US 3818912 A
A catamenial tampon having a recess at one end with the draw string wholly disposed within the recess.
Description (OCR text may contain errors)
O Unlted States Patent 1191 1111 3,818,912 Etz June 25, 1974 CATAMENIAL TAMPON  References Cited  Inventor: Herbert Etz, Wuppertal-Langerfeld, UNITED STATES PATENTS Germany 1,755,109 4/1930 P611161 128/285 x Assigneez Dr. s Hahn KG, Dusseldorf 1,887,526 11/1932 Splelberg et al. 128/285 Germany 2,587,515 2/1952 Pansh 128/285  Filed: Sept 19, 1969 FOREIGN PATENTS OR APPLICATIONS 182,307 1/1963 Sweden 19/144.5 pp No.: 870,783 490,024 8/1938 Great Britain 128/285 Related LS. Application Data 527,474 10/1940 Great Britain 128/285,  D1v1s10n of Ser. No. 502,780, Oct. 21, 1965,, Primary Examiner charles F- Rosenbaum Pat. No. 3,477,102. 1
- Attorney, Agent, or Firm-Jason L1pow  Foreign Application Priority Data 061. 22, 1964 Netherlands 6412326  ABSTRACT A catamenial tampon having a recess at one end with LS, Cl. the draw tring wholly disposed within the recess  Int. Cl. A6lf 13/20  Field of Search 128/270, 285; 19/1445 1 Clalm, 17 Drawmg Flaws PATENIED JUNZS K174 SHEET 1 BF 6 v Inventor HERBER ETZ .L w f MM,
ATTORNEYS PAIENTEDmzsmu SHEU 3 BF 6 lure/Ital? HERBERT E'TZ PATENTEBMNZBIQY'I 1818.912
SHEEI 6 BF 6 Inventor ET I CATAMENIAL TAMPON RELATED CASES This application is a division of Ser. Number 502,780 filed Oct. 21, 1965, now US. Pat. No. 3,477,102.
The invention relates to catamenial tampons of the type comprising a rolled pad of wadding, such as cotton wool, provided with a draw thread for removal purposes.
Draw threads are apt to complicate the process of rolling the pad of wadding and to be a hindrance in the subsequent packing and marketing of the articles.
An object of the invention is to provide an improved method of and apparatus for assembling tampons of the type above referred to and, particular, for manipulating and interengaging the draw thread and the wadding pad in the operation of rolling up the latter resulting in a final formation of the free end of the draw thread such that it lies within the overall external dimensions of the rolled pad, presents a neat appearance and can be located without difficulty by the user.
The method according to the invention for the production of a tampon by rolling up a wadding pad upon a rotating mandrel comprises forming a knotted loop of draw thread slung with clearance around said wadding pad, with the thread ends lying across the width of the pad, and whilst rolling up the pad by rotation of the mandrel, forming an annular recess within that end of the rolled pad adjacent the free ends of the draw thread and simultaneously spirally winding the free ends of the draw thread into a flat spool seated in said annular recess.
More particularly the method comprises forming a knotted loop of draw thread slung with clearance around said wadding pad with the thread ends lying across the width of the pad, axially displacing a hollow sleeve with respect to the mandrel whilst rotating the latter to roll up the wadding pad, thereby forming an annular recess within that end of the rolled pad adjacent the free ends of the draw thread and simultaneously spirally winding the free ends of the draw thread into a flat spool seated in said annular recess.
The apparatus according to the invention for the production of a tampon by rolling up a wadding pad upon a rotatory mandrel may comprise means for forming a knotted loop of draw thread and slinging it with clearance around the wadding pad before the latter is rolled up on the mandrel, a hollow sleeve mounted for coaxial movement over the mandrel but non-rotatable with respect to the mandrel, means for axially reciprocating said hollow sleeve, thread guiding means carried by the mandrel and by the coaxial hollow sleeve, said thread guiding means carried by the hollow, sleeve being shaped to intercept and direct the free ends of the draw thread internally and axially of said hollow sleeve while the mandrel is rotated and while the hollow sleeve is displaced axially by the reciprocating means into one end of the pad being rolled up, whereby the draw thread is wound into a flat spiral spool seated in an annular recess formed by said hollow sleeve in the end of the rolled up pad.
For engagement with the wadding pad, the mandrel isslotted to engage both sides of the pad. The reciprocatable but non-rotatable hollow sleeve serves both for sliding the rolled up pad off the mandrel when completed and for forming, in conjunction with the mandrel the flat spirally wound spool of draw thread.
The free end of the hollow sleeve facing the pad of wadding has on its frontal side an annular collar, bounded radially outward by a shoulder, into which a guide cam for the draw thread is tangentially directed. The cam is directed against the winding mandrels direction of rotation, is arcuately shaped and extends away from the free end of the mandrel whilst maintaining a constant distance from the mandrels longitudinal axis.
To reduce to a minimum the space taken up by the hollow sleeve in its axial displacement against the end of the wadding pad and simultaneously to facilitate pressing the sleeve against the pad, provision is made according to a further feature of the invention for the winding capsule to taper conically towards its free end.
The width of the guide cam for winding the draw thread is designed to be smaller than that of the annular shoulder in such a way that the annular shoulder radially bounds the guide cam on the inside. This ensures perfect hygienic conditions while guiding the draw thread to be wound up.
Advantageously, provision is made for the guide cam to extend over a circumferential angle of about of the hollow sleeve and to extend towards the end remote from the free end of the mandrel and with the annular collar, to merge into a common surface more or less horizontal and parallel with the sleeves longitudinal axis. In this arrangement, the end of the sleeve facing the winding mandrel is provided with a slotted slide ring which is releasably secured to the sleeve.
According to a further feature of the invention, the reciprocating motion of the sleeve is derived from a cam actuated by a motor against a restoring force and the motor also actuates in timed relation a further cam for the axial reciprocating motion of the winding mandrel.
According to a further feature of the invention the motor drives through an intermediate gear a further cam in addition to the two cams for the sleeve and the winding mandrel, and rotary motion of the mandrel is obtained from the further cam by a lever, one arm of which is actuated by the cam and the other arm of which is linked to a rack which meshes with a splined bush on the driving shaft of the winding mandrel.
Preferably use is made of a winding mandrel having a longitudinal slot, the length of which is slightly less than the width of the wadding pad and the opening of the slot slightly larger than the thickness of the wadding pad, and the fork constituted by the slot in the mandrel is provided at the front ends with two notches for the thread set transversely to the mandrel axis.
These notches are situated within the range of movement of a thread transfer device, which, independence on the traction exerted on the loop of thread by a knotting device against a restoring force, passes the knotted loop of the draw thread encircling the wadding pad on to the notches in the winding mandrel. This makes it possible so to combine the device for looping the thread over the wadding pad and for knotting the loops ends with the apparatus for rolling up the wadding pad and winding the draw thread as to ensure continuou production of the finished tampons.
As an extension of this feature of the invention, the thread transfer device is fork-shaped, with its end so spaced apart in relation to the external diameter of a rotating spiral thread guide driven by a wheel, that, on each occasion, the thread loop is transferred to the thread transfer device from the guide, is knotted and is held by the transfer device against spring action in the position for taking up of the loop by the mandrel.
According to a further feature the ends of the forkshaped thread transfer device extend over the frontal surface of the spiral thread guide so that, under all operational conditions, the loop will be safely taken up by the transfer device when the knotted loop has been made.
The thread transfer device can advantageously be arranged to pivot on an axis parallel with the rotational plane of the wheel which rotates the spiral thread guide.
A further feature of the invention consists in a design of the spiral thread guide so that it merges at the front into a nose extending tangentially beyond the circumference, and which, when the spiral guide is rotated can move within a small distance of the ends of the thread device serving for the uptake of the loop. The nose on the front of the spiral guide thus contributes to the safe transfer of the loop to the thread transfer device.
The method and apparatus will now be described in more detail with reference to an example illustrated in the accompanying diagrammatic drawings, wherein:
FIG. 1 is an apparatus for winding and pressing in the draw thread.
FIG. 2 is a side view of FIG. 1 along the section line IIII.
FIG. 3 is a larger scale view of a sleeve shown in FIG. 1.
FIG. 4 is a front view of the sleeve as in FIG. 3. FIG. 5 is a longitudinal section along the line VV in FIG. 3.
FIG. 6 is a transverse section along the line VI-VI in FIG. 5.
FIG. 7 is a partial representation of the apparatus according to FIG. 1 before the transfer of the knotted loop on to the winding mandrel.
FIG. 8 is a frontal view of FIG. 7.
FIG. 9 is a side view of FIG. 7.
FIG. 10 shows the apparatus as in FIG. 7 with the loop of the draw thread passed onto the winding mandrel.
FIG. 11 is a frontal view of FIG. 10.
FIG. 12 is a representation according to FIG. 7 and FIG. 10 as the draw thread is being wound into a spool.
FIG. 13 is a frontal view of FIG. 12.
FIG. 14 is a cotton wool pad with a knotted loop of the draw thread passed thereover.
FIG. 15 shows the rolled up cotton wool with the protruding knotted end of the loop of the draw thread.
FIG. 16 shows the draw thread wound into a spool and pressed against the frontal end of the cotton wool roll.
FIG. 17 is a longitudinal section through the tampon as in FIG. 16.
The drawings illustrate an apparatus for curling up the free end of a draw thread 1 and pressing it into one end of a wadding roll 2 of the kind used as menstruation tampons, this pressing operation being performed by means of a slide which, for the purpose of removing the finished roll from a winding mandrel 3, can be moved parallel to said winding mandrel engaging the wadding roll.
According to the invention, the slide takes the form of a sleeve 5, which can be displaced coaxially upon the winding mandrel 3 but is non-rotatable. The free end of the sleeve facing towards the length of wadding fleece 4 possesses a frontal annular collar 6 (FIGS. 3 to 6), which bounds radially outward an internal annular shoulder 7.
A guide cam 8 for the draw thread merges tangentially (at 9) into the plane of the annular shoulder, which cam is directed against the rotation sense of the winding mandrel as shown by the arrow x and extends, arcuately shaped (at 10) towards that end remote from the winding mandrel whilst remaining at a constant distance from the long axis of the winding mandrel. Externally the sleeve 5 is conically tapered at 11 towards its free end.
The width of the guide cam 8 is designed to be smaller than that of the annular shoulder 7 and specifically in such a way that the annular shoulder bounds the guide cam radially inward at 12. The guide cam 8 extends over a circumferential angle of about of the sleeve and merges at the end remote from the winding mandrel, together with the annular collar 6, into a common surface 13 more or less horizontal and parallel with the sleeve longitudinal axis. The sleeve takes the form of a core tube (FIG. 5), on the end of which fac ing the free end of the winding mandrel a slotted pusher ring 15 is releasably attached by a screw 16. At that end of the core tube remote from the ring 15 is mounted a non-rotatable bush 17 provided with diametrally opposite studs 18a, 18b. The studs engage in slots 19 (FIG. 1) of a forked driver 20 secured to one end of a push rod 21, which is mounted for longitudinal displacement parallel to the longitudinal axis of the winding mandrel 3 in a part of the machine 22 shown partly broken away. Two tension springs 23a, 23b engage with one end a cross head 24 mounted transversely upon the push rod and have their other ends connected to a fixed point 25a, 25b of the machine, and the push rod 21, with a rotatable roller 26 secured to its end remote from the fork-shaped driver 20, bears continuously upon a cam disc 27.
The cam disc 27 is coupled by an endless flexible component 28 with a shaft 29, which, through a further endless flexible component 30 is actuated by a drive motor 31.
Upon the shaft 29 is mounted a further cam disc 32, which operates in conjunction with a roller 33 at one end of a double lever 34. The double lever 34 is pivoted about an axis 35 and, by means of tension spring 36, which engages its other lever arm, has its roller 33 continuously pressed against the cam disc 32. The end of the double lever remote from the roller possesses a slot 37, engaged by a pin 38 attached to a block 39. The block 39 can be longitudinally displaced but is secured against rotation, and coupled to a driving shaft 40 carrying the winding mandrel 3 at the opposite end so that it cannot be displaced axially with respect to said shaft 40 but allows the shaft to rotate. Thus is ensured a synchronous drive for the cam discs 27 and 32 and derived from them is an accurately determined axial movement of the push rod 21 and of the winding mandrel 3.
Non-rotatably attached to the driving shaft 40 of the winding mandrel 3 is a splined sleeve 41, engaged by a rack 42 which can be vertically reciprocated. The
lower end of the rack is attached to a link lever 43, the lower end of which is articulatedly connected to a double lever 44. The double lever is pivotally mounted upon an axis 45. The end of the double lever 44 remote from the attachment point 46 for the link lever 43 is fitted with a roller 47, which, under the action of a tension spring 48, continuously makes contact with a cam disc 49. The cam disc 49 is coupled by a suitable gearing 50 to a shaft 51, which is itself coupled by a bevel gear 52 to the driving shaft of motor 31. It is quite clear that in this way cam disc 49, also, performs an accurately determined movement with relation to the axial reciprocating motions of the push rod 21 for the sleeve and of the driving shaft 40 for the winding mandrel 3 and ensures the clockwise and counter-clockwise rotation of the driving shaft 40 for the winding mandrel 3 corresponding to the reciprocating motion of the rack FIGS. 7 and 9 show that the winding mandrel 3 possesses a longitudinal slot 53, the length of which is designed to be slightly less than the width of the wadding pad 4 to be rolled up, and the gauge of the slot larger than the thickness of the pad 4. The fork prongs 54a, 54b formed by the slot are provided at their front ends with two notches 55 set transversely to the winding mandrel axis (FIG. 7) and lying, prior to the rolling of the pad, in the region of its outer longitudinal edges. The notches 55 on the free frontal side of the winding mandrel 3 are situated within the range of thread transfer device 56, which, in dependence upon the tractive force which a notting device 57 exerts on the loop of the draw thread 1 against the effect of a resetting springs 58 (FIGS. 7 and 8), passes the loop onto the notches in the winding mandrel. The fork prongs 54a, 54b have a slightly smaller spacing from each other than the external diameter of a spiral guide 59. The spiral guide 59 is associated with a revolving wheel 60 for an endless flexible component 61 that, on each occasion, runs the draw thread 1 around the wadding pad 4 and is also associated with the knotting device 57.
The draw thread transfer device 56 is normally held by the spring resetting device 58 in the position illus trated by the full lines in FIG. for receiving the loop of the draw thread 1 (FIGS. 12 and 13). The transfer position of the thread transfer device can be seen from the dotted line position in FIG. 10. The ends of the fork 56a, 56b cover, with a small clearance, the end face of the spiral guide 59 by means of a part which runs to a point from transfer shoulders 560 for the loop, which clearance is nevertheless sufficient to ensure the transfer of the loop of the draw thread 1 from the spiral guide onto the transfer shoulders 56c, onto which the thread loop arrives by the effect of the traction exerted on it by the knotting device. In the course of the pivoting of the thread transfer device the thread loop becomes forced more strongly against the above mentioned ends 56a, 56b of the device, as FIG. 7 clearly shows. The end of the transfer device remote from the ends of the fork is arranged to pivot on an axis 62 parallel with the plane of rotation of the travelling component 61. The spiral track of the guide merges in the direction of its frontal side into a nose 59a extending somewhat tangentially beyond the spirals circumference. When the spiral'guide is rotated this nose moves with only a small clearance past the ends 56a, 56b of the transfer fork serving to take up the loop of the draw thread 1. FIGS. 12 and 13 clearly show that in this operation the nose and the ends of the thread transfer device overlap in such a way as to ensure that the loop of the draw thread 1 can slide over the guide nose 59a onto the transfer device.
As shown in FIG. 8, the knotting device also comprises another guide wheel 63 for the endless flexible component 61, with which is connected a controllable thread puller 64. The guide wheel 63 is connected to a knotting hook, which is not illustrated, and which cooperates with a thread guide cam 65. A control lever 66 serves to shut off the machine when a loop is not knotted. A supply spool for the thread is shown as 67. The knotting device is not part of the present invention.
The apparatus described operates according to the invention as follows:
When the knotted loop of the draw thread 1, encircling with clearance the length of wadding to be rolled up, has been transferred into the end face notches of the winding mandrel 3 which embraces the wadding fleece at both sides, the sleeve 5, which can be displaced only axially, is displaced by a multiple of the axial distance between the end surface of the annular collar 6 and the internal annular shoulder 7 in the direction of the wadding fleece 4. The doubled, knotted end of the thread 1 is then drawn by the subsequent rotation of the winding mandrel 3 into the annular space bounded by the annular collar 6, the winding mandrel 3, the roll of wadding 2 and the annular projection 7 thus forming a spiral-shaped spool of thread and, specifically, in such a way that the spool lies within the roll of wadding and is substantially flush with its outside surfaces. On completion of the winding mandrels rotation, the wadding roll 2 is pushed by the action of the sleeve 5 over the free end of the winding mandrel with the result that the spool of thread 68, because of the greater friction between the wadding and the thread material, remains attached to the roll when the sleeve is later drawn away from the ejected wadding roll 2.
The apparatus above described achieves the advantageous working cycle wherein after the draw thread loop encircling the wadding pad with clearance has been transferred to the winding mandrel, the pad is rolled up whilst the projecting end of the draw thread is synchronously wound into a spool and pressed against the end of the roll, this being done in timed relation with the knotting operation so that a further knotted loop'is prepared ready to be thrown around the next wadding pad whilst the preceding pad is being rolled up.
The arrangement of the annular collar on the end surface of the winding mandrel adjacent the wadding pad, in combination with the internal annular shoulder and the associated cam ensures that the draw thread will be evenly wound and pressed against the frontal side of the cotton wool pad with "the high reliability required by mass production. This arrangement of the thread has various advantages. Firstly, when the pad is later compressed and packed in the finished condition, the draw thread can neither be damaged not interfere with the smooth flow of production. Secondly, the arrangement simplifies the actual handling of the tampon by the user, since the end of the draw thread can be located with ease and certainty even in the dark, so that use of the tampon can be begun without the timeconsuming manipulations which may be involved in the undesirable loosening of the tampon wadding. Finally, an advantage is that the arrangement favours the use of form, which spiral rolled wadding has a recess in one end thereof, said draw string protrudes through said recess, is spiral wound in the shape of a substantially flat spiral and said spiral wound draw string is disposed wholly within said recess,
Disclaimer 3,818,912.-He1'be1't Eta, Wuppertal-Langerfeld, Germany. CATAMENIAL TAMPON; Patent dated June 25, 197 4. Disclaimer filed Aug. 27, 1979, by the assignee, Dr. Owl H aim, G.m.b.H. Hereby enters this disclaimer to claim 1 of said patent.
[Ofioial Gazette Jww-10,1980.]