DEVICE FOR FEEDING IN BOOTS OF HAIR

专利摘要:
A device (1) for supplying bundles of hair (2) to a subsequent treatment device comprising a device for stripping bundles of hair (2). In order for the feed device (1) to mechanically feed oriented bundles of hair (2) to a subsequent treatment device, a retainer (10) is provided on the device (1) which acts with a first suction element (5a) on at least one bundle of bristles (2) and to hold by the force exerted by the suction element (5a) said at least one bundle of bristles (2)
公开号:BE1021996B1
申请号:E2014/0018
申请日:2014-01-14
公开日:2016-02-02
发明作者:Bernhard Rees；Ingo Kumpf；Florian Kiefer
申请人:Zahoransky Ag；
IPC主号:

专利说明:

The invention relates to a device for feeding a subsequent treatment device into bundles of hair, in particular a filling machine, comprising a device for stripping bundles of bristles which are surrounded at least by places of an envelope. The invention also relates to a method for stripping at least one bundle of bristles surrounded at least in places by an envelope.
The bristle material is generally provided in skeins from one to several meters in length. These skeins are for example surrounded by an envelope in the form of a spiral-shaped paper web or enclosed in a plastic hose and are cut to the desired length before further processing. Before bringing the individual hair bundles to a stock of hair of a packing machine, for example of the material cassette type, these envelopes must be removed. This can be done both by hand and mechanically. This is known, for example, from DE 103 56 316 A1.
Also known are bristle boots with treated filaments, particularly tapered, on one or both sides for different types of brushes. The filaments of these pile boots are, as a rule, manufactured by a chemical process but can also be produced by a mechanical process (eg grinding). In addition, these filaments can also be made of natural products such as animal hair or plant fibers. These bristle boots are usually hand-assembled and are surrounded by a commercially available household elastic or a strip of paper.
If a bundle of bristles has customary, untapered individual filaments, it does not matter whether the bundle of hairs in question is grasped centrally or rather in an edge zone to be conveyed to the subsequent treatment device, since an element seizure used to do this always happens to take the boot of hair in a safe way. If, on the other hand, the individual filaments of the bundle of hair are tapered on one side or both sides and the pile of hair is grasped near its upper or lower edge, it often happens that the bundle of hair falls from the input element. For this reason, until now, such a pile of hair was brought by hand to the stock of hair. The hand routing of tapered pile hair boots on one or both sides requires personnel to be permanently in charge of the hair supply. The use of an input element for the routing operation in the case of tapered pile hair boots on one side or both sides is complicated by the fact that the envelope that holds together the bundle of hair with its filaments is disposed precisely at the point where the gripping element is to be positioned on the bundle of bristles.
Finally, it may happen, during the separation of a pile of hairs from its skein, for example by means of a bench shear, that the filaments move relative to each other inside the boot. bristles and that individual filaments protrude from one end of the pile bundle. This can lead to disturbances for a subsequent downstream processing device or for its supply.
Therefore, the purpose is to provide a feeding device that avoids the aforementioned drawbacks and that allows to easily and safely feed a subsequent treatment device in bunches of aligned bristles, free of protrusion and stripped.
This object is achieved by a feeding device of the type mentioned at the beginning for which there is provided on the device a retaining device which acts with a first suction element at least on a bundle of bristles on at least one of its front sides and which maintains by the force exerted by the suction member said at least one bundle of bristles with that frontal side adjacent to a first bearing surface associated with the retainer and oriented substantially transversely to the longitudinal extent of said filaments. less a bundle of hair. By the action of the frontal side by means of at least one suction element, said at least one bundle of bristles is thus appropriately held against the bearing surface so that no "lateral" action must take place for attach the bundle of hair during stripping and subsequent seizure for transport. For this purpose, air can be sucked on at least one or both of the front sides of the pile bundle by the suction member during stripping until the bundle of hair is grasped again. The suction of the air through one or both sides of the bundle of bristles has the effect of passing the air laterally into the bundle of bristles and thus to hold together the filaments. The first bearing surface can, in this way, preferably provide a support for the pile bundle downwards, thus having a horizontal orientation so that the filaments of the pile bundle are vertical.
In an advantageous embodiment of the feeder which is able to act selectively on one of the two front sides of said at least one pile bundle with a suction member, the retainer has a second suction member which acts on the other frontal side of said at least one bundle of bristles which thereby comes into contact with a second bearing surface. The abutment surfaces mentioned may preferably be oriented parallel to one another.
A suitable improvement of the feed device may be that each of the suction elements of the retainer acts alternately on said at least one bundle of bristles at least once, preferably several times successively. As a result, said at least one bundle of bristles reciprocates as a whole between the suction elements, in particular upwards and downwards, so that filaments displaced relative to each other are new oriented rectilinearly and that the filaments are arranged substantially parallel to each other in pairs (each relative to each). The feeding device can, in this sense, form a straightening station.
To have said at least one bundle of bristles on the bearing surface in a defined position in which undesirable excursion of the surface is prevented, another embodiment of the device according to the invention can be provided, on at least one bearing surface of the retainer, a plurality of projections or similar markings which delimit a surface and which border the cross section of said at least one bundle of bristles. The reproducibility of the position of the pile boot also helps when controlling the gripping elements that deposit the pile of hair on a surface or seize it again.
In order to effectively prevent movement of the individual filaments occurring along their longitudinal extent, said at least one bundle of bristles may advantageously, in another embodiment of the feeder, be disposed at least temporarily during stripping between the first bearing surface and a retaining portion of a retaining element associated with the retaining device which can be positioned in opposition to the bearing surface, the retaining portion and the bearing surface forming essentially parallel planes between them. As a result, the filaments remain in their place even when a pushing means acts laterally along their longitudinal extent and the pile bundle remains in this form.
The retainer portion of the retainer may preferably cover the cross section of the at least one bundle of bristles with its cross-section so that all filament ends of the bundle of bristles are grasped.
In other advantageous embodiments of the supply device, suitable retaining elements may be provided which have a surface parallel to the first bearing surface, a holding plate in contact or the second suction element. But the latter must not exert suction force on said at least one bunch of hair in its function as a retainer but he can however.
In order that the suction force transmitted by the suction elements can act on the front end bearing surface (s) on the ends of the at least one bundle of bristles, an advantageous embodiment of the feed device provides that at least one bearing surface, preferably all bearing surfaces are provided at least in places with a gas-permeable separation layer. In this way, air can be sucked through such a porous layer onto one or both of the front sides during stripping until the pile of hair is grasped again. The suction of the air on one or both sides of the pile bundle causes the air to enter laterally into the bundle of bristles and thereby hold the filaments together.
The separating layer may preferably be formed by a planar structure in the manner of a woven structure, particularly a fine mesh filter cloth. A filter cloth which is made from fine steel wire, so-called braided fabric, is particularly suitable. The braided fabric is extremely thin and can be made in different thicknesses of yarn. Because of the weaving of steel wires into a braided fabric, no direct passage through the fabric is formed. The air must always pass laterally around the wires. As a result, the terminal tips of the tapered filaments are preserved. Other configurations of the gas permeable separation layer are, however, conceivable.
In order to be able to position the suction elements relatively quickly and precisely in a simple manner with respect to each other and thus to accelerate the stripping process, in an advantageous improvement, at least one of the suction elements can be moved relative to the least to another suction element of the device on a positioning device which has or less a degree of freedom of translation and / or rotation.
Another embodiment of the feeder conveys the bundles of bristles to the feeder and from the feeder to a subsequent processing device by at least one gripping member by means of which the at least one boot of hair can be seized releasably and / or moved from before and / or after stripping.
To strip the bunches of bristles, at least one stripping tool is provided on the feed device according to the invention. In various advantageous embodiments, it may for example be provided with at least one separation means which opens the envelope at least partly or in places, the separating means having for example at least one blade. In another embodiment, the stripping tool has a thrust means that moves the envelope of said at least one bundle of bristles axially and / or tangentially with respect thereto and / or loosens the shroud at least in places and / or widens a partially open part of the envelope. The stripping tool may also, in another embodiment, have a retainer which retains the envelope loosened or at least partially opened during the stripping process. It is also possible for a device such as a gripper, for example, to fill several functions simultaneously and for example form at the same time a thrust means which displaces the casing axially and tangentially and a retaining device which retains the casing against the device. grasping element when moving the pile of hair.
With regard to the height of the bundles of hairs which is determined by the length of the filaments, there is in principle no limitation. Said bundle of bristles, however, particularly preferably has a height of between 5 mm and 30 mm, in particular between 10 mm and 20 mm.
In order to be able to bring a bundle of bristles alternately against two opposite bearing surfaces brought closer to one another, the second suction element may, in another embodiment, be positioned relative to the free end end of the bundle of bristles held by the first suction element such that the resulting distance is between 5% and 50%, in particular between 10% and 25% of the height of the bundle of bristles.
The above mentioned purpose is also achieved by a method for stripping at least one bundle of bristles surrounded at least in places by an envelope. According to this method, a previously described device with its various embodiments is used in particular. The method according to the invention has the following steps: a) supplying the bundle of wrapped hairs to a feeding device; b) maintaining the pile of hair on at least one of its front sides by a suction element. c) separation at least in places of the envelope of the pile of hair by a stripping tool or axial and / or tangential displacement of the envelope relative to the pile of hair and / or seizure of the envelope by a piece restraint. d) seizing the pile of hair denuded at least in places by a gripping element and routing to a subsequent treatment device.
This may for example take place as follows: the cut pile boots are surrounded by a strip of paper used as an envelope and the pile of hair is on a suction element provided with a woven fabric in its bearing surface . After engaging the suction element, the inner beginning of the paper web is gripped with a clip where the paper web overlaps and is removed on half of the pile bundle. The vacuum generated by the suction force, present in the pile of hair, makes sure that the paper does not come off the pile of hair. A gripper can then grab the pile bundle in the middle and place it in the pile storage of the subsequent processing machine. The paper strip is completely removed beforehand.
This principle can also be applied when the hair boots are stripped by hand. For this purpose, a region of a bottom plate of the stock of bristles may be lined with a braided fabric to serve as a support surface. The region below is configured with holes through which an aspirating element can draw air here. During removal of the envelope, it is possible to leave the suction element engaged to stabilize the pile of hair. During operation of the stock of bristles, the suction device may also be engaged to prevent the individual filaments from moving upward beyond the side wands. At the same time, the individual filaments are held together on the bottom plate.
Finally, the use of at least one aspirating element with suction through a woven surface structure, for example a braided fabric, is also advantageous when manually handling bundles of bristles with treated filaments, in particular tapered, one side or both sides.
In an advantageous variant, the method may have a step where before the manipulation of the envelope, a suction element can act alternately on the front sides of the pile bundle, after which the filaments are aligned and their very ends. have a common plane perpendicular to the longitudinal extent of the filaments.
Another advantageous variant of the method may also include a step where a stripped pile of hair that is to be supplied to a feeder is first cut to size in a skein. The invention will be explained in more detail below on the basis of exemplary embodiments in the drawing. In a partially schematized representation, FIG. 1 shows a perspective view of a first exemplary embodiment of the feeder with a bundle of bristles which is disposed on the suction member and which is held together by an envelope in the form of a rubber band; fig. 2 shows a perspective side view of the feed device of FIG. 1 with a pushing means surrounding the pile of hair below the shell and a retainer on the upper front side of the pile boot in contact with the front side thereof; fig. 3 shows a perspective side view of the feeding device of FIGS. 1 and 2 wherein the biasing means has urged the bundle of bristles toward the retainer and a gripper grasps the bundle of bristles approximately in the middle of its height; fig. 4 shows a perspective side view of the feeding device of FIGS. 1 to 3 where the pile of hair which is held by the gripping element is still on the first suction element; fig. 5 shows a perspective side view of a second exemplary embodiment of the feeder device where the wrapper of the pile bundle is made of a paper strip which surrounds the bundle of hairs over its entire height; fig. 6 shows a perspective side view of the feed device of FIG. Wherein pushing means is applied to the envelope; fig. 7 shows a perspective side view of the detail circled in FIG. 6; fig. 8 shows a perspective side view of the feed device of FIGS. 5-7, wherein the biasing means has axially displaced the bundle of pile bundles relative thereto and the pile bundle is gripped by a grip member; fig. 9 shows a perspective side view of a third embodiment of the supply device with two suction elements, the second upper suction element being arranged offset backwards eccentrically with respect to the longitudinal axis of the first; fig. 10 shows a perspective side view of the feeder of FIG. 9 with suction elements arranged coaxially; fig. 11 shows a perspective side view of the feeder of FIG. 10 with the second suction element (upper) engaged; fig. 12 shows a perspective side view of the feed device of FIGS. 10 and 11 with the lower suction element engaged; fig. 13 shows a planar side view of a filament and a bundle of bristles having an envelope of FIGS. 9 to 12 before and after the suction elements at this location have acted alternately.
In Figures 1 to 12 of the drawing, we can see a feeding device designated in its entirety by 1. The device is used to feed a subsequent treatment device not shown, in particular a filling machine, with boots of hair 2 and is provided with a device for stripping the pile boots 2 which are surrounded by an envelope 3.
On the device 1, there is provided a retaining device 10 which acts with a first suction element 5a on at least one bundle of bristles 2 on at least one of its front sides. The force exerted by the suction element 5a then holds said at least one bundle of bristles 2 with the concerned frontal side in contact with a first bearing surface 6a associated with the retaining device 10 and oriented substantially transversely to the longitudinal extent of the filaments 4 of said at least one bundle of bristles 2.
In figs. 1 to 4, a parallelepipedal casing 7 can be seen on the feeding device whose upwardly facing surface forms the bearing surface 6a of the retaining device 10. The latter is formed by a braided fabric and therefore represents a gas permeable separation layer, in particular permeable to air. The bottom of the housing 7 is connected to a suction pipe 8 which is itself connected to a suction pump not shown. Approximately in the middle of the bearing surface 6a is a bundle of bristles 2 which consists of filaments 4 not shown accurately and which is held together by a narrow wrapper 3 made of rubbery material, as best seen on fig. 1.
An engagement of the suction element 5a has the effect that in FIG. 2, the bundle of bristles 2 is held on the bearing surface 6a, air being sucked through the bundle of pile 2 and is discharged through the braided fabric of the bearing surface 6a and then the pipe 8. In front of the support surface 6a is disposed a contact holding plate 12 serving as a retaining element 11 of the retaining device 10, the retaining portion 14 of which is adjacent to the front side of the boot bristles 2 opposed to the bearing surface 6a and whose cross section covers the cross section of the bristle bundle 2.
A stripping tool 15 has a slider 16 as a pushing means which is closed around the bundle of bristles 2 below the sheath 3 and then pushes the sheath 3 in the direction of the retainer 11 to a gripping element 13 can grip the bundle of bristles 2 approximately in the middle of its height, as seen in FIG. 3. The retainer in the form of the contact holding plate 12 firmly holds the bunch of bristles 2 against the direction of thrust. Then, after removal of the holding plate in contact, the gripping element 13 holding the bundle of bristles 2 brings the bundle of bristles 2, the sheath 3 of which has been entirely removed to a stock of bristles not shown, which the we can see in fig. 4.
In a similar manner to FIGS. 1 to 4, the stripping operation in FIGS. 5 to 8 is shown on the basis of another embodiment of the feed device 1 according to the invention. There is again seen on the feed device 1 a parallelepipedal casing 7 whose surface oriented upwards forms the bearing surface 6a of the retaining device 10. The suction pipe 8 is also shown here and a bunch of bristles 2 which is on the support surface 6a and which is held thereon by engagement of the suction element 5a. What is different from figs. 1 to 4, it is first of all the casing 3 of the bundle of bristles 2 consisting of individual filaments 4, not shown, which is constituted in FIGS. 5 to 8, a strip of paper whose width corresponds to the length of the filaments and therefore to the height of the pile of hair and which is about 1.5 times around the pile of pile 2. This means that an initial portion 9 of the envelope 3 laterally adjacent to the bundle of bristles 2 is covered once outside by the envelope 3.
In fig. 6, the suction element 5a operates again so that air is sucked through the bearing surface 6a and the suction element 5a thus holds the pile boot 2 on its lower front side for the observer, on the support surface 6a. A clamp 21 of the pushing means 16 engages at the top with a shorter clamp jaw 23 between the bundle of bristles 2 and its sheath 3 so that the sheath is pushed against the longer clamp jaw 22 located at the outside on the envelope 3. It can be seen more precisely in FIG. 7 that it happens at the location of the initial part 9, the jaws 22, 23 of the clamp 21 being closed by the closure 24. The closure 24 is provided with a sliding surface 25 which holds the jaw 23 of the inner clamp shorter tangentially sliding relative to the pile boot 2. In this way, the winding of the casing 3 on the pile boot 2 is loosened so that the casing can then be moved axially relative to the boot of 2. The gripper 21 of the biasing means 16 pulls the paper web from the envelope 3 upwardly beyond the middle of the height of the bundle of bristles 2 so that the gripping element 13 can again grasp the bundle of bristles 2 in a simple way in the middle and carry it further, as shown in fig. 8. The protrusions on the bearing surface 5a which simplify the correct positioning of the pile boot and thus ensure the safe grasping of the casing 3 by the clamp 21 of the thrust means 16 are however not shown.
In fig. 9, we see in a third embodiment of the feeding device a similar arrangement to that shown in FIGS. 1 to 5 in which N is provided on the feeding device a parallelepipedal casing 7 whose surface oriented upwards forms the bearing surface 6a of the retaining device 10. The suction pipe 8 is also shown here and sees a bunch of bristles 2 which is on the bearing surface 6a and which can be held with its lower front side against it by engagement of the suction element 5a. In this representation, it can be seen on the bundle of bristles 2 that it consists of a plurality of filaments 4 which are arranged parallel to each other, which are held together by an envelope and some of which, however, protrude from the edge of the envelope 3 up or down. We can see also in fig. 9 a retaining device 11 which is formed by a second suction element 5b which is arranged in a rest position away from the first suction element 5a so that the longitudinal axes of the suction elements 5a, 5b are well parallel but not coaxial between them. On the other hand, in fig. 10, the second suction element 5b is moved in the direction of the arrow Pf2 so that in a position of use of the second suction element 5b, the bearing surfaces 6a, 6b face each other parallel to each other . The second bearing surface 6b of the second suction member 5b also has a braided fabric as a separating layer through which air can be sucked. In this way, as seen in figs. 11 and 12, air can alternatively be sucked upwards (FIG 11) in the direction of the arrow Pf2 through the bearing surface 6b of the suction element 5b and then downwards. (FIG 12) in the direction of the arrow Pf3 via the bearing surface 6a of the first suction element 5a so that the filaments 4 of the pile boot 2 can move parallel without protruding. This can be seen schematically in fig. 13 whose arrow Pf4 represents the transition of a pile of strands 2 stripped of the unoriented state shown to the left in the state oriented on the right side of FIG. 13. For reasons of visibility, no stripping tool 15 associated with the device 1 and being able to take effect of course after orientation of the filaments 4 of the bundle of bristles 2 is shown in FIGS. 9 to 12.
The device 1 according to the invention is particularly suitable for stripping bristle boots 2 with tapered filaments on one side or both sides and for implementing the stripping method according to the invention.
Consequently, the present invention thus relates to a device 1 for feeding in bunches of hair 2 a subsequent treatment device, in particular a filling machine, comprising a device for stripping bunches of bristles 2 which are surrounded at least in places by an envelope 3. To have a feed device 1 which makes it possible to mechanically bring, in a simple and safe manner, without projecting and stripped, bales of bristles 2 oriented to a subsequent treatment device, provision is made for on the device 1 a retaining device 10 which acts with a first suction element 5a on at least one bundle of bristles 2 on at least one of its front sides, the force exerted by the suction element 5a maintaining said at least one boot of bristles 2 with its front side adjacent to a first bearing surface 6a associated with the retainer 10 and oriented substantially transversely to the longitudinal extent of the filament s 4 of said at least one bundle of bristles 2.

权利要求:
Claims (19)
[1]
Apparatus (1) for feeding in bundles of bristles (2) a subsequent treatment device, in particular a packing machine, comprising a device for stripping bundles of bristles (2) which are surrounded at least in places by a casing (3), characterized in that there is provided on the device (1) a retaining device (10) which acts on at least one bundle of bristles (2) on at least one of its front sides with a first element sucker (5a) and the force exerted by the suction member (5a) holds said at least one pile of bristles (2) with said front side adjacent to a first bearing surface (6a) associated with the retainer (10) and oriented substantially transversely to the longitudinal extent of filaments (4) of said at least one bundle of bristles (2).
[2]
2. Device according to claim 1, characterized in that the retaining device (10) has a second suction element (5b) to the effect of which the other front side of said at least one bundle of bristles (2) can be exposed and thus comes to rest against the second bearing surface (6b).
[3]
3. Device according to claim 1 or 2, characterized in that each of the suction elements (5a, 5b) of the retaining device (10) acts alternately on said at least one tuft of bristles (2) at least once, of preferably several times in succession.
[4]
4. Device according to any one of claims 1 to 3, characterized in that there is provided on at least one bearing surface (6a, 6b) of the retaining device (10b), a plurality of projections or similar markings which delimit a surface and border the cross section of said at least one bundle of bristles (2).
[5]
5. Device according to one of the preceding claims, characterized in that said at least one bunch of bristles (2) is disposed, during stripping, at least temporarily between the first bearing surface (6a) and a retaining portion (14) a retaining member (11) associated with the retainer (10) which can be positioned opposite the bearing surface, the retaining portion (14) and the bearing surface (6a) forming plans practically parallel to each other.
[6]
6. Device according to claim 5, characterized in that the retaining portion (14) of the retaining element (11) covers with its cross section the cross section of said at least one bunch of bristles (2).
[7]
7. Device according to claim 5 or 6, characterized in that the retaining element (11) is formed by a holding plate in contact (12) or the second suction element (5b).
[8]
8. Device according to one of the preceding claims, characterized in that at least one bearing surface (5a, 5b), preferably all the bearing surfaces (5a, 5b), is provided at least in places d a gas permeable separation layer.
[9]
9. Device according to claim 8, characterized in that the separating layer is formed by a flat structure in the kind of a woven structure, in particular a filter cloth with fine mesh such as a braided fabric.
[10]
10. Device according to one of the preceding claims, characterized in that at least one of the suction elements (5a, 5b) can be moved relative to another suction element (5a, 5b) of the device (1) on a device positioning device which has at least one degree of freedom of translation and / or rotation.
[11]
Device according to one of the preceding claims, characterized in that at least one gripping element (13) is provided by means of which said at least one bundle of bristles (2) can be releasably gripped and / or moved before and / or after stripping.
[12]
12. Device according to one of the preceding claims, characterized in that there is provided a stripping tool (15) comprising at least one separation means which opens the envelope (3) at least partly or in places.
[13]
13. Device according to claim 12, characterized in that the stripping tool (15) has a thrust means (16) which moves axially or tangentially the envelope (3) of said at least one bundle of bristles (2) relative thereto and / or loosens the casing (3) at least in places and / or widens a partially open portion of the casing (3).
[14]
14. Device according to claim 12 or 13, characterized in that the stripping tool (15) has a retaining device which firmly holds the envelope (3) loosened or at least partly open during the stripping operation.
[15]
15. Device according to one of the preceding claims, characterized in that said at least one bundle of bristles (2) has a height between 5 mm and 30 mm, in particular between 10 mm and 20 mm.
[16]
16. Device according to one of the preceding claims, characterized in that the distance between a free front side of the pile of bunks (2) maintained by the first suction element (5a) and a second suction element (5b) of the device Retention (10) represents between 5% and 50%, in particular between 10% and 25% of the height of the pile of bristles (2).
[17]
Method for stripping at least one bundle of bristles (2) surrounded at least in places by an envelope (3), in particular with a device according to one of the preceding claims, characterized by the steps of: a) feeding a a bundle of hair (2) stripped to a feeding device; b) maintaining the bunch of bristles (2) on at least one of its front sides by a suction element (5a, 5b); c) separation at least in some places of the casing (3) of the bundle of bristles (2) or axial and / or tangential displacement of the casing (3) relative to the pile of bristles (2) and / or seizure the casing (3) by a thrust means (16); d) grasping the bundle of bristles (2) stripped at least in places by a gripping element (13) and fed to a subsequent treatment device.
[18]
18. The method of claim 17, characterized in that before the manipulation of the casing (3), the pile of bristles (2) is alternately subjected on its front sides to the action of a suction element (5a , 5b)
[19]
19. The method of claim 17 or 18, characterized in that before the supply of the pile of hair (2) denuded, it is cut to size in a skein.

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引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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FR2358126A1|1976-07-17|1978-02-10|Zahoransky Anton Fa|BRUSHES MANUFACTURING PROCESS AND MACHINE FOR IMPLEMENTING THE PROCESS|

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DE2849510A1|1978-11-15|1980-06-04|Zahoransky Anton Fa|Brush with several bristle tufts offset relative to each other - is mfd. by positioning member on machine for correct alignment|

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EP0193220A1|1985-02-26|1986-09-03|G.B. Boucherie, N.V.|Process for removing the wrapper from a fibre bundle and arrangement applied therefore|

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DE19506597A1|1995-02-27|1996-08-29|Coronet Werke Gmbh|Bristle goods and method and device for their manufacture|

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AT405520B|1996-05-15|1999-09-27|Voest Alpine Ind Anlagen|METHOD FOR REDUCING IMPURITIES IN THE GAS FLOW AND DEVICE FOR IMPLEMENTING IT|

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DE10356316A1|2003-11-28|2005-06-23|Zahoransky Ag|Bristle bundle mechanism e.g. for stuffing machine, has point of usage for manual taking of bristle and mechanism opens bristles and support mechanism holds opened shroud when taking bristles|

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DE102009013723A1|2009-03-20|2010-09-23|Zahoransky Ag|Method and device for producing and providing filament bundles and bristle fields|

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EP2243394A1|2009-04-21|2010-10-27|M+C Schiffer GmbH|Method for creating a brush bundle and a device for carrying out the method|

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DE202009011327U1|2009-08-20|2009-11-26|Zahoransky Ag|grinder|

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DE102010055686A1|2010-12-22|2012-06-28|Zahoransky Ag|Device for manufacturing bristle fields for brushes, has two sub-plates formed in receiving plate, where each of multiple downstream holes of individual sub-plate has different surface textures and diameters|

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CN202184340U|2011-07-01|2012-04-11|深圳创怡兴实业有限公司|Device for machining static removal hairbrush|DE102016011337A1|2016-09-21|2018-03-22|Zahoransky Ag|A bundle picking apparatus, a brush making machine, a method of manufacturing a bundle picker, and a method of manufacturing a counterpart of a bundle picking apparatus|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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DE102013001435|2013-01-29|

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DE130014352|2013-01-29|

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DE201310019612|DE102013019612A1|2013-01-29|2013-11-25|Device for supplying bristle bunch for brush to subsequent treatment device i.e. tamping machine, has holding device for holding bristle bunch in contact with contact surface by using force exerted by suction element of holding device|

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