CN103608277A - Spool for receiving winding material and spool part system - Google Patents

Abstract

The invention relates to a spool for receiving winding material, having a rotationally symmetrical, in particular conical, spool core (1) for receiving the winding material, wherein the spool core (1) comprises a first end (2) and one or more first catch areas (10), and a first flange comprising one or more first catch elements. In order to enable the first flange to be mounted on the spool core (1) as reliably as possible and with a simplified construction, one or more second catch areas (11) are provided on the first end (2) of the spool core (1) and one or more second catch elements are provided on the first flange, wherein the second catch areas (11) are formed on the spool core (1) and the second catch elements are formed on the first flange, such that the second catch elements engage with the corresponding second catch areas (11) when the first catch elements are engaged with corresponding first catch areas (10).

Description

For holding bobbin and the bobbin component system of coiling material

Technical field

The present invention relates to as described in the preamble a kind of for holding bobbin and a kind of corresponding bobbin component system of coiling material according to independent claims, the invention still further relates to accordingly for fixing and unclamp described bobbin component system a plurality of parts method and for the method for the such bobbin of reeling by means of a support bobbin.

Background technology

A kind of winding bobbin of the thread (Gebinde) that can deliver of the coiling material for microscler extension is disclosed from WO 2005/070802 A1.Described winding bobbin comprises a coiling core body for rotational symmetric taper substantially, and its first end has the diameter less than its second end.One first flange is releasably connected with the first end of described coiling core body, and the second flange is connected securely with the second end of described coiling core body.In the situation that releasable this winding bobbin that is connected between described the first flange and the first end of described coiling core body realizes by the fan-shaped lock part being arranged on the first flange, in its locking opening that is embedded into accordingly, arranges on the first end of described coiling core body.In addition, a so-called circular lock part (Rundumrastung) that surrounds that upcountry points to rotating shaft is set on the first end of described coiling core body, it surrounds lock part with the circle of mutually oppositely pointing on releasable flange and rabbets.Utilize the described circular lock part that surrounds to realize a locking system, it is similar to known fastening device in the situation that of paint can in its mode of operation.Being connected in the case of the form fit between described coiling core body and described removable flange realizing the in the situation that of described winding bobbin designs on the whole as follows, and not only installation but also its dismounting of described flange can be realized with hand.

Summary of the invention

Task of the present invention is, propose a kind ofly for holding bobbin and a corresponding bobbin component system and a kind of method for the described bobbin of reeling by means of support bobbin of coiling material, described bobbin, described bobbin component system or described method are in the situation that the structure of simplifying can realize the failure-free of the fixing described bobbin in other words of the failure-free of described flange on described bobbin core body reels.

This task is by solving according to the bobbin described in independent claims or bobbin component system.

According to the present invention, one or more the second locking regions are set on the first end of described bobbin core body, and one or more the second locking elements are set on the first flange, wherein, described the second locking region is arranged in such a way and/or is configured on described bobbin core body and described the second locking element is arranged in such a way and/or is configured on described the first flange, make when being arranged on the first locking element on described the first flange with corresponding, while being arranged on the first locking region interlocking on the first end of described bobbin core body, the corresponding second locking region interlocking of the second locking element of described flange and described bobbin core body, set up thus the connection of the form fit between described the first flange and described bobbin core body.

For described the first flange is fixed on the first end of described bobbin core body, described the first flange is set with on the first end of described bobbin core body, and if described first and the angle position of described the second locking element with respect to the corresponding first or second locking region angle position inconsistent, described the first flange is rotated with respect to described bobbin core body, until described angle position is consistent.Like this, in the situation that consistent angle position, the first locking element of described the first flange can be brought in the interlocking with the corresponding first locking region of described bobbin core body, and the second locking element of described the first flange is brought in the interlocking with the corresponding second locking region of described bobbin core body simultaneously, its mode is, described the first flange along axial, be expressed on described bobbin core body to preferred manual.Smaller in the case power is just enough.

But the mutual interlocking of the described first or second locking region and locking element is not to need relatively rotating of described bobbin core body and described the first flange.If described the first flange is placed at correct position, that is to say in angle position along circumferencial direction, the first and second locking elements of described the first flange can be locked in the corresponding first or second locking region on described bobbin core body by described the first flange merely axially being pushed away on the bobbin core body that installs to described taper.

By the present invention, realized, on the first end by means of the described bobbin core body in a plurality of the first locking elements-locking region-(Rastelement-Rastbereich-Paare) is fixed on described the first flange, extraly by means of being different from a plurality of the second locking elements-locking region in described the first locking element-locking region-right-to being fixed.

By the second locking element arranged according to the present invention-locking region-to described the first flange being prevented from extraly relatively rotating in simple mode on described bobbin core body.Therefore in the situation that the structure of simplifying has still realized the more failure-free of described flange on described bobbin core body fixes.

In the first flexible program, described bobbin is designed for disposable unidirectional bobbin with low cost, that is to say, for reeling with coiling material once and it being taken out once.For cost reason, in this case, the thinner and typical status 1 of the wall ratio of described bobbin core body is to 3mm, preferably approximately 1.5mm.

The in the situation that of this size design, can need, described unidirectional bobbin in winding process itself must by one correspondingly size design, particularly same tapered, standard bobbin supports, because described unidirectional bobbin only can receive take-up force, and also only the torque of the actuating device of described bobbin can be delivered on described unidirectional bobbin via described standard bobbin.Described torque is delivered to described unidirectional bobbin from described standard bobbin by friction and/or form fit in the case.

The advantageously so design in the case of described the first and second locking elements and locking region, described the first flange unclamping under the prerequisite that there is no extra device or suitable speciality tool from described bobbin core body no longer can be realized, thereby described bobbin with no longer can be easily after crossing, for example by M/C one, tear tongue piece, as from being removed disclosed winding bobbin in the situation that WO 2005/070802 A1.Described locking element or locking region can be in the case so design wittingly, in order to get rid of possibly using the bobbin according to the present invention preferably arranging as unidirectional bobbin as discerptible and in some cases reusable bobbin use mistakenly.Can purposively prevent in this way described bobbin simply, particularly manual dismounting, to again reel with coiling material after taking out described coiling material by described bobbin saving position return.

At bobbin described in the second flexible program, be designed to multidirectional bobbin, it should again be provided for next time with the coiling of coiling material and take out described coiling material after reeling with coiling material and described coiling material is taken out.In the case, in order to ensure sufficiently high mechanical stability and the resistance to abrasion of described bobbin, the wall thickness of described bobbin core body is set to typically 2 to 5mm, about 3mm particularly.As an alternative or additionally, can there is the higher mechanical stability that the higher suitable material of strength of material of using than the bobbin core body for a unidirectional bobbin is realized described bobbin core body by selection.Normally do not need by another bobbin in the case, as can as described in unidirectional bobbin in the situation that set bobbin to as described in multidirectional bobbin support, but in principle when for example occurring extra high take-up force or when the bobbin of described wind2 is delivered to the extra high torque described multidirectional bobbin, also can support.

In this flexible program of described bobbin, advantageously, after taking out described coiling material, described the first flange is removed from the first end of described bobbin core body again.Like this, the bobbin core body that has at it described taper that only also has described the second flange on larger-diameter the second end can push and save in this way position mutually carry out stacking.Utilize stacking bobbin core body can by preferably equally can be stacking the first flange and of implementing reel to stand and transmit dividually, at described coiling station place, described the first flange preferably before described winding process the very short time be again fixed on the first end of described bobbin core body.

Also can be by described the first and second locking elements and the advantageously so design of locking region in the situation that of this flexible program, make under the prerequisite of additional device or suitable speciality tool, described the first flange manually and without damage to be disassembled simply from described bobbin core body not having.

For described the first flange is unclamped from the bobbin core body according to bobbin of the present invention, preferably an instrument is inserted into the inside of described bobbin core body, with described first and/or described first or the described locking element of described the second locking region in interlocking at least in part with described first and/or described the second locking region depart from interlocking.

For described the first flange failure-free and instrument of disassembling without damage from described bobbin core body for example being there is to the drift of a taper, the shell mask of described drift has a degree of dip with respect to described rotating shaft, and described degree of dip is substantially corresponding with the degree of dip of the internal valve of described bobbin core body.One bar is set on described drift, by means of described bar, described drift is inserted in its inside on the second end of described bobbin core body, and promote towards the first end of described bobbin core body, particularly extruding.The shape of described drift and size are so selected, and make in its region that can be pushed into described the first locking region and can abut in there on the internal valve of described bobbin core body.If the first locking element of described the first flange is embedded into the first locking region of described bobbin core body from outside, they radially outward push and depart from interlocking or from the interlocking of described form fit, unclamp at least as follows by abutting in interiorly circumferential area in the region in described the first locking region, described tapered punch, and described the first flange can be lifted from the first end of described bobbin core body.

But the speciality tool of other type also has advantage in principle.For example feasiblely be, one instrument so designs, it can be inserted into from the first end of described bobbin core body its inside, in described inside for example by means of a suitable mechanism by inside extruding and push radially outwardly with the first locking element of described the first locking region interlocking.

At the first locking element, from inside, come towards described the first locking Regional contraction and with its interlocking in the situation that, described instrument can for example have the shape of the band of a winding, its shell surface around described bobbin core body in the region in described the first locking region lays and can utilize a suitable mechanism to move to together, thus described the first locking element is inwardly pushed and departs from interlocking with described the first locking region in this way.

In a kind of preferred design plan of the present invention, the first locking region being arranged on the first end of described bobbin core body has the different angle position about the rotating shaft of described bobbin core body.For example stagger with the angle of about 45 ° respectively in described the first locking region, that is to say, with respect to a first locking region, stagger and arrange with 90 ° with 45 ° and next but one the first locking region in next the first locking region, and the rest may be inferred.But according to the quantity in described the first locking region and big or small difference, also can stagger with less or larger angle.But described angle can be also different sizes in principle.Generally speaking, the lip-deep favourable power that can realize on the one hand at described the first flange by described measure distributes and therefore realizes its failure-free axial restraint, and can realize on the other hand anti-relatively rotating preferably.

As an alternative or additionally preferably, the second locking region being arranged on the first end of described bobbin core body has the different angle position about the rotating shaft of described bobbin core body.The in the situation that of this embodiment described the second locking region also can be for example respectively with the angle of about 45 °, but according to the quantity in described the second locking region and big or small difference also can mutually staggering with angles less or larger or different sizes.In the situation that this design plan in described the second locking region can be realized the anti-in relative rotation special failure-free of described the first flange on described bobbin core body and fix.

Preferably, to have a ，Gai angle position, angle position consistent with the angle position of in described the first locking region at least one in described the second locking region.This means, described at least one first and one the second locking region has identical angle position.The failure-free of having realized on the one hand thus the special failure-free location of described the first flange and having realized on the other hand described the first flange is fixed.

Preferably, the first locking element being positioned on described flange has the different angle position about the rotating shaft of described the first flange.Advantageously, described the first locking element staggers mutually with the angle of about 45 ° respectively.But according to the quantity of described the first locking element and big or small difference, also can pass through less or larger angle space.But described angle can be also different sizes in principle.Can realize on the one hand thus described the first flange lip-deep favourable, particularly power distributes and therefore realizes its failure-free axial restraint uniformly, and can realize on the other hand anti-relatively rotating preferably.

As an alternative or additionally, described the second locking element has the different angle position about the rotating shaft of described the first flange.Particularly described the first locking element staggers mutually with the angle of about 45 ° respectively.According to the difference of the quantity of described the second locking element and/or size, it also can be by less or larger angle or also can mutually be staggered and be arranged by the angle of different sizes.Can realize thus the failure-free axial restraint of described flange in the anti-situation in relative rotation of failure-free at the same time.

Particularly preferably be, it is consistent with the angle position of in described the first locking element that at least one in described the second locking element has a ，Gai angle position, angle position.In the case, at least one first and second locking element has identical angle position.The in the situation that of this embodiment, the failure-free that can realize on the one hand the special failure-free location of described the first flange and can realize on the other hand described the first flange is fixed.

In another favourable design plan, described the second locking areal structure becomes projection and/or the depression on the first end of described bobbin core body.This shows as a kind of possibility that can realize especially simply, in order to realize the second locking region on described bobbin core body.Simultaneously can be by described raised or sunken particularly preferred anti-the relatively rotating of realizing.

The described raised or sunken orientation that is parallel to the rotating shaft of described bobbin core body that has particularly.Described raised or sunken preferred arrangements in the case, in the region of the end face of the first end of described bobbin core body, and shows as extension or the otch dentation or that peak is pointed on described bobbin core body shell face in the case.

But the described raised or sunken orientation that is parallel to the shell face of described bobbin core body that has as an alternative.Raised or sunken be for example configured to dentation or peak pointed extension or the otch of described preferred arrangements in the region of the end face of the first end of described bobbin core body, its preferably with preferred taper the bobbin core body shell that extends in the face of neat.

In addition can stipulate, described the second locking element is configured to depression and/or the projection on described flange.Can on described the first flange, realize simply described the second locking element in this way and realize particularly preferred anti-relatively rotating.

Preferably, described the first locking element and/or described the second locking element and described the first flange single type ground structure.In the case, described the first flange comprises that described locking element can for example only make in an operation as pouring piece, and this is because connected therewith cost advantage is particularly advantageous at described bobbin as the favourable application aspect of unidirectional bobbin.

In the favourable design plan of another kind, between the first locking element being arranged on described the first flange, zone line is set, described zone line matches with the shape of the particularly taper of described bobbin core body as follows, while making corresponding the first locking region interlocking on the first locking element of described the first flange and described bobbin core body, described zone line abuts in the region of first end of described bobbin core body.Having realized thus a kind of favourable power distributes and has realized the special failure-free of described the first flange on described bobbin core body and fixed.In addition, further strengthened thus described the first flange from the moving difficulty of unclamping of described bobbin core body left-hand seat.

Preferably, described zone line has one along the interior zone of radially observing, and described interior zone is with between about 3 ° and 9 °, particularly the angle of about 6 ° is with respect to the axes of rotation skew of described the first flange.Can realize the failure-free of described zone line on described bobbin core body in simple mode thus reclines.

In the favourable design plan of another kind, stipulate, axial projection and described projection that described the first locking element is configured on described the first flange have respectively a locking nose, described locking nose can with first end at described bobbin core body on corresponding the first locking region interlocking.Described axial projection is arranged essentially parallel in the case the rotating shaft of described the first flange and extends.Each locking nose is preferably outstanding towards described rotating shaft from described axial protruding end, that is to say, it is substantially inside along radial finger.The first locking element that can realize described the first flange in simple mode is thus locked to the failure-free in the first locking region on described bobbin core body.

Preferably, described locking nose has a smooth inclined-plane particularly, described inclined-plane along radially observe inner and with respect to the rotating shaft of described flange with between about 20 ° and 40 °, particularly the angle of about 30 ° tilts.The rotating shaft that is preferably perpendicular to described the first flange with opposed region, described inclined-plane of described locking nose is extended.Mode with barb has realized described the first locking element thus, by it, described the first flange axially easily can be pushed away on the first end that installs to described bobbin core body along first, but after described the first locking element is locked in the corresponding first locking region of described bobbin core body, under the prerequisite that there is no additional speciality tool, cannot from described bobbin core body, get on to remove without damage again.Simple installation and the failure-free of having realized on the one hand described the first flange are in this way fixed, and have effectively prevented on the other hand undesirable simple manual teardown.

In addition preferably, described the first locking element can be embedded in the first locking region the first end of described bobbin core body from outside along radially observing.Preferably, described the first locking element in the case so structure, make its reel described bobbin core body with coiling material in the situation that by described coiling material towards described the first locking region, particularly radially inwardly extruding.The first locking element of described the first flange is locked in the first locking region described bobbin core body from outside in the case.Guaranteed thus, in the situation that reeling described bobbin with coiling material, described coiling material can abut on described the first locking element.Power that occur in the case, radially inner, that is to say the rotating shaft of pointing to described flange or described bobbin core body contributes to described the first locking element to be inwardly expressed on described the first locking region and therefore and to remain on especially reliably in its position, that is to say and its interlocking.

Advantageously, be configured with protruding described the first locking element so size design and/or shaping in the case of locking nose, make the high as far as possible ratio of the power that applied by described coiling material along being radially applied on described the first locking element.This preferably realizes in the following way, and the shell face that projection of described the first locking element is arranged essentially parallel to the rotating shaft of described the first flange or is parallel to described bobbin core body extends.

In addition advantageously, the projection of described the first locking element is so high with respect to the basal plane towards described bobbin core body of described the first flange, and circle more as far as possible, preferably a large amount of described coiling material can be reclined thereon.Preferably, the height of described projection 5 and 20mm between, particularly 8 and 12mm between.The in the situation that of described value, on the one hand in the situation that the bobbin being wound guaranteed high diametral load and on the other hand in the situation that empty bobbin has also been guaranteed high power, thereby realized in both cases special failure-free, fixed.

For reeling and there is the following step according to the method for bobbin of the present invention with coiling material: a bobbin cup is installed to a support bobbin, described support bobbin has the support bobbin core body of a preferred taper, and at least one is arranged in the flange on an end of described support bobbin core body, and described support bobbin is placed in to rotation, wherein, cover installs to bobbin on described support bobbin and is placed into equally in rotation and in the case and reels with the coiling material of supplying with.The method is characterized in that, the flange of described support bobbin by means of at least one be arranged on driving lever on the flange of described support bobbin and described bobbin flange form fit couple.By coupling of described form fit, guaranteed that support bobbin from being placed in rotation is to the special failure-free transmission of torque on the bobbin for the treatment of to reel with coiling material.This is particularly particularly advantageous in the situation of accelerator and braking procedure, there will be there higher torque and can cause, and described bobbin cannot or cannot be moved and be placed in rotation by the rack tube subband of described rotation more reliably.Realized thus especially reliably and having reeled according to bobbin of the present invention with coiling material.

Preferably, described bobbin is implemented as unidirectional bobbin, and described support bobbin is implemented as standard bobbin or multidirectional bobbin, by described support bobbin, supports described bobbin during reeling.Aspect the preferred wall thickness of described bobbin core body or described support bobbin core body, be correspondingly suitable for the above-mentioned embodiment about unidirectional bobbin or multidirectional bobbin.

Preferably, by described bobbin cup being installed on described support bobbin, the medial surface of the bobbin core body of described bobbin abutted at least in part on the lateral surface of support bobbin core body of described support bobbin and couple in locking manner with described lateral surface friction thus.The transmission of torque of sealed the coupling of described extra friction having assisted from described support bobbin to described bobbin, this makes the coiling of described bobbin more reliable.

Further preferably, at least one is arranged on driving lever on the flange of described support bobbin and in the coupling of described form fit, is embedded at least one gap between the single rib that is shaped on the flange at described bobbin.The rib that formed thereby goes out, it is mainly provided for mechanically strengthening the flange of described bobbin, simultaneously for setting up described form fit, thereby without the extra preparation on the flange of described bobbin.According to bobbin of the present invention, structurally keep thus simple.

The support bobbin core body that accordingly has a preferred taper for the support bobbin using in the above-mentioned method for the bobbin of reeling is arranged in the flange on an end of described support bobbin core body with at least one, and it is characterized in that, at least one driving lever is set on the flange of described support bobbin, by described driving lever can by the flange of described support bobbin and a set of flange form fit that installs to the bobbin on described support bobbin couple.

Flange for this support bobbin using in the above-mentioned method for the bobbin of reeling has a smooth basal plane accordingly, and it is characterized in that, at least one driving lever is set on described basal plane, by described driving lever can by the flange of described support bobbin and a set of flange form fit that installs to the bobbin on described support bobbin couple.

Accompanying drawing explanation

Other advantage of the present invention, feature and application possibility are explained by reference to the accompanying drawings from specification sheets below.Wherein:

Fig. 1 shows two three-dimensional views of the example with a bobbin core body that is fixed on the second flange on bobbin core body;

Fig. 2 shows the section drawing at the example shown in Fig. 1;

Fig. 3 shows a part at the section drawing shown in Fig. 2;

Fig. 4 shows the birds-eye view of an example of the first flange;

Fig. 5 shows the cross-sectional plane through the first flange shown in Fig. 4 along straight line A-A;

Fig. 6 shows the lateral plan at the first flange shown in Fig. 4;

Fig. 7 shows another cross sectional drawing through the first flange shown in Fig. 4 along straight line B-B;

Fig. 8 shows a part at the cross-sectional plane shown in Fig. 5;

Fig. 9 shows two three-dimensional views of the described example of the first flange;

Figure 10 shows the section drawing at the example shown in Fig. 1 with the first fixing flange;

Figure 11 shows the section drawing that is partly sleeved on the bobbin on a support bobbin core body;

Figure 12 shows the section drawing that is fully sleeved on the bobbin on a support bobbin core body;

Figure 13 shows for the birds-eye view of the flange of a support bobbin (a), lateral plan (b), the first three-dimensional view (c) and the second three-dimensional view (d) and section drawing (e).

The specific embodiment

Fig. 1 shows two three-dimensional views of an example of the bobbin core body 1 of a rotational symmetric taper, and described bobbin core body has first end 2 and the second end 3, and described first end has less diameter, and described the second end has larger diameter.

One second flange 4 is set on the second end 3 of described bobbin core body 1, and described the second flange is connected securely with described bobbin core body 1, and its mode is, described the second flange for example with described bobbin core body 1 single type construct.But except the structure of single type, any other firmly, not releasable connection is also feasible.

In the region of the first end 2 of described bobbin core body 1, the first locking region 10 is set, it is realized by breach, the particularly slit of the lengthwise in the region of the first end 1 at described bobbin core body 2 in an example shown.Described the first locking region 10 also can form by the depression of the particularly channel shaped in the region of the first end 2 at described bobbin core body 1 or the particularly protuberance of rib shape as an alternative or additionally.

In addition, on the end face of the second end 2 of described bobbin core body 1, the second locking region 11 is set, it is realized by the projection of the dentation on the end face of the first end 1 at described bobbin core body 2 in an example shown.

On the second end 2 of described bobbin core body 1, be altogether provided with in an example shown eight the first locking regions 10 and eight the second locking regions 11.But the first or second locking region 11 or 12 more or still less also can be set in principle.In an example shown, described the first and second locking regions 10 or 11 quantity are identical.But it can be also different.For example can arrange take the first locking region 10 that the breach of six slit shapes is form and only two take the second locking region 11 that detent projection is form.

Single the first and second locking regions 10 or 11 have respectively certain angle position of the rotating shaft of a bobbin core body 1 with respect to described taper.Shown in the example with eight first and two the second locking region 10 or 11 in, mutually stagger and arrange with the identical angular interval of 45 ° respectively in described the first locking region 10 and described the second locking region 11.In addition, the angle position in described the first locking region 10 is identical with the angle position in described the second locking region 11, that is to say, not only has first and also have the second locking region 10 or 11 in certain angle.But also feasible as an alternative, described the first locking region 10 has another angle position that is different from described the second locking region 11.

Fig. 2 shows the lateral plan at the example shown in Fig. 1, and wherein, the embodiment of above-mentioned combination Fig. 1 is correspondingly effective.

As observed preferably from Fig. 2, described first and described the second locking region 10 or 11 with respect to the angle position of the rotating shaft 6 of described bobbin core body 1, be identical.

The diameter d 1 of the first end 2 of described bobbin core body 1 is less than the Second bobbin diameter d2 of the second end 3 of described bobbin core body 1.The value of typical the first diameter d 1 is positioned at about 180mm, and typical Second bobbin diameter d2 is positioned at about 260mm.The outside diameter d 3 of described the second flange 4 is typically positioned at about 390mm, and can select much biggerly or much smaller according to the difference of the application target of described bobbin and/or capacity.Correspondingly be applicable to described the first and second diameter d 1 or d2.The wall portion of the taper of described bobbin core body 1 with respect to described rotating shaft 6 with the typical 6 ° wall thickness that tilt and there is typical 1.5mm.

Diagram is amplified in a part 13 at example shown in Fig. 2 in Fig. 3.Be arranged on the first locking region 10 that breach in the region of first end 2 of described bobbin core body 1, that take through the rectangle of described bobbin core body 1 is form and there is the width d4 of about 5mm and the about length d 5 of 30mm.The height d6 that is configured to the second locking region 11 of projection on the end face of described first end 2 is approximately 1.5mm in this example.

In principle described the first and second locking regions 10 or 11 size design can with the exemplary representative value of enumerating deviation up or down significantly only here.Particularly advantageously, the height d6 that is configured to the second locking region 11 of projection can select obviously greatlyr, in order to realize described the second locking region 11, to the special failure-free in corresponding second locking element of described the first flange, rabbet, as also described in detail below.

Fig. 4 shows the birds-eye view of an example of the first flange 5, and described the first flange is set with on the first end 2 of described bobbin core body 1 and can be connected with it in the case.The principle structure of described the first flange 5 also elaborates with reference to Fig. 5 to 7 hereinafter, wherein, Fig. 5 shows the cross-sectional plane through described the first flange 5 along straight line A-A, Fig. 6 shows the lateral plan of described the first flange 5, and Fig. 7 shows another cross-sectional plane through described the first flange 5 along straight line B-B.

As visible in birds-eye view and two cross sectional drawings, described the first flange 5 has the smooth basal plane 26 of circular breach 8, and the rotating shaft 7 of described breach and described the first flange 5 is arranged coaxially.The rib 27 that described basal plane 26 goes out by a large amount of shapings in its region is behind stablized.

One annular region 28 is set on the leading flank with respect to described rib 27 of described basal plane 26, and it is connected on the breach 8 of described circle and preferably and on the breach 8 of described the first flange 5, is shaped single type.

The first locking element 20 is set in the inner circumference area of described annular region 28, it is configured to projection, and described projection is arranged essentially parallel to rotating shaft 7 orientation of described flange 5 and on an end, has locking nose 22 that take radially inwardly, that is to say that the projection of the rotating shaft 7 of pointing to described the first flange 5 is form.

In the region of another end of described the first locking element 20, the second locking element 21 is set, it forms by the space between the zone line 23 of structure on described the first flange 5 in an example shown.Described zone line 23 described the first flange 25 with the opposed region of described basal plane 26 in there is projection 25 radially, described projection is separated mutually by the above-mentioned space between described zone line 23.

But described the second locking element 21 also can be realized by other measures in principle, for example, by depression or recess with the opposed region of described basal plane 26 at described the first flange 5, realize.For example feasiblely be, described the second locking element 21 is realized by the end in the circular breach 8 that is radially outwards projected into described the first flange 5 of described rib 27, between described rib respectively by one second locking region 11, preferably take the second locking region that axial projection is form be brought into interlocking in and therefore can realize described the first flange 5 and relatively rotate with respect to the anti-of described bobbin core body 1.

On the end face of described bobbin core body 1, be preferably configured as the second protruding locking region 11(of dentation referring to Fig. 1 to 3) and the second locking element 21 that is preferably configured as space or depression on described the first flange 5 be so to arrange and size design, they can be brought in interlocking mutually.Meanwhile, on the first end 2 of described bobbin core body 1, take the first locking region 10 that the depression of slit-shaped or recess be form so to arrange and size design, the locking nose 22 of the first locking element 20 on described the first flange 5 can be embedded into wherein.Realized in this way, the fixing mutual interlocking by described the first locking element 20 and locking region 10 and described the second locking element 21 of while and locking region 11 of the form fit of the first flange 5 on the first end 2 of described bobbin core body 1 realizes.

In the case, connection in the form fit between described the first flange 5 and the first end 2 of described bobbin core body 1 is only feasible in following situation, be that described the first flange 5 is so selected with respect to the angle position of described bobbin core body 1, make not only described first but also described the second locking element-locking region-to 20/10 or 21/11, can mutually be brought in interlocking.

Fig. 8 shows the part 14 in the amplification of the cross-sectional plane through described the first flange 5 shown in Fig. 5.Except the part of described basal plane 26, be also shown in and integratedly on the inner periphery of described annular region 28 take the first locking element 20 that projection is form, it is parallel to an axle 7 ' extension, described axle preferred parallel in the rotating shaft 7(of described the first flange 5 referring to Fig. 5) extend or with less angle, for example, between 0.25 ° and 0.1 °, particularly the angle of 0.5 ° is with respect to described axes of rotation skew.

On the axial raised medial surface of described the first locking element 20 along radially observing, have a locking nose 22, it has an inclined-plane 24.Described inclined-plane 24 with respect to the axle 7' of described the first flange 25 and/or rotating shaft 7 with between about 20 ° and 40 °, particularly the angle of about 30 ° tilts.The height d7 of bottom back plane, described locking nose 22 and the height d8 of upper end with respect to described the first flange 5 are preferably about 20mm or 25mm.The radial extent d9 of described locking nose 22 is preferably about 2mm.According to the difference of applicable cases, the size of described locking nose 22, arrangement and shape also can be obviously different from above-mentioned value.For example described radial extent d9 can be more much bigger than 2mm, in order to when for example described bobbin will hold king-sized coiling material quantity, for example, guarantees that the special failure-free of described the first flange 5 on described bobbin core body 1 fix.Correspondingly be applicable to other the value of enumerating here.

Also visible based on described the first locking element 20 of being positioned at of drawing plane zone line 23 below in Fig. 8, it has a projection 25 radially on its bottom, described projection forms gap or space with together with other projection (referring to Figure 4 and 5), by described gap or space, realizes in an example shown described the second locking element 21.Described zone line 23 preferably with between 3 ° and 9 °, particularly with the angle [alpha] of about 6 ° with respect to the axle 7 of described the first flange 5 ' or rotating shaft 7 tilt, and preferably so design, makes on the shell face in the region of its first end that can abut in described bobbin core body 12.Described zone line 23 preferably abut in the case described bobbin core body 1 as on lower area, described region is between described the first locking region 10.

Fig. 9 shows two three-dimensional views of the described example of the first flange 5.Figure below part comes to show described the first flange 5 over there from basal plane 26 substantially, and the back side that upper figure part is provided with rib 27 from it substantially shows described the first flange.

With reference to this diagram also as seen the first locking element 20 in the inside of described annular region 28 comprise locking nose 22 and layout and the design of gap second locking element 21 that space is form in other words of take between described zone line 23 and its radial protrusion 25.Remaining is applicable embodiment above correspondingly.

Figure 10 shows the section drawing at the example shown in Fig. 1, has the first flange 5 in the region of the first end 2 that is fixed on described bobbin core body 1 and is fixed on the second flange 4 in the region of described the second end 3.

The first locking region 10 that visible recess of take the slit shape in described bobbin core body 1 is form in this diagram, the locking nose 22 of described the first locking element 20 is embedded into described the first locking region from outside.Except the first locking element 20 of sidepiece, invisible in the diagram that the first remaining locking element is hidden and therefore here selects by the shell face of described bobbin core body 1.In addition, visible the second locking region 11, it is embedded in described the second locking element, and described the second locking element forms by the region between the radial protrusion 25 on described the first flange 5.Remaining is the embodiment of applicable above-mentioned combination Fig. 1 to 8 correspondingly.

For described bobbin be designed to unidirectional bobbin, particularly have 1 and 3mm between the situation of smaller wall thickness of described bobbin core body 1, described the first and second locking regions 10 or 11 and locking element 20 or 21 so design, make simple from described bobbin core body 1 of described the first flange 5 and by hand, be infeasible without unclamping of destroying.

But in this case and described bobbin be designed to multidirectional bobbin, particularly have in the situation that about 2 and 5mm between the larger wall thickness of described bobbin core body 1, feasible, described flange 5 comes simply, from described bobbin core body 1, unclamps rapidly and without damage by means of an instrument suitable and that mate with each bobbin.

The instrument illustrating in Figure 10 is for the sake of clarity only shown in dotted line and comprises a drift 30, and a bar 31 that is provided with handle 32 is installed on described drift.Preferably, described instrument is inserted into the inside of described bobbin from the second end 3 of described bobbin core body 1.

Described drift 30 preferably has the shape of taper, internal valve, the particularly form fit of the internal valve in the region in described the first locking region 10 of itself and described bobbin core body 1, and can for example as rotational symmetric disk or dome, realize.

Described drift 30 can be promoted towards described first end 2 by means of handle 32 and bar 31 by operating personal, at described first end place, its can finally in the region in described the first locking region 10, be brought into the reclining of the internal valve of described bobbin core body 1 in, and from outside, be embedded in the case locking nose 22 described the first locking region 10, described the first locking element 20 and along direction 35, radially outward push respectively.

In this way described the first locking element 20 is brought in the disengaging interlocking with corresponding the first locking region 10, thereby described the first flange 5 can easily be lifted from described bobbin core body 1 along direction 34.

Described the first flange 5 is not prevented from by the second locking region 11 or the locking element 21 of rabbeting consistently along the lifting of direction 34 that is parallel to described rotating shaft 6, because they mainly contain anti-the relatively rotating that helps raising in an example shown, and do not cause extra the fixing along direction 34.In following alternative embodiment, wherein, described the second locking region 11 or locking element 21(are also) cause the axial restraint of described the first flange 5 on described bobbin core body 1, described instrument so designs, its (also) is brought into described the second locking region 11 or locking element 21 in disengaging interlocking, in order to so to realize unclamping of described the first flange 5 at least in part.

But according to described the first locking element 20, particularly described locking nose 22, and/or the difference of the design in described the first locking region 10, also be feasiblely, when described locking nose 22 only pushes a bit of along direction 35 by described drift 30 radially outwardly, and while it not being brought into completely in the disengaging interlocking with described locking region 10, under the prerequisite that described the first flange 5 can expend in the power without special, from described bobbin core body 1, remove.Under this state, that is to say, in interlocking in the situation that partly, the axial force between described locking nose 22 and corresponding the first locking region 10 of generation can be overcome by the smaller power along direction 34 when extracting described the first flange 5.

Figure 11 shows according to the section drawing of bobbin 9 of the present invention, and it partly overlaps on the support bobbin core body 41 that installs to a support bobbin 49.On two ends of the bobbin core body 1 of described bobbin 9, one first flange 5 or one second flange 4 are installed.The embodiment for mounting flange 4 on bobbin core body 1 and 5 is above correspondingly applicable.

In described bobbin 9 example shown here, be implemented as unidirectional bobbin, wherein, the wall thickness of described bobbin core body 1 is thinner and typically is 1mm to 3mm, preferably approximately 1.5mm.On the contrary, described support bobbin 49 is implemented as multidirectional bobbin, and wherein, the wall thickness of described support bobbin core body 41 is greater than the wall thickness in the situation that of unidirectional bobbin, and typically between 2mm and 5mm, in particular for about 3mm.

In an example shown, on the upper end of the diagram of selecting of described support bobbin core body 41, one second flange 44 is set here, it is connected securely with described support bobbin core body 41, and its mode is, its for example with described support bobbin core body 41 single types construct.But in the case except the structure of single type, any other firmly, particularly not releasable connection is also feasible.

Construct as follows another of described support bobbin core body 41, the bottom in this diagram, and it can be releasably connected with the first flange 45 of described support bobbin 49.Releasable being connected in the case for example realized by the fan-shaped lock part arranging on described the first flange 41, described fan-shaped lock part is embedded into accordingly, is arranged in the locking opening on the unlimited end of described support bobbin core body 41, as for example the situation from disclosed winding bobbin WO 2005/0700802 A1.

At described the first flange 45, on the side of described support bobbin core body 41, two driving levers 42 are set, they for example with described the first flange 45 single types construct, its mode is that they for example pour into a mould and form together with described the first flange 45 in a pressure casting technique.But also feasible in principle, described driving lever 42 is subsequently arranged on described the first flange 45, for example, by means of a socket connection or spiral, connects or pass through bonding.

The first flange 5 of described bobbin 1 has a smooth substrate 26 substantially, on the back side of described substrate, that is to say, rib 27 is shaped on the side that deviates from described bobbin core body 1, the function of described rib is mainly, mechanically stablizes the substrate 26 of described flange 5.At position and the design aspect of single rib 27, with reference at the embodiment of the first flange 5 shown in Fig. 4,5 and 7 together with corresponding elaboration.

In this example, the at least a portion of the rib 27 that of being shaped on described substrate 26 is so arranged, make them form a gap, when described bobbin 9 is sleeved on described support bobbin core body 49 and when described the first flange 45 is preferably releasably fixed on the unlimited end of described support bobbin core body 41, each driving lever 42 on the first flange 45 of described support bobbin 49 can be rabbeted in described gap completely.This is shown in Figure 12.

By the driving lever 42 being arranged on described the first flange 45, to the back side of the first flange 5 at described bobbin 9, be arranged on the embedding in the gap between single rib 27, set up the first flange 45 of described support bobbin 49 on the one hand and the connection of the form fit between the first flange 5 of described bobbin 9 on the other hand.Preferably coupling extraly of described two bobbins 9 and 49 strengthened in the following way, be on the lateral surface of the medial surface of the bobbin core body 1 of the described bobbin 9 support bobbin core body 41 that abuts at least in part described support bobbin 49, and thus described bobbin core body 1 and described support bobbin core body 41 frictions coupled in locking manner.

At this moment the bobbin 9 and 49 mutually coupling can be presented in a wind2 (not shown), at support bobbin 49 described in described wind2, is placed in the rotation of described axis of symmetry 6.This can preferably carry out in the following way, and the first flange 45 of described support bobbin 49 is set in a bobbin storing apparatus, and described bobbin storing apparatus is driven and is placed in rotation in the case by a motor.Also the second flange 44 of preferred described support bobbin 49 couples with another bobbin storing apparatus in the case, and it is rotatably support equally, but needn't motor ground drives and substantially for mechanically stablize the bobbin 9 and 49 of described rotation during reeling.

Figure 13 there is shown the first flange 45 of described support bobbin 49 in different showing.Shown in birds-eye view (a) in the visible projection 43 that keeps, by means of them, described the first flange 45 releasably can be arranged on the bottom of support bobbin core body 41 of described support bobbin 49, its mode is, the described projection 43 that keeps is arranged in the locking projection the free end of described support bobbin core body 41 accordingly from below interlocking (untergreifen).About aspect other details of the described design that keeps projection 43 and the corresponding locking projection on described support bobbin core body 41 with reference to WO 94/13570 A1.

In addition, shown in birds-eye view (a) in visible two driving levers 42.They are shaped in this example on a side of the substrate 46 of described the first flange 45, as can be referring to lateral plan (b), the first three-dimensional view (c) and section drawing (e).

The second three-dimensional view (d) shows the first flange 45 of described support bobbin 49 from the back side of described substrate 46, described substrate is provided with a large amount of enhancing ribs 47 at this.

Claims (26)

1. for holding the bobbin of coiling material, have

One bobbin core body rotational symmetric, particularly taper (1) and one first flange (5), described bobbin core body is used for holding described coiling material, wherein, described bobbin core body (1) has a first end (2) and one or more the first locking region (10), and described the first flange has one or more the first locking elements (20)

It is characterized in that,

On the first end (2) of described bobbin core body (1), be provided with one or more the second locking regions (11) and on described the first flange (5), be provided with one or more the second locking elements (21), wherein, described the second locking region (11) is configured in described bobbin core body (1) above as follows and described the second locking element (21) is configured on described the first flange (5) as follows, make when described the first locking element (20) is rabbeted with corresponding the first locking region (10), described the second locking element (21) and corresponding the second locking region (11) interlocking.

2. according to bobbin claimed in claim 1, wherein, described the first locking region (10) has the different angle position about the rotating shaft (6) of described bobbin core body (1).

3. according to the bobbin described in claim 1 or 2, wherein, described the second locking region (11) has the different angle position about the rotating shaft (6) of described bobbin core body (1).

4. according to the bobbin described in claim 2 and 3, wherein, at least one second locking region in described the second locking region (11) has an angle position, and described angle position is consistent with the angle position in a first locking region in described the first locking region (10).

5. according to the bobbin described in aforementioned claim any one, wherein, described the first locking element (20) has the different angle position about the rotating shaft (7) of described the first flange (5).

6. according to the bobbin described in aforementioned claim any one, wherein, described the second locking element (21) has the different angle position about the rotating shaft (7) of described the first flange (5).

7. according to the bobbin described in claim 5 and 6, wherein, at least one second locking element in described the second locking element (21) has an angle position, and described angle position is consistent with the angle position of first locking element in described the first locking element (20).

8. according to bobbin in any one of the preceding claims wherein, wherein, described the second locking region (11) is configured to projection and/or the depression on the first end (2) of described bobbin core body (1).

9. according to bobbin claimed in claim 8, wherein, the described raised or sunken orientation with the rotating shaft (6) that is parallel to described bobbin core body (1).

10. according to bobbin claimed in claim 8, wherein, the described raised or sunken orientation with the shell face that is parallel to described bobbin core body (1).

11. according to bobbin in any one of the preceding claims wherein, and wherein, described the second locking element (21) is configured to depression and/or the projection on described the first flange (5).

12. according to bobbin in any one of the preceding claims wherein, wherein, and described the first locking element (20) and/or described the second locking element (21) and described the first flange (5) single type ground structure.

13. according to bobbin in any one of the preceding claims wherein, wherein, zone line (23) is set between described the first locking element (20), described zone line matches with the shape of the particularly taper of described bobbin core body (1) as follows, make when described the first locking element (20) is rabbeted with corresponding the first locking region (10), described zone line abuts on the first end (2) of described bobbin core body (1).

14. according to the bobbin described in claim 13, wherein, described zone line (23) has one along the interior zone of radially observing, and described interior zone is with between about 3 ° and 9 °, particularly the angle of about 6 ° (α) tilts with respect to the rotating shaft (7) of described the first flange (5).

15. according to bobbin in any one of the preceding claims wherein, wherein, axial projection and described projection that described the first locking element (20) is configured on described the first flange (5) have respectively a locking nose (22), described locking nose can with first end (2) at described bobbin core body (1) on corresponding the first locking region (10) interlocking.

16. according to the bobbin described in claim 15, wherein, described locking nose (22) has a smooth inclined-plane (24) particularly, described inclined-plane along radially observe be positioned at inside and with respect to the rotating shaft (7) of described the first flange (5) with between about 20 ° and 40 °, particularly the angle () of about 30 ° tilts.

17. according to bobbin in any one of the preceding claims wherein, and wherein, described the first locking element (20) can be embedded in the first locking region (10) the first end (2) of described bobbin core body (1) from outside along radially observing.

18. according to the bobbin described in claim 17, wherein, described the first locking element (20) is so constructed, make reel described bobbin core body (1) with coiling material in the situation that, described the first locking element by described coiling material towards described the first locking region (10), particularly radially inwardly extruding.

19. bobbin component systems, have

At least one rotational symmetric bobbin core body (1) and at least one the first flange (5), described bobbin core body is used for holding coiling material, wherein, described bobbin core body (1) has a first end (2) and one or more the first locking region (10), and described the first flange has one or more the first locking elements (20)

It is characterized in that,

On the first end (2) of described bobbin core body (1), be provided with one or more the second locking regions (11), and on described the first flange (5), be provided with one or more the second locking elements (21), wherein, described the second locking region (11) is configured in described bobbin core body (1) above as follows and described the second locking element (21) is configured on described the first flange (5) as follows, make by described the first flange (5) cover is installed on the first end (2) of described bobbin core body (1), can make described the first locking element (20) and corresponding the first locking region (10) interlocking, and side by side described the second locking element (21) is rabbeted with corresponding the second locking region (11).

20. for being fixed on one first flange (5) according to the method on the bobbin core body (1) of the bobbin component system described in claim 19, wherein, the first end (2) that described the first flange (5) cover is installed to described bobbin core body (1) above and subsequently rotates with respect to described bobbin core body (1), until described the first locking element (20) is rabbeted with corresponding the second locking region (11) with corresponding the first locking region (10) interlocking and described the second locking element (21).

21. methods for one first flange (5) is unclamped from the bobbin core body (1) of the bobbin according to described in claim 1 to 18 any one, wherein, one instrument (30-32) is inserted into the inside of described bobbin core body (1), and departs from interlocking with the described first and/or second locking region at least in part with first or second locking element (20 or 21) of the described first and/or second locking region (10 or 11) in interlocking.

22. for reeling with coiling material according to the method for the bobbin (9) described in claim 1 to 18 any one, has the following step:

-that described bobbin (9) cover is installed to a support bobbin (49) is upper, and described support bobbin has the flange (45) on the support bobbin core body (41) of a preferred taper and an end that at least one is arranged in described support bobbin core body (41), and

-described support bobbin (49) is placed in to rotation, wherein, cover installs to bobbin (9) on described support bobbin (49) and is placed in equally in rotation and in the case and reels with the coiling material of supplying with,

It is characterized in that,

The flange (45) of described support bobbin (49) by means of at least one be arranged on driving lever (42) on the flange (45) of described support bobbin (49) and described bobbin (9) flange (5) form fit couple.

23. in accordance with the method for claim 22, wherein, upper by described bobbin (9) cover being installed to described support bobbin (49), make the medial surface of the bobbin core body (1) of described bobbin (9) abut at least in part on the lateral surface of described support bobbin core body (41) and couple in locking manner with described lateral surface friction thus.

24. according to the method described in claim 22 or 23, wherein, at least one is arranged on driving lever (42) on the flange (45) of described support bobbin (49) and in the coupling of described form fit, is embedded in the gap between the single rib (27) that is shaped at least one flange in described bobbin (9) (5).

25. support bobbins (49), for being applied according to the method for a bobbin (9) of reeling described in claim 22 to 24 any one, described support bobbin has the flange (45) on the support bobbin core body (41) of a preferred taper and an end that at least one is arranged in described support bobbin core body (41)

It is characterized in that,

On the flange (45) of described support bobbin (49), at least one driving lever (42) is set, by described driving lever can by the flange (45) of described support bobbin (49) and a set of flange (5) form fit that installs to the bobbin (9) on described support bobbin (49) couple.

26. flanges (45) for a support bobbin (49), described support bobbin is for being applied according to the method for a bobbin (9) of reeling described in claim 22 to 24 any one, and described flange has a smooth basal plane (46),

It is characterized in that,

At least one driving lever (42) is set on described basal plane (46), by described driving lever can by the flange (45) for described support bobbin (49) and a set of flange (5) form fit that installs to the bobbin (9) on described support bobbin (49) couple.

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