is attached on support unit d4 and the rotating disc d6 etc.

Only, just the cured W of solid can be broken away from from rotating disc d6, so between cured W of solid and rotating disc d6, forming one rapidly and exactly can be by the gap of line Y by breaking away from the operation of parts S.In addition owing on the rotatable parts S1 that breaks away from part S, dispose mobile tension washer t2, can be by the operation that breaks away from part S in the gap that forms simultaneously between tension washer t1 and the mobile tension washer t2 and between cured W of solid and the rotating disc d6 by line.

Cured device of the present invention, owing to have above-mentioned structure, so can rise Effect to following record.

The described cured dress of technical solution of the present invention (referring to claim 1) record Put, owing to be that pressue device with fluid pressure is squeezed in cured body compressing member with cured body On, while between these cured bodies and cured body compressing member, can implement to clamp line Carry out upper cured, so no matter what, the tension force of cured thickness, line of cured raw material is big Little, can keep certain cured adhesion amount. Therefore respectively be coated with between the cured unit not Can produce inhomogeneous phenomenon. Even and then when increasing pressure to cured, also can protect Hold cured end face and rotating disc crimping, not can with cured with the ring plate shape cut fallen Increase cured adhesion amount under the state, so also passable for the line of thick number capable number Positively go up cured. And can save an in the past needed fixing cured band The plate of pin, though cured being consumed, also can be overlapping additional on the cured body of attenuation New product, thin curedly just be consumed soon, and so that cured can all be consumed use Fall. In addition, by one or two among cured and the cured compressing member is advanced Row rotation is attached on the cured compacting part cured transfer, so can be from line Both sides are carried out upper cured.

The fibre machinery of technical solution of the present invention (referring to claim 7) record, by In the upper cured device that the aforementioned techniques scheme is housed in each unit, and for whenever The pressures partially of the upper cured device of individual plurality of elements or each unit carries out supply flow Body and switching are discharged, and can carry out the adjusting of fluid pressure, so can hold very much Change places and carry out the adjustment of each plurality of elements or each cured adhesion amount in unit.

The upper cured device (referring to claim 2) of the present invention's record is owing to can make Cured and the cured block part of supporting are together mobile, so such as the automatic winder wiring The time, between cured and cured compacting part by line in, can stablize and fast Carry out breaking away from from cured compacting part cured fastly, and compress again contact On-off action. Can make like this that non-cohesive on the line to have cured part to be limited in minimum Limit.

The upper cured device (referring to claim 3) of the present invention's record adds owing to use The compressed air of pressure device, can make between cured and the cured compacting part and cured and Often be in the cleaning state between the cured support unit, so can prevent these spaces The delay of cured powder is arranged, the condition on drawing lines and cured surface can be kept certain.

Cured device (referring to claim 5) on the lines of the present invention's record is because solid Body cured and with the hold assembly of the cured co-operating of solid and clamping lines together by by force System ground rotary actuation, thus can prevent the slip of the cured and rotating disc of solid, like this Can make the cured adhesion amount on the lines keep certain.

Cured device (referring to claim 5) on the lines of the present invention's record is by squeezing Pressure device is squeezed on the hold assembly solid is cured with certain pressure, so not The cured consumption degree of pipe solid how, and the cured contact to hold assembly of solid all Can keep certain, can make so the cured adhesion amount on the lines keep certain.

Claims (7)

1. go up cured device for one kind, it is characterized in that having cured, and can clamp line between this cured and cured compressing member being provided with this cured subtend and by the parts of cured compressing member of fluid pressure extruding to above-mentioned cured pressurization.

2. cured device according to claim 1, it is characterized in that between described cured and cured compressing member, the cured support unit of slip that can open and close being set, support unit can move in the direction of cured switching, be provided with on the cured support unit this support unit when the cured direction of opening moves can with cured chimeric fitting portion.

3. according to claim 1ly cured device, the fluid that it is characterized in that described pressurization is an air, and be provided with compressed air imported between cured and the cured supporting member and cured and cured compressing member between compressed air import parts.

4. cured device on the lines, it is characterized in that having solid wax, with the cured co-operating of solid, and slightly the vertical direction clamping move the hold assembly of lines, drive the rotary part of rotation solid wax forcibly and with the cured extruder member that is squeezed on the hold assembly of solid.

5. lines waxing attachment according to claim 4 is characterized in that described extruder member is squeezed in solid wax on the hold assembly with slightly certain pressure, and irrelevant with the amount of solid wax.

6. lines waxing attachment according to claim 5 is characterized in that described solid wax and hold assembly rotate synchronously.

7. has the fibre machinery of going up cured device, when it is characterized in that being installed in cured device as claimed in claim 1 on each unit with a plurality of cabling cell fiber machineries, to carry out the switching part that fluid is supplied with and discharged to cured device pressures partially on each, the voltage regulation part of regulating above-mentioned fluid pressure is installed on each plurality of elements or each unit.

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