CN2305090Y - Device for rotatively delivering strip article - Google Patents

Abstract

The utility model provides a device for rotatively delivering strip articles, which has smooth and good rotatively delivering operability and is used for easily removing the strip articles left in a holding appliance and reducing the number of combined members to make a structure simple and combination and assembly easy. The utility model is composed of a front and a back barrels capable of forming a barrel-shaped delivering appliance by connecting with each other, and a drive rod which is arranged in the holding appliance for delivering the strip articles. The front barrel and the back barrel can be rotated correspondingly. The inner of the back segment barrel is provided with a helical guide mechanism. A rotation stopping member is arranged in the front segment barrel. The drive rod is provided with a clamping part. The front end of the drive rod is also provided with a movable sleeve barrel and a clamping and stopping part is arranged in a front segment barrel.

Description

A kind of rotary tool for supplying filaments

The utility model is about rotary tool for supplying filaments, especially refer to that a kind of rotary manipulation mode of borrowing for example sends in container: strip cosmetics such as lipstick, eye shadow cream, eyeliner, mascara, or strip erasing rubber, crayon, coloured pencil with bars such as pen cores for the rotary tool for supplying filaments that uses.

The existing coloured pencil pen core as shown in figure 11 of tool for supplying filaments is in the past sent apparatus.This apparatus system is by urceolus 11, and front end is provided with the rotary manipulation member 12 of helical form steel wire 13 and is located at helical form steel wire 13 interior pen cores (bar) and keeps tool 14 to constitute.Rotary manipulation member 12, helical form steel wire 13 and the 14 formation rotations of pen core maintenance tool are sent core mechanism and rotatably are embedded in urceolus 11.Again, symbol 15 is the precentrum that is screwed on the formed negative thread 11a of front end inner peripheral surface of urceolus 11 among the figure.

This kind coloured pencil pen core is sent apparatus, when with rotary manipulation member 12 when deciding direction is rotated, helical form steel wire 13 i.e. rotation together thereupon, yet embed spline projection 14a that pen cores in this helical form steel wire 13 keep tool 14 because of embedding in the formed vertically guide channel 11b of urceolus 11 inwalls, and can be with steel wire 13 rotations.

Three evagination fastener 14b that this pen core keeps tool 14 to have snap in the some of helical form steel wire 13 just, so by screw drives and move along the axis direction of helical form steel wire, as a result, the pen core that inserts this front end that keeps tool 14 promptly slowly spues from the front opening of the precentrum 15 of urceolus 11.If when the direction of rotary manipulation member 12 anti-aforementioned operation was rotated, pen core promptly moved backward, but satisfied in the retraction urceolus 11.

Send the structure of apparatus according to aforesaid known coloured pencil pen core, must form respectively at the internal perisporium of urceolus 11 for the axial channel 11b of the spline that keeps tool 14 with projection 14a engaging, screw togather fixing negative thread 11a and chimeric so that urceolus 11 is rotated the annular groove 11c of motion for precentrum 15 for the prominent bar 12a of the ring-type of rotary manipulation member 12, so that construct comparatively also trouble of complexity and assembling work, in addition because of using helical form steel wire 13 as spiral component, error variation etc. takes place in the pitch of spiral easily, influences very much the operation of sending of bar.

In addition, become out of use residual section and need more renew pen core the time when bar consumption, submerge to keep having in the tool 14 and be difficult for the shortcomings of taking out owing to residual section.Especially in keeping tool 14 as when keeping the strip cosmetics of softer such as lipstick, desire will residue in residual section of keeping in the tool 14 and dispose difficult especially.

The purpose of this utility model is intended to get rid of the defective of above-mentioned known rotary tool for supplying filaments, provide a kind of bar to send operating characteristics very slick and sly smooth and easy, and will remain in the residual section eliminating of bar that keeps in the tool easily, simultaneously, construct simplyr, make and assembling all is easier to and can improves the rotary tool for supplying filaments of commodity value.

For achieving the above object, according to the utility model, the leading portion tube and the back segment tube system that constitute the apparatus cylindrical shell connect to and can rotate relatively, the inside of front and back section tube is provided with the drive member in order to keep bar and it can be sent, be formed with spiral-guide portion week in the front portion of back segment tube, be installed with the spline member in the leading portion tube in spiral-guide portion the place ahead, the front portion of drive member has the holding section in addition, and this drive member is that the holding section is sticked in above-mentioned spiral-guide portion and borrows above-mentioned spline member and be locked into and can not rotate and can only move axially whereby.

Have again, press the utility model, the leading portion tube and the back segment tube system that constitute cylindrical shell connect to and can rotate relatively, the inside of front and back section tube is provided with the drive rod in order to keep bar and it can be sent, be formed with spiral-guide portion week in the front portion of back segment tube, be installed with the spline member in the leading portion tube in spiral-guide portion the place ahead, drive rod has and can be sticked in above-mentioned spiral-guide portion and the above-mentioned spline member of mat and be locked into that can not rotate can only axially movable holding section in addition, the front portion of this drive member is provided with the moveable sleeve again, and be provided with in the inside of above-mentioned leading portion tube and be used for card and end the fastener of quill, and drive rod ties up to quill inside, state lower edge that quill temporarily is limited to the leading portion tube and advances or retreat.

Below describe in detail with regard to the embodiment conjunction with figs. of rotary tool for supplying filaments of the present utility model now:

Fig. 1 represents the longitudinal section of the state of rotary tool for supplying filaments in bar income pipe of the utility model one embodiment;

Fig. 2 represents the amplification sectional elevation cut open along the A-A line of Fig. 1;

The amplification longitudinal section of the leading section structure of the back segment pipe of Fig. 3 presentation graphs 1;

The leading section of the back segment pipe of Fig. 4 presentation graphs 3 is the amplification bottom view that launches shape;

The rotary tool for supplying filaments of Fig. 5 presentation graphs 1 contains the partial, longitudinal cross-sectional of the available state of bar;

Contain in Fig. 6 presentation graphs 5 and use to the partial, longitudinal cross-sectional of the tool for supplying filaments of the shortest bar;

The partial, longitudinal cross-sectional of the state after Fig. 7 represents bar among Fig. 5 to be discharged;

The amplification front elevation of the quill in Fig. 8 presentation graphs 5;

The longitudinal section of the variation of Fig. 9 presentation graphs 5;

The longitudinal section of another variation of Figure 10 presentation graphs 5;

Figure 11 represents the cutaway view of rotary tool for supplying filaments in the past.

Fig. 1 represents the longitudinal section of rotary tool for supplying filaments one embodiment of the utility model, and the expendable article that hold in the apparatus are bars such as eyeliner.

Among Fig. 1, apparatus cylindrical shell system is made of leading portion tube 1 and 2 in back segment tube rotatably linking to each other for this leading portion tube 1, and being provided with in the cylindrical shell can axially movable drive rod 3 as drive member in order to what send bar.The front end of leading portion tube 1 forms the tapered chamfered section 1a of external diameter, the rear end then form can with the chimeric thinner wall section 1b of back segment tube 2 relative rotations, and the front end internal perisporium of chamfered section 1a forms the heavy wall front end guidance part 1c that axially passes in and out in order to certain guiding bar.

Formation reduced diameter in the front portion of back segment tube 2 forms thinner wall section 2a so that insert chimeric for leading portion tube 1 as can be seen from Figure 3.The thinner wall section 2a of this back segment tube 2 is formed with the circular groove 2f that supplies circular groove 2e that below the O ring of describing 6 embedded and the chimeric raised line 1d (see figure 1) that supplies leading portion tube 1 rotatably to embed respectively from the place ahead.

And for example shown in Figure 1, the rank 1f of portion is located in being provided with in interior week of leading portion tube 1, and spline member 4 is pressed into from the rear end of leading portion tube 1 to propping up the above-mentioned rank 1f of portion and fixes.The engaging protrusion 3a of drive rod 3 system can be embedded in the multiple tracks engaging ditch 4a that the internal perisporium at this spline member 4 forms vertically as shown in Figure 2 with moving axially.

In more detail, the amplification drawing in side sectional elevation of Fig. 2 for cutting open along the A-A line of Fig. 1, the interior perimembranous of spline member 4 is formed with four roads and axially engages ditch 4a, the road number of engaging ditch 4a original with drive rod 3 on identical the getting final product of columns (present embodiment be 2 be listed as) of set engaging protrusion 3a, convenience when only considering drive member 3 with 4 assemblings of spline member is advisable more than establishing four roads as shown in the figure.

Again, back segment tube 2 is as shown in Figures 3 and 4, its rear end is to be formed with the bottom, the front end of back segment tube 2 then be formed with the 2b of spiral-guide portion that constituted by a pair of semicircle cylindrical shell each with the 2c of hinge portion be pivot point to the left and right two direction turn-ofves be state as Fig. 3 dotted line and Fig. 4.The inner peripheral surface of the 2b of spiral-guide portion is formed with helical protrusion bar 2d, constitute the semicircle cylindrical shell 2bb that can be when moulding will link to each other by the 2c of hinge portion whereby, 2bb launches the back respectively to cut apart mold forming, and needn't adopt force the moulding of the withdrawing demoulding or reduce the moulding of the mould heart rotating stripping demoulding that penetrates number of times for moulding helical protrusion bar 2d, can enhance productivity then and lower fraction defective.

Moreover, the leading section periphery of drive rod 3 has single locking protrusion 3b, the rear portion periphery of drive rod 3a then is provided with uniformly-spaced most engaging protrusion 3a of configuration of two row, these engaging protrusion 3a will be sticked in the rotary manipulation of back segment pipe 2 as the helical protrusion bar 2c of the 2b of spiral-guide portion of spiral-guide mechanism and by outside its guiding, also be sticked in the engaging ditch 4a that is pressed into the spline member 4 that is fixed on leading portion pipe 1.

Again, chimericly on the locking protrusion 3b of the place ahead of drive rod 3 fix the quill 5 that a center is formed with axial groove 5a, specifically, two places apart from forward and backward two ora terminalis in the axial groove 5a of this quill 5 are formed with anterior stop hole 5b and rear portion stop hole 5c, so that quill 5 can point to point apart from activity freely, and as described later, forwardly move between stop hole 5b and the rear portion stop hole 5c and the rear end that remains on the bar in the quill 5 can be released and the final residual section can be ejected then by the locking protrusion 3b of drive rod 3.

Again, be embedded with O ring 6 between the circular groove 2e of back segment tube 2 and the leading portion tube 1, whereby O ring and make and obtain to have the rotary manipulation performance of feeling of high class between leading portion tube 1 and the back segment tube 2 and approximately take place to become flexible.

In addition, the head 3c of the rearward end of drive rod 3 formation wide diameter portion comes off from the 2b of spiral-guide portion to prevent drive rod 3.When the 2b of spiral-guide portion forms the complete circle cylindrical body of the Splittable that is different from Fig. 4, for making assembling easily, this head 3c forms rearward that diameter dwindles gradually, inwardly form simultaneously from the top, rear end can make head 3c radial contraction axially cut apart groove 3d, so, when assembling, head 3c is inserted in the 2b of spiral-guide portion easily.

Below, being the formation of the rotary tool for supplying filaments that is easier to understand the foregoing description, the spy is described as follows with regard to its assembling process again:

At first, O be encircled 6 and be inserted in the circular groove 2e of back segment tube 2, then with the 2b of spiral-guide portion of back segment tube 2 at two semicircular cylinder 2bb, the head 3c from drive rod 3 under the state that 2bb launches is inserted in and makes drive rod 3 to insert in the back segment tubes 2.When if the 2b of spiral-guide portion promptly formed complete cylinder-like body originally, since the head 3c of drive rod 3 form as shown in the figure front end tiny and backward gradually hole enlargement be formed with from the rear end simultaneously and axially cut apart groove 3d, therefore, its head 3c inserts the tubular spiral-guide 2b of portion easily, pushes in the back segment tube 2 while drive rod 3 can be rotated after the insertion.

Secondly, after the locking protrusion 3b that spline member 4 is aligned drive rod 3 leading sections of back segment cartridge module with engaging ditch 4a was inserted in, the leading section that again quill 5 is inserted in drive rod 3 snapped in till the locking protrusion 3b of drive rod 3 up to the rear portion of quill 5 stop hole 5c.Subsequently, the back segment cartridge module is inserted from the rear of leading portion tube 1, and give being pressed into and prop up the location rank 1f of portion and till locating up to spline member 4.At last, bar being inserted into its rear end from the front end opening of leading portion tube 1 enters in the front opening of quill 5 and promptly finishes assembling.

Below, just assembling the action of finishing rotary tool for supplying filaments as above again is illustrated: when desire uses this to send apparatus, promptly desire is in the rear end of drive rod 3 shown in Figure 1 is contained in back segment tube 2 fully and bar is also sent bar under the state in the retraction leading portion tube 1 one section during for use, can catch leading portion tube 1 on the other hand and another hand grip back segment tube 2 for leading portion tube 1 rotation, then the 2b of spiral-guide portion that forms one with back segment tube 2 also rotates.At this moment, though the engaging protrusion 3a of drive rod 3 has in the spiral goove between the helical protrusion bar 2d that partly is embedded in the 2b of spiral-guide portion, the part engaging protrusion 3a in the place ahead of drive rod 3 is sticked in the engaging ditch 4a that forces to be pressed into the spline member 4 that is fixed on leading portion tube 1 and can't rotates.

As a result, the bar that has only drive rod 3 will be installed on the quill 5 in drive rod 3 the place aheads along engaging ditch 4a axial advancement is sent from the front opening of leading portion tube 2, becomes upstate then.When the bar that will stretch out with complete desire was taken in the tube, as long as with the rightabout rotation of back segment tube 2 according to aforesaid operations, drive rod 3 promptly moved in the opposite direction and bar is retracted in the tube.

When bar needs the replacing new product because of use is consumed to unbearably usefulness again, should earlier residual section of residuing in quill 5 be discharged the new bar that can change the outfit.For this reason, can rotate back segment tube 2 continuously so that drive rod 3 advances always according to the rotary manipulation direction of sending bar, the card in week ends recess 1e and (see figure 6) after stopping in the expansion section 5d of the front end of quill 5 props up the front end of leading portion tube 1, drive rod 3 still can move on, so the stop hole 5b of portion moved to rear portion stop hole 5c by cutting apart groove 5a before the locking protrusion 3b of drive rod 3 front portions promptly squeezed and opens quill 5, drive rod 3 promptly gos deep into quill 5 inside and residual section of bar is ejected forward.

Now the discharging operation with bar cooperates Fig. 5 to Fig. 7 to be described in detail as follows:

The shape of tapering 1a can adopt all suitable distortion before the tube of leading portion shown in the figure, and therefore, illustrated shape is slightly different with that shown in Figure 1.All represent the drawing of the leading section of the rotary tool for supplying filaments that constitutes according to previous embodiment among these figure, show that the utility model can be with residual section mechanism that discharges really of bar.

The bar of Fig. 5 and Fig. 6 becomes than that shown in Figure 1 weak point much after using consumption.Among the figure, the front portion of the drive rod 3 in the leading portion pipe 1 is formed with from the locking protrusion 3b of front end at a distance of a distance.If the card of quill 5 and leading portion tube 1 is ended recess 1e, the anterior stop hole 5b of the locking protrusion 3b of drive rod 3 and quill 5, and each card of the locking protrusion 3b of drive rod 3 and the rear portion stop hole 5c of quill 5 only intensity be made as α, β, γ, then three's relation should be set at β＜α＜γ.

In other words, quill 5 is can endwisely slip on the locking protrusion 3b of the drive rod 3 that is nested in bar freely, more specifically say, quill 5 upper edge entire axial length are formed with cuts apart groove 5a, and this cuts apart and leaves set a distance place, two ends on the groove 5a and be provided with two stop hole 5b, 5c, front end at quill 5 is formed with expansion section 5d in addition, the card that the leading section inboard of leading portion tube 1 is formed with corresponding to this expansion section 5d ends recess 1e, and utilizes these to constitute to invest the function that the bar expelling tube is outer.

At first, show that in Fig. 5 bar is quite short because of use becomes, but still can bar be sent for the state that uses by means of rotary manipulation.At this moment, the locking protrusion 3b of drive rod 3 is limited in the rear portion stop hole 5c of quill 5, and the front end expansion section 5d of the quill 5 anterior inboard card that leaves leading portion tube 1 ends the position of recess 1e one suitable distance.

Secondly, in Fig. 6, when continue using to be consumed to, bar reaches almost can not re-use the time, as continue rotary manipulation, then drive rod 3 promptly is with quill 5 and is advanced, the inboard card of holding expansion section 5d to arrive at leading portion tube 1 then before the quill 5 ends in the recess 1e and temporary transient location does not readvance, and at this moment, the front end locking protrusion 3b of drive rod 3 still is limited to the rear portion stop hole 5c of quill 5.

Fig. 7 represents bar because of the state of moving on of drive rod 3 after being discharged from, and this moment, the front end of drive rod 3 reached the peristome of leading portion tube 1.Say in detail, this moment, the front end expansion section 5d of quill 5 can not readvance because of the front end card that enters leading portion tube 1 ends in the recess 1e, but 3 of drive rods can be borrowed continuation rotation back segment tube 2 and advance, so the locking protrusion 3b of drive rod 3 promptly advances to anterior stop hole 5b from the crowded groove 5a of cutting apart that axially forms continuously since then that opens of the rear portion stop hole 5c of quill 5, just drive rod 3 ejects residual section of bar and do not stay in quill 5 in this advances process.

Fig. 8 represents the enlarged drawing of quill 5, figure can find out the rear end of anterior stop hole 5b and the boundary formation 5bb of curved profile portion slowly of cutting apart groove 5a that joins thus, therefore, when drive rod 3 retreats, the locking protrusion 3b of drive rod 3 freed with the card of anterior stop hole 5b and ended relation before this, and carry over and cut apart groove 5a and be retracted in the stop hole 5c of rear portion, then, along with retreating of drive rod 3, the card that the expansion section 5b of quill 5 breaks away from leading portion pipe 1 ends recess 1e, promptly carries out certain action according to the relation of β＜α＜γ.

Again, in the above-described embodiments, overlap quill 5 on the drive rod 3 in addition bar is kept and discharge, yet, as for reducing member and simplify assembling work when ignoring the discharge function of above-mentioned bar, though not shown, can form the cylindrical portion that can insert bar and give maintenance to hold the portion of receiving at the front end of drive rod 3 as bar, then can save quill 5 and only use drive rod 3 with maintenance and drive member as bar.Look necessity and also can hold the portion of receiving and form to expand when axial groove inserts bar and open and clamp, and give drive rod 3 with certain maintenance function at this tubular again.

Fig. 9 represents the variation of the foregoing description, in this example, the inboard formed heavy section of the leading section of leading portion tube 1 rear is formed with the expansion section 5d that several rib 1g ends recess 1e and is formed at quill 5 front ends with the card that is formed at leading portion tube 1 front end internal end surface shown in replacement Fig. 5 to Fig. 7 etc.When drive rod 3 retreats because of rotary manipulation, borrow the chimeric friction of the rear portion side face of quill 5 and rib 1g and can temporarily stop quill 5 to retreat, just at this moment, the anterior locking protrusion 3b of drive rod 3 retreats to the stop hole 5c of rear portion from anterior stop hole 5b, subsequently, quill 5 sides and drive rod 3 retreat simultaneously.The relation that this moment, above-mentioned each card ended intensity also should keep the relation of β＜α＜γ.

Figure 10 shows an embodiment more of the present utility model, and in this example, the card that the fastener of leading portion tube 1 is not established as precedent ends recess 1e or rib 1g, and quill 5 is not established expansion section 5b yet, so structure is simpler, but still possesses the discharge effect of residual section of bar.Specifically, the locking protrusion 3b of drive rod 3 also is the rear portion stop hole 5c that is limited to quill 5, when advancing because of rotary manipulation drive rod 3, quill 5 also advances simultaneously, and when the front end of quill 5 propped up the front end inner side end of leading portion tube 1, the locking protrusion 3b of drive rod 3 promptly followed groove 5a and enters in the anterior stop hole 5b.End fasteners such as recess 1e or rib 1g because card needn't be established in leading portion tube 1 inboard, do not make moulding easier so have the forced stripper mechanism part during moulding.

Again, when drive rod 3 is retreated, do not end recess 1e or rib 1g and expansion section 5b existence because of there being card, so being the following band of state that is limited to anterior stop hole 5b, locking protrusion 3b retreats with quill 5, after end face propped up the front end face of spline member 4 after the quill 5, the locking protrusion 3b of drive rod 3 continued to retreat along with drive rod 3 and breaks away from anterior stop hole 5b and enter rear portion stop hole 5c.For guaranteeing that backward movement finishes locking protrusion 3b and snap in really in the stop hole 5b of rear portion, drive rod 3 can be designed to the bottom that its head 3c can withstand back segment pipe 2 just when finishing backward movement.

The utility model is because of having structure as above, rotary manipulation slyness not only, and discharge residual section of bar easily and be convenient for changing new bar, few because of part again, simple structure and assemble also easily can be rated as a kind of tool improvement effect and meets practical rotary tool for supplying filaments.

Claims (13)

1. a rotary tool for supplying filaments is by the leading portion tube, can be linked to the back segment tube of leading portion tube with the relative rotation, and is located in the cylindrical body that leading portion tube and back segment tube thus constituted in order to keep and the drive member of sending and receiving bar constitutes;

It is characterized in that: the anterior interior week of above-mentioned back segment tube forms spiral-guide mechanism, the position that is positioned at this spiral-guide mechanism the place ahead of leading portion tube is installed with the spline member, the front portion of above-mentioned drive member has the holding section, and be sticked in above-mentioned spline member when the holding section is sticked in above-mentioned spiral-guide mechanism whereby, make drive member can not rotate but can move freely vertically.

2. according to a kind of rotary tool for supplying filaments of claim 1, it is characterized in that the system of spiral-guide mechanism of above-mentioned back segment tube is formed by a pair of semicircle cylindrical shell that is linked to be with hinge portion and back segment tube body one that is situated between.

3. according to a kind of rotary tool for supplying filaments of claim 1, it is characterized in that above-mentioned spiral-guide mechanism is the helical protrusion bar, and above-mentioned holding section is to be located at most engaging protrusion that are arranged in two row on the drive member along its length at certain intervals.

4. according to a kind of rotary tool for supplying filaments of claim 1, it is characterized in that above-mentioned drive member has the head of hole enlargement in tail end, this head back side undergauge gradually is taper, and is formed with from tail end and extends the inside groove of axially cutting apart.

5. according to a kind of rotary tool for supplying filaments of claim 1, the front end sleeve that it is characterized in that above-mentioned drive member is provided with one can axially movable quill, and the front end of above-mentioned leading portion tube is provided with the fastener that ends quill in order to card, and drive rod ties up to quill and temporarily is limited under the state of leading portion pipe and does to advance or backward movement in quill.

6. according to a kind of rotary tool for supplying filaments of claim 1,

It is characterized in that: week forms spiral-guide mechanism in the rear portion of above-mentioned leading portion tube, the position that is positioned at this spiral-guide mechanism the place ahead of leading portion tube is installed with the spline member, the front portion of above-mentioned drive member has to be situated between when being sticked in above-mentioned spiral-guide mechanism to be locked into above-mentioned spline member and can not rotate but can move freely holding section vertically, and other has the front end that is sheathed on this drive member can axially movable quill; And the front end of above-mentioned leading portion tube is provided with the fastener that ends quill in order to card, and drive rod ties up to quill and temporarily is limited under the state of leading portion pipe and does to advance or backward movement in quill.

7. according to a kind of rotary tool for supplying filaments of claim 6, it is characterized in that above-mentioned quill has the axial guiding slot ditch, be formed with anterior stop hole and rear portion stop hole in this guiding groove again, be provided with the locking protrusion that can between the front and rear portions stop hole, move in above-mentioned drive member in addition at a distance of certain distance.

8. according to a kind of rotary tool for supplying filaments of claim 6, the fastener that it is characterized in that above-mentioned quill and leading portion tube, the anterior stop hole of the locking protrusion of above-mentioned drive member and quill, and each card of the rear portion stop hole of the locking protrusion of drive member and quill ends intensity as being made as α respectively, when β and γ, three's relation should be set at β＜α＜γ.

9. according to a kind of rotary tool for supplying filaments of claim 6, the junction that it is characterized in that the rear end of above-mentioned anterior stop hole and above-mentioned guiding groove forms the curve-like that the locking protrusion of drive rod can withdraw from easily backward.

10. according to a kind of rotary tool for supplying filaments of claim 6, it is characterized in that the front end of above-mentioned quill has the expansion section, and the fastener of above-mentioned leading portion tube is formed in the front end of leading portion tube perimembranous and can blocks the card that ends above-mentioned expansion section and end recess.

11., it is characterized in that the fastener of above-mentioned leading portion tube is formed at the interior perimembranous of leading portion tube and quill temporarily can be blocked many axial ribs of ending according to a kind of rotary tool for supplying filaments of claim 6.

12. a kind of rotary tool for supplying filaments according to claim 1 or 6, it is characterized in that above-mentioned quill is in the process of advancing of operation, the front end face of this quill can prop up the end face of the front end inboard of leading portion tube earlier, the locking protrusion side of above-mentioned drive member moves to anterior stop hole from the rear portion stop hole then, and quill is in the fallback procedures of operation, the rear end face of this quill props up the front end face of spline member earlier, and the locking protrusion side of above-mentioned drive member moves to the rear portion stop hole from anterior stop hole then.

13. according to a kind of rotary tool for supplying filaments of claim 1,

It is characterized in that: the anterior interior week of above-mentioned back segment tube forms spiral-guide mechanism, the position that is positioned at this spiral-guide mechanism the place ahead of leading portion tube is installed with the spline member, the front portion of above-mentioned drive member has to be situated between when being sticked in above-mentioned spiral-guide mechanism to be locked into above-mentioned spline member and can not rotate but can move freely holding section vertically, and other has the front end that is sheathed on this drive member can axially movable quill; And the front end of above-mentioned leading portion tube is provided with the fastener that ends quill in order to card, and drive rod ties up to quill and temporarily is limited under the state of fastener of leading portion pipe and does to advance or backward movement in quill.

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