US20170119141A1 - Carrier plate and brush, in particular toothbrush with carrier plate - Google Patents

Carrier plate and brush, in particular toothbrush with carrier plate Download PDF

Info

Publication number: US20170119141A1
Authority: US; United States
Prior art keywords: carrier pad; bristle; carrier; pad; bristle bundles
Prior art date: 2014-07-15
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.): Abandoned

Application number

US15/318,862

Other languages

English (en)

Inventor

Ingo Kumpf

Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

Zahoransky AG

Original Assignee

Zahoransky AG

Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)

2014-07-15

Filing date

2015-07-13

Publication date

2017-05-04

2015-07-13 Application filed by Zahoransky AG filed Critical Zahoransky AG

2016-12-14 Assigned to ZAHORANSKY AG reassignment ZAHORANSKY AG ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: KUMPF, INGO

2017-05-04 Publication of US20170119141A1 publication Critical patent/US20170119141A1/en

Status Abandoned legal-status Critical Current

Images

Classifications

- A—HUMAN NECESSITIES
- A46—BRUSHWARE
- A46D—MANUFACTURE OF BRUSHES
- A46D3/00—Preparing, i.e. Manufacturing brush bodies
- A46D3/005—Preparing, i.e. Manufacturing brush bodies by moulding or casting a body around bristles or tufts of bristles
- A—HUMAN NECESSITIES
- A46—BRUSHWARE
- A46B—BRUSHES
- A46B3/00—Brushes characterised by the way in which the bristles are fixed or joined in or on the brush body or carrier
- A46B3/04—Brushes characterised by the way in which the bristles are fixed or joined in or on the brush body or carrier by mouldable materials, e.g. metals, cellulose derivatives, plastics
- A—HUMAN NECESSITIES
- A46—BRUSHWARE
- A46B—BRUSHES
- A46B9/00—Arrangements of the bristles in the brush body
- A46B9/02—Position or arrangement of bristles in relation to surface of the brush body, e.g. inclined, in rows, in groups
- A46B9/04—Arranged like in or for toothbrushes
- A—HUMAN NECESSITIES
- A46—BRUSHWARE
- A46D—MANUFACTURE OF BRUSHES
- A46D3/00—Preparing, i.e. Manufacturing brush bodies
- A46D3/04—Machines for inserting or fixing bristles in bodies
- A46D3/045—Machines for inserting or fixing bristles in bodies for fixing bristles by fusing or gluing to a body
- A—HUMAN NECESSITIES
- A46—BRUSHWARE
- A46D—MANUFACTURE OF BRUSHES
- A46D3/00—Preparing, i.e. Manufacturing brush bodies
- A46D3/08—Parts of brush-making machines
- A46D3/082—Magazines for bristles; Feeding bristles to magazines; Knot picking
- A—HUMAN NECESSITIES
- A46—BRUSHWARE
- A46B—BRUSHES
- A46B2200/00—Brushes characterized by their functions, uses or applications
- A46B2200/10—For human or animal care
- A46B2200/1066—Toothbrush for cleaning the teeth or dentures

Definitions

the invention is applied in a method for manufacturing bristle arrangements for brushes, in particular for toothbrushes, wherein bristle filaments are removed from a material box which contains a reserve of bristle filaments and are assembled to form bristle bundles, and then are directed by means of a gas or air stream through a conveying device comprising a bundle-receiving device and hollow conduits which are connected thereto, and subsequently are incorporated through perforations into a bundle-retaining plate.
the invention relates to a carrier pad having a plurality of perforations which penetrate the carrier pad, into which perforations bristle bundles which are composed of bristle filaments are insertable and fastenable without anchoring on the carrier pad.
the invention furthermore also relates to a brush, in particular a toothbrush, having a handle and a brush head, wherein the brush head has a carrier-pad receptable and a carrier pad which is fastened therein and which is populated with bristle bundles.
the above-described method may be carried out on a device for manufacturing bristle arrangements for brushes, in particular toothbrushes, having a material box containing a reserve of bristle filaments, and having at least one removal device for removing individual bristle bundles from the bristle reserve, and having a conveying device with hollow conduits, through which hollow conduits the bristle bundles are conveyable by means of a gas or air stream into perforations of a bundle-retaining plate.
the previously known carrier pads and toothbrushes which are equipped with such carrier pads require the introduction of bristle filaments, which are combined into bristle bundles, into perforations of the carrier pad and the inset molding of those ends of the individual bristle bundles which are positioned in the perforations with a material in order to fix the bristle bundles in the perforations.
bristle filaments which are combined into bristle bundles, into perforations of the carrier pad and the inset molding of those ends of the individual bristle bundles which are positioned in the perforations with a material in order to fix the bristle bundles in the perforations.
the bristle filaments forming the bristle bundles when being conveyed through the conveying device to the bundle-retaining plate are electrostatically discharged.
the bristle bundles and the bristle filaments contained in the bristle bundles may be electrostatically charged, such that they adhere to the elements of the conveying device, in particular on the hollow conduits of the conveying device, and cannot not be reliably guided through the conveying device.
the bristle filaments when being conveyed through the conveying device are so severely electrostatically charged that they clog the conveying device and the passage of the bristle filaments to the bundle-retaining plate is at best restricted.
the bristle filaments forming the bristle bundles may be electrostatically discharged when being conveyed through the bundle-receiving device of the conveying device and/or when being conveyed through hollow conduits of the conveying device to the bundle-retaining plate.
electrostatic charging of the bristle filaments may already be avoided when conveying through the conveying device commences.
Alternative or additional electrostatic discharging of the bristle filaments when being conveyed through the hollow conduits of the conveying device to the bundle-retaining plate may prevent the bristle filaments being statically charged by friction on the inner sides of the hollow conduits and then clogging the hollow conduits.
the bristle bundles when being conveyed through the conveying device in particular when being conveyed through the bundle-receiving device and/or through the hollow ducts, to the bundle-retaining plate, may be guided past at least one electrical terminal or earth terminal which is disposed on the conveying device, and be made to establish contact therewith.
this at least one electric terminal or earth terminal may be provided in the bundle-receiving device and/or also in the hollow conduits, for example.
electrostatically discharging the bristle filaments forming the bristle bundles when being conveyed through the conveying device not only enables dissipation of electrostatic charges which adhere to the bristle filaments but also renders avoidable electrostatic charging of the bristle filaments in particular caused by friction which arises when the bristle filaments forming the bristle bundles are being conveyed through the conveying device.
the bristle bundles from the bundle-retaining plate are directly incorporated into perforations of a carrier pad.
the bristle bundles in particular with the aid of a compression die are incorporated through narrowing funnel ducts of a funnel plate into perforations of a carrier pad. This may be meaningful since the degree of compression of the bristle bundles which is required for high-quality population of carrier pads may be achieved only with great complexity by means of a gas or air stream alone.
the bristle bundles to be infed are initially squeezed through the funnel ducts of the funnel plate, the desired degree of compression may be achieved in a comparatively simple manner, in particular when a compression die is used.
the bristle bundles In order for the bristle bundles to be able to be fastened without anchoring in the carrier pad, it may be provided that material protrusions which protrude on the rear side of a back side of the carrier pad which faces away from the bristle bundles are heated in a welding station and are thereby fused, wherein for connecting the bristle bundles to the carrier pad a melt of the fused material protrusions is interference-fitted into a fastening plane of the bristle bundles, such that the melt flows between bristle-bundle ends, which in particular protrude from the back side of the carrier pad, and/or between filament ends of the bristle bundles, and thereafter solidifies.
the bristle bundles may be fastened in a form-fitting and/or force-fitting manner on the carrier pads, since on account of being interference-fitted into the bundle-fastening plane the melt may mesh, so to speak, with the ends of the bristle bundles.
the material protrusions on the carrier pad by means of a welding die may be heated, fused, and for fastening the bristle bundles to the carrier pad may be interference-fitted into a fastening plane of the bristle bundles.
bristle filaments which are also referred to as CTFs are distinguished by their particularly finely tapered filament ends which in the use position are free-standing and which, on account of static charging of the particularly fine bristle filaments in this case, have to date made infeeding of such bristle filaments by means of a gas or air stream through a conveying device difficult and thus uneconomical.
the bristle filaments are infed to a transfer station in filament pucks which are held together by means of an in particular flexible and/or air-impermeable sheathing.
the filament pucks which are infed to the transfer station may then be acquired by suction by means of at least one suction gripper which is assigned to the transfer station, wherein the at least one suction gripper contacts and acquires by suction the filament pucks at their free upper side by way of a suction plate on account of which the in particular flexible and/or air-impermeable sheathing is acquired by suction in a transverse manner to the longitudinal axis of the bristle filaments and in an inward manner in the direction of a longitudinal center axis which is oriented so as to be perpendicular to the upper side of the filament puck, and said sheathing may place itself in a stabilizing manner around the bristle filaments of the filament puck which has been acquired by suction.
the filament puck by means of the at least one suction gripper may be transferred to a de-sheathing station which is downstream of the transfer station.
the sheathing of the filament puck may be opened and removed, on account of which the bristle filaments which have been released from the sheathing may be infed, preferably in an automated manner, to a or to the already mentioned material box.
the filament pucks may be provided with a spin finish having an antistatic additive for CFTs which may additionally reduce the tendency of the bristle filaments toward static charging when being conveyed.
the filament pucks of the transfer station are infed in particular to the at least one suction gripper of the transfer station on at least one contact area of an infeed station which is preferably configured as a conveyor belt.
the method may be simplified for an operator who is entrusted with carrying out the method when the filament pucks are held ready individually and/or in their supply containers at the infeed station, in particular at the at least one contact area which is preferably configured as a conveyor belt, and if and when required, are pushed onto the at least one contact area, preferably manually, in particular directly from the supply containers, but in particular in a transverse manner to the conveying direction of the at least one contact area.
the operator who is entrusted with carrying out the method may thus have sufficient time for carrying out other tasks and many only need to approach the infeed station at certain time intervals in order to reload further filament pucks, enabling the otherwise automated manufacturing process to continue without disruption.
the object is achieved in the case of the carrier pad defined at the outset by one or more features of the invention and in particular in that the carrier pad on its back side which faces away from the bristle bundles which are guided into the perforations has a plurality of material protrusions, wherein the material protrusions are fusible and for fastening the bristle bundle on the carrier pad are force-fittable in a bundle-fastening plane.
a carrier pad of this type enables simple fastening of bristle bundles without anchoring in the carrier pad, without the bristle bundles to be fastened in the carrier pad having to be welded to one another prior to being infed into the carrier pad.
the carrier pad according to the invention in a particularly advantageous manner thus supports carrying out the method described earlier.
the bristle bundles which are introducible or are introduced into the perforations are composed of tapered bristle filaments, in particular of chemically tapered bristle filaments. At least after their fastening to the carrier pad, said bristle bundles can then form a bristle arrangement consisting of tapered bristle filaments, in particular of chemically tapered bristle filaments.
one portion of the bristle bundles which are introducible or are introduced into the perforations consists of tapered bristle filaments, in particular of chemically tapered bristle filaments, and another portion of the bristle bundles which are introducible or are introduced into the perforations consists of conventional bristle filaments.
Conventional bristle filaments are understood as meaning such bristle filaments which have a substantially consistent or consistent cross section over at least a large portion of their length or over their entire length.
the bristle bundles consisting of tapered bristle filaments and the bristle bundles consisting of conventional bristle filaments can form a mixed bristle arrangement at least after their fastening to the carrier pad.
the bristle filaments can be composed of polyamide and/or of polyester. However, it is preferred that conventional bristle filaments, in particular those with a consistent cross section, are composed of polyamide, and tapered bristle filaments, in particular chemically tapered bristle filaments, are composed of polyester, in particular of polybutylene terephthalate (PBT for short).
PBT polybutylene terephthalate
Polyester has the property that it absorbs water only to a small extent or even does not absorb any water.
an alkaline solution which should subsequently be removed in a washing process. It may be necessary here to dry the washed bristle filaments for further processing.
the use of polyester as material for the chemically tapered bristle filaments and the fact that polyester absorbs water only to a small extent or does not absorb it at all can facilitate and accelerate a drying process of the washed bristle filaments. In this manner, the drying process can take place on an industrially expedient scale.
the bristle bundle post fusing of the material protrusions and interference-fitting of the fused material protrusions into the bundle-fastening plane may be connected to the carrier pad in a form-fitting and/or force-fitting manner. Reliable fastening of the bristle bundles in or on the carrier pad which is resistant to the required extraction forces may be enabled in this way.
the material protrusions may be configured as pimples, wherein the material protrusions may project transversely from the back side of the carrier pad.
transverse means that the material protrusions may project from the back side of the carrier pad so as to substantially be extensions of the bristle bundle which has been plugged into the carrier pad.
a longitudinal center axis of the material protrusions here will be oriented so as to be perpendicular to the back side of the carrier pad.
the material protrusions are disposed so as to be in particular uniformly distributed around the perforations of the carrier pad or therebetween. This may facilitate uniform distribution of the melt, in particular post interference-fitting of the melt into the bristle-fastening plane, on the back side of the carrier pad and between the ends of the bristle bundles, and in particular between individual bristle filaments of the bristle bundle, and thus contribute toward reliable fastening of the bristle bundle in the carrier pad.
the perforations on the carrier pad may have variable cross sections.
the perforations thus may have a round and/or oval and/or circular and/or polygonal cross section, for example.
the combination of perforations of different cross section here is of course possible.
the carrier pad according to the invention is particularly simple to manufacture when the material protrusions are integrally connected to the carrier pad and/or when the material protrusions are composed of the same material as the carrier pad, in particular of a fusible plastic material, preferably of a thermoplastic material.
the material of which the material protrusions are composed may have a lower or else a higher melting point than the material of which the bristle filaments and/or the bristle bundles are composed.
a typical material of which the carrier pad and/or the material protrusions on the back side of the carrier pad may be composed is the plastic material polypropylene.
a typical material of which the bristle bundles or bristle filaments, respectively, may be composed is polybutylene terephthalate (PBT).
the material protrusions it is advantageous for the material protrusions to narrow, in particular to narrow in a conical manner, toward their free end. If the material protrusions have a narrowing shape, fusing these material protrusions is substantially facilitated when the welding die is pushed in.
the carrier pad on its back side which faces away from the bristle bundles may have a delimitation which preferably is endless and closed and projects in particular in a perpendicular manner from the back side of the carrier pad.
This delimitation here may surround the perforations and the material protrusions and comprise the back side of the carrier pad.
the rear-side delimitation of the carrier pad may prevent the melt of the fused material protrusions laterally oozing out when the welding die is pushed in, and moreover may contribute toward reliable guiding of the fused material protrusions when the melt is interference-fitted into the bundle-fastening plane of the carrier pad.
Lateral oozing of the melt may be prevented in a particularly reliable manner when the delimitation of the carrier pad is at least half the height of the material protrusions which are disposed on the back side of the carrier pad.
this delimitation may be higher than the material protrusions on the back side of the carrier pad, in particular double the height of said material protrusions. In this way it may be particularly and reliably prevented that the melt of the fused material protrusions is laterally squeezed out when the melt is interference-fitted into the bundle-fastening plane of the carrier pad, in particular by means of a fusing die.
said carrier plate on its rear side facing away from the bristle bundles, at least after introduction of the bristle bundles into the perforations and/or post fusing and interference-fitting of the material protrusions, has a cover which can be sprayed on or is sprayed on in particular in an inmould process.
Said cover can cover the fused material protrusions, which are located on the back side of the carrier pad, together with the ends of the bristle bundles.
the cover can contribute to securely fixing the bristle bundles in their use position and to imparting a flat surface to the back side of the carrier pad, which flat surface can facilitate the fastening of the carrier pad to a brush, in particular to a toothbrush.
the object is achieved in the case of the brush defined at the outset by one or more features of the invention and in particular in that the carrier pad is a carrier pad according to one or more features of the invention.
the carrier pad may be clipped into the carrier-pad receptacle.
the carrier pad may be adhesively bonded in the carrier-pad receptacle and/or be welded therein, in particular by means of an ultrasonic welding method. In this way the carrier pad may be reliably fastened to the brush.
a further possibility for connecting the carrier pad to the brush can consist in fastening the carrier pad to the brush, in particular to the carrier-pad receptacle of the brush, by means of an inmould process.
the carrier pad according to the invention may be processed, in particular using the above-described method, on the device defined at the outset for manufacturing bristle arrangements for brushes, in particular toothbrushes.
This device is possibly of independent inventive quality and in particular is characterized in that for dissipating the electrostatic charges adhering to bristle filaments and/or bristle bundles which are to be conveyed, the conveying device is electrically earthed.
the conveying device may have at least one bundle-receiving device on which the material-box-side ends of the hollow conduits are connected.
the at least one bundle-receiving device and/or the hollow conduits are/is electrically earthed in order to dissipate electrostatic charges from the bristle filaments or the bristle-bundles to be conveyed, respectively, or to avoid electrostatic charging of the bristle filaments and/or bristle bundles to be conveyed, respectively, when being conveyed through the conveying device.
the at least one bundle-receiving device and/or at least one of the hollow conduits may have at least one electrically earthed terminal or earth terminal which are/is at least temporarily contacted by the bristle bundles and/or the bristle filaments contained in the bristle bundles when being conveyed through the bundle-receiving device and/or through the at least one hollow conduit.
the bundle-receiving device and/or at least one of the hollow conduits and/or the terminal or earth terminal may be connected to the earth by way of at least one electrical conductor, in particular by way of an electrically earthed post of the device.
At least one hollow conduit as an electrically earthed terminal or earth terminal has an electrically earthed inner sleeve face of an electrically conductive material, in particular of metal, preferably of steel, stainless steel, or copper, which is contacted by the bristle bundles and/or bristle filaments contained therein when being conveyed.
the hollow conduits here may be configured as tubes of a flexible material and/or as Bowden cable sleeves and/or as tubular connectors of an electrically conductive material, in particular of metal, preferably of steel, stainless steel, or of copper.
an electrically conductive material in particular of metal, preferably of steel, stainless steel, or of copper.
this being particularly cost-effective and well suited to dissipating electrostatic charges, the use of hollow conduits which are in each case composed of a Bowden cable sleeve is preferable.
the bundle-retaining plate may be configured as a conveying plate which is transferable to a further-processing installation, in particular to a welding station.
the bundle-retaining plate on a side which in the receiving position faces away from the conveying device may have at least one carrier-pad mounting for a carrier pad, in particular for a carrier pad according to the invention.
the bundle-retaining plate may also be a partial brush body or an injection-molding insert which after having been populated with bristle bundles may be further processed in downstream stations of the device.
the hollow conduits of the conveying device open out into in each case one guide duct of a guide element.
This guide element may also be referred to as an infeed block.
the guide ducts of the guide element or of the infeed block, respectively, here are in each case configured as through openings.
the mutual outfeed-side spacings of the guide ducts are smaller here than the infeed-side spacings.
the exit openings of the guide ducts may be disposed according to a disposal of perforations of the bundle-retaining plate which are to be populated with bristle bundles and/or to be disposed so as to open out into these perforations. In this way, populating the bundle-retaining plate may take place in a particularly efficient manner, after infeeding of the bristle bundles through the conveying device has taken place.
the infeed ducts of the guide element or of the guide block, respectively, thus function as a type of funnel by way of which the bristle bundles to be infed may be incorporated in the bundle-retaining plate so as to be brought closer to one another as they are being conveyed.
the device may be expedient for the device to have a funnel plate, having funnel ducts which in particular narrow in the conveying direction of the bristle bundles, between the bundle-retaining plate and a carrier pad, preferably a carrier pad according to the invention to be populated with bristle bundles.
a funnel plate having funnel ducts which in particular narrow in the conveying direction of the bristle bundles, between the bundle-retaining plate and a carrier pad, preferably a carrier pad according to the invention to be populated with bristle bundles.
the bristle bundles from the bundle-retaining plate in which they are held ready in terms of disposal and orientation in a manner adapted to the carrier pad to be populated, may then be introduced into perforations of a carrier pad which is held ready at the funnel plate, preferably in a carrier-pad mounting of the funnel plate.
entry openings of the funnel ducts correspond in their number and disposal to exit openings of the perforations of the bundle-retaining plate and for exit openings of the funnel ducts to correspond in their number and disposal to the perforations of the carrier pad. It is furthermore advantageous for the exit openings of the funnel ducts to open out into perforations of a carrier pad which is held ready on the funnel plate, in order for the bristle bundles to be able to be incorporated from the bundle-retaining plate through the carrier plate into the carrier pad as easily as possible.
the device may have a compression station having at least one compression die having compression fingers which in their number and disposal correspond to the perforations of the bundle-retaining plate and/or to the funnel ducts of the funnel plate and/or to the perforations of the carrier pad.
the bristle bundles which in particular are incorporated in the funnel plate and/or in the bundle-retaining plate may be incorporated into the perforations of the carrier pad which is held ready at the device, in particular at the funnel plate and/or at the bundle-retaining plate.
the bristle filaments which are assembled to form bristle bundles can be infed having a slight degree of compression which is required for conveying through the conveying device by means of a gas or air stream and with the aid of the compression die subsequently be incorporated mechanically into the perforations of the carrier pad which is held ready and here simultaneously be compressed to the required higher degree of compression.
mechanical compression of the bristle bundles, toward which the funnel ducts of the funnel plate described earlier may also contribute, represents a particularly simple manner of compressing and incorporating the bristle bundle into the carrier pad being held ready.
the conveying gripper here preferably may be configured as a turntable having at least one conveying receptacle for a funnel plate and/or bundle-retaining plate which are/is populated by bristle bundles and/or by at least one carrier pad.
the bundle-retaining plate which then additionally may assume the function of a conveying plate, by means of the conveying gripper after populating the bundle-retaining plate with bristle bundles and/or with at least one carrier pad is conveyable to a or to the welding station, wherein the bristle bundles in the welding station are connectable in particular in a form-fitting and/or force-fitting manner to the at least one carrier pad.
the at least one funnel plate can be able to be conveyed between stations of the device by means of the conveying gripper.
the welding station has at least one welding die by way of which the bristle bundles are connectable to the at least one carrier pad.
the carrier pad to be processed is a carrier pad according to the invention it is possible for the at least one welding die to be used for fusing the material protrusions of the carrier pad and for interference-fitting the fused material protrusions into a bundle-fastening plane of the respective carrier pad.
the at least one welding die in the welding position may be in contact with a back side of the carrier pad.
this at least one welding die may be heated to a temperature of about 500° C. in order to weld the bristle bundles to the respective carrier pads.
the advantages which may be derived from the device for manufacturing bristle arrangements may be particularly great when the bristle filaments are chemically tapered filaments—CTFs—since these particularly fine bristle filaments may be subject to a particular extent to static charging when being conveyed by means of a gas or air stream through the conveying device, such that infeeding of such chemically tapered bristle filaments to date has only been possible with disproportionate complexity.
CTFs chemically tapered filaments
the device may have a de-sheathing station which is upstream of the material box, for de-sheathing bristle filaments which are assembled by means of a sheathing to form filament pucks.
the de-sheathing station here may have at least one cutting device having at least one cutting tool for opening the sheathing of the filament pucks and at least one gripping installation for removing the opened sheathing. It may be furthermore advantageous for the de-sheathing station to be connected in terms of conveying technology to the material box downstream thereof, in order for the de-sheathed bristle filaments to be infed to the material box.
the de-sheathing station in one embodiment of the device may have at least one gripper and/or at least one slide by way of which the de-sheathed bristle filaments are infeedable to the material box, preferably in an automated manner.
the material box may have at least one conveying path which in particular is connected in terms of conveying technology to a de-sheathing station, for example the de-sheathing station which has already been mentioned earlier.
the bristle filaments which are oriented in the vertical direction may be disposed between two lateral strips, wherein the conveying path preferably opens out into a removal region of the removal installation.
the at least one conveying path may have an insertion region in which the spacing of the lateral strips which delimit the at least one conveying path is reduced in the conveying direction.
the device may have a transfer station having at least one suction gripper for transferring bristle filaments which are assembled by means of a sheathing to form filament pucks to a de-sheathing station, for example the de-sheathing station which has already been mentioned earlier. In this way, automated infeeding of the filament pucks to the de-sheathing station is possible.
a suction gripper for example the suction gripper already mentioned earlier, of a transfer station, for example the transfer station already mentioned earlier, may have a suction plate which preferably is covered by a fabric, in particular by a galloon fabric, and by way of said suction plate at least one filament puck across its sheathless end side which faces away from a contact area is acquirable by suction.
Acquiring the at least one filament puck by suction and subsequently handling the at least one filament puck with the aid of the at least one suction gripper of the transfer station may be facilitated when a sheathing keeping together a filament puck in the use position on the longitudinal side radially surrounds the bristle filaments which are assembled in the filament puck, such that an end-side upper side of the filament puck is sheathless.
the sheathing here may be configured as an endless tape, that is to say as banderole, or as a tubular portion which is placed over the bristle filaments which are assembled to form a puck or as a sleeve which is placed thereover.
a height of the sheathing here may correspond to a length of the bristle filaments of the filament puck.
Acquiring the filament pucks which are surrounded by the sheathing by suction with the aid of a suction gripper, for example the suction gripper already mentioned earlier, may be facilitated when the sheathing of the filament pucks is composed of a flexible and/or air-impermeable material.
a suction gripper for example the suction gripper already mentioned earlier.
One material which is suitable as sheathing and which is both flexible and air-impermeable is for example polyethylene, preferably PE-LD.
the device may have an infeed station which is connected to a transfer station, for example the transfer station already mentioned earlier, and which has at least one contact area which in particular is configured as a conveyor belt.
a transfer station for example the transfer station already mentioned earlier
the filament pucks may be infeedable to the transfer station and/or to the at least one suction gripper of the transfer station.
the filament pucks on the at least one contact area which is preferably configured as a conveyor belt it may be expedient for the filament pucks on the at least one contact area which is preferably configured as a conveyor belt to be kept so as to be spaced apart.
said contact area may preferably have a plurality of receptacle depressions which in particular in the conveying direction are spaced apart from one another and into which the individual filament pucks are placed and in which the filament pucks may be securely conveyed onward.
the infeed station on at least one of its longitudinal sides, in particular on one of the longitudinal sides of the at least one contact area, has at least one locationally fixed depository face, which adjoins the at least one contact area, for individually pre-aligned filament pucks and/or for supply containers which are at least partially filled with filament pucks, it is possible for the contact area, in particular receptacle depressions of the contact area which on the contact area are disposed and configured so as to be spaced apart from one another, to be rapidly and efficiently populated with filament pucks, if and when required.
the filament pucks may either be removed from the adjoining depository face or directly put onto the contact area from supply containers which are held ready and which likewise may be held ready on the adjoining depository face, as soon as space becomes available again on said contact area for filament pucks which are to be infed to the transfer station and/or to the at least one suction gripper of the transfer station.
the depository face here may be configured in particular in a board-shaped and/or strip-shaped manner and may expediently extend at least across part of the length of the contact area, but is locationally fixed in relation to the contact area.
the device according to the invention may also have more than only one bundle-retaining plate and/or funnel plate.
said device which has, for example, four bundle-retaining plates and four funnel plates which are assigned to those bundle-retaining plates and which preferably may be disposed on conveyor receptacles of a conveying gripper or of the conveying gripper already mentioned earlier, said device may operate to a particularly efficient degree.
each of the thus at least one bundle-retaining plate and/or of the at least one funnel plate of the device may have at least one, in particular two, three, or four carrier-pad mounting(s) for receiving in each case one carrier pad to be populated with bristle bundles, in particular a carrier pad according to the invention.
FIG. 1 shows a perspective illustration of a device for manufacturing bristle arrangements for brushes, in particular toothbrushes, having an infeed station comprising three parallel conveyor belts having a plurality of filament pucks placed thereon, having a transfer station with a suction gripper, having a de-sheathing station adjoining a material box, having a conveying device which has a plurality of hollow conduits through which the bristle bundles which are removed from the material box are conveyable to a bundle-retaining plate, and having processing stations which are downstream of the conveying device and which by way of a conveying gripper which is configured as a turntable are connected to the conveying device;
FIG. 2 shows the detail which in FIG. 1 is identified by the circle K and which shows the suction plate of the suction gripper, which is covered with a galloon fabric, in the suction position above a filament puck which is held ready on the contact area which is configured as a conveyor belt;
FIG. 3 shows a perspective rear view of a carrier pad according to the invention, on the back side of which five material protrusions of a fusible material which are surrounded by perforations and on a front side of the carrier pad ten bristle bundles which are to be incorporated in the carrier pad can be identified;
FIG. 4 shows the carrier pad illustrated in FIG. 3 , having bristle bundles which have been introduced into the perforations of the carrier pad;
FIG. 5 shows the carrier pad illustrated in FIGS. 3 and 4 , wherein it can be seen that the rear-side material protrusions have been fused and have been interference-fitted in the fastening plane of the carrier pad, in order to fasten the bristle bundles which have been incorporated into the perforations;
FIG. 6 shows a perspective rear view of a further carrier pad according to the invention, on the back side of which five material protrusions of a fusible material which are surrounded by perforations and on a front side of the carrier pad ten bristle bundles which are to be incorporated in the carrier pad can be identified, wherein the inner eight of the ten bristle bundles in total are those consisting of chemically tapered bristle filaments;
FIG. 7 shows the carrier pad illustrated in FIG. 6 , having bristle bundles which have been introduced into the perforations of the carrier pad;
FIG. 8 shows the carrier pad illustrated in FIGS. 6 and 7 , wherein it can be seen that the rear-side material protrusions have been fused and have been interference-fitted in the fastening plane of the carrier pad in order to fasten the bristle bundles which have been incorporated into the perforations, wherein the bristle bundles together form a mixed bristle arrangement consisting of bristle bundles with conventional bristle filaments and consisting of brush bundles with chemically tapered bristle filaments;
FIG. 9 shows the carrier pad illustrated in FIGS. 6 to 8 with a cover sprayed onto the rear side
FIG. 10 shows a perspective illustration of a toothbrush according to the invention with the carrier pad illustrated in FIGS. 6 to 9 in a carrier-pad receptacle on the brush head of the toothbrush, and
FIG. 11 shows the detail which in FIG. 10 is identified by the circle E and which shows part of the mixed bristle arrangement on the carrier pad, which mixed bristle arrangement is formed by bristle bundles consisting of conventional bristle filaments and by bristle bundles consisting of chemically tapered bristle filaments.
a device which in its entity is referred to with 1 , for manufacturing bristle arrangements for brushes, in particular for toothbrushes, according to FIG. 1 has a material box 3 having a reserve of bristle filaments 2 , and at least one removal device 4 for removing individual bristle bundles 5 from the material box 3 .
the device 1 furthermore has a conveying device 6 which is equipped with a total of three times three visible hollow conduits 7 and one hollow conduit which in FIG. 1 is illustrated so as to be concealed, that is to say with a total of ten hollow conduits 7 , by way of which hollow conduits 7 the bristle bundles 5 are conveyable by means of a gas or air stream into perforations 8 of a bundle-retaining plate 9 .
the conveying device 6 is electrically earthed.
the conveying device 6 has at least one bundle-receiving device which is connected to the material-box-side ends 10 of the hollow conduits 7 , wherein the at least one bundle-receiving device in this exemplary embodiment of the device 1 is electrically earthed.
the material-box-side ends 10 of the hollow conduits 7 terminate above the removal device 4 of the material box 3 .
the hollow conduits 7 of the conveying device 6 are electrically earthed.
the hollow conduits 7 have at least one electric terminal or earth terminal 11 which is least temporarily contacted by the bristle bundles 5 and/or the bristle filaments 2 contained in the bristle bundles 5 when being conveyed through the hollow conduits 7 , wherein in particular the hollow conduits 7 and the earth terminals 11 which are assigned to the hollow conduits 7 are earthed or connected to the earth, respectively, by way of an electric conductor 12 .
this at least one electric conductor 12 is connected to the earth by way of an electrically earthed post of the device 1 .
FIG. 1 shows that at least one of the hollow conduits 7 as an electrically earthed terminal or earth terminal 11 has an electrically earthed inner sleeve face of an electrically conductive material, in particular of metal, preferably of steel, stainless steel, or copper, which is contacted by the bristle bundles 5 and/or bristle filaments 2 contained therein when being conveyed.
This electrically earthed inner sleeve face in the exemplary embodiment of the device 1 illustrated in FIG. 1 is composed of a metal helix 13 which in the topmost of the hollow conduits 7 illustrated in FIG. 1 is illustrated as having been freed of its plastic sheathing.
hollow conduits 7 in other exemplary embodiments are configured as tubes of a flexible material or else as tubular connectors of an electrically conductive material, in particular of metal, preferably of steel, stainless steel, or of copper
the hollow conduits 7 in the exemplary embodiment of the device 1 illustrated in FIG. 1 are composed of Bowden cable sleeves 14 which in their interior have the already mentioned electrically conductive metal helix 13 as the earth terminal 11 .
the bristle filaments 2 or the bristle bundles 5 When being conveyed through the hollow conduits 7 , the bristle filaments 2 or the bristle bundles 5 , respectively, then contact this electrically conductive metal helix 13 of the Bowden cable sleeves 14 , such that electric charges which adhere to the bristle filaments 2 or to the bristle bundles 5 may be reliably dissipated.
the number of hollow conduits 7 in the conveying device 6 illustrated in FIG. 1 corresponds to the number of perforations 8 of the bundle-retaining plate 9 into which the bristle bundles 5 are to be incorporated.
the bundle-retaining plate 9 is configured as a conveying plate which is transferable to a further processing installation, in particular to the welding station 15 . Said bundle-retaining plate 9 thus assumes a double function.
the bundle-retaining plate 9 on a side which in the receiving position faces away from the conveying device 6 is equipped with at least one carrier-pad mounting for a carrier pad 17 , such that at least one carrier pad 17 may be held ready on the bundle-retaining plate 9 in order to be filled with bristle bundles 5 .
the hollow conduits 7 of the conveying device 6 open in each case into one guide duct 18 of a guide element 19 , which may also be referred to as an infeed block.
These guide ducts 18 are in each case configured as through openings, wherein the mutual outfeed-side spacings of the guide ducts 18 are smaller than the infeed-side spacings.
exit openings 20 of the guide ducts 18 are disposed so as to correspond to a disposal of perforations 8 of the bundle-retaining plate 9 which are to be populated with bristle bundles 5 and so as to open into these perforations 8 .
FIG. 1 shows that the device 1 has a total of four bundle-retaining plates 9 . Moreover, each of the in total four bundle-retaining plates 9 is assigned one funnel plate 21 . This funnel plate 21 is in each case disposable between the bundle-retaining plate 9 assigned thereto and at least one carrier pad 17 which is to be populated with bristle bundles 5 .
each of the funnel plates 21 is displaceable to and fro in the vertical direction between two linear guides 22 , in order for the funnel plates 21 to be disposed if and when required in the desired position between the respective bundle-retaining plate 9 and the at least one carrier pad 17 which is to be populated with bristle bundles 5 .
Each of the funnel plates 21 has funnel ducts 23 which narrow in the conveying direction of the bristle bundles 5 and through which funnel ducts 23 bristle bundles 5 from the respective bundle-retaining plate 9 are introducible into perforations 24 of a carrier pad 17 which is held ready on the carrier plate 21 in each case in a carrier pad mounting 25 of the funnel plate 21 .
entry openings 26 of the funnel ducts 23 correspond in their number and disposal to exit openings of the perforations 8 of the bundle-retaining plate 9
exit openings 27 of the funnel ducts 23 correspond in their number and disposal to the perforations 24 of the at least one carrier pad 10 and open into these perforations 24 of the carrier pads 17 which are held ready on the funnel plate 21 .
FIG. 1 shows that in each case four carrier pad mountings 25 for receiving carrier pads 17 are configured on each of the in total four funnel plates 21 .
the device 1 has in each case one compression die 24 for each of the carrier pads 16 which is held ready on the respective bundle-retaining plate 9 or on the respective funnel plate 21 , respectively.
the in total four compression dies 28 here are disposed in the compression station which in FIG. 1 is identified with 29 , and provided with compression fingers (not shown in the figures) which in their number and disposal conform to the perforations 8 of the bundle-retaining plate 9 and to the funnel ducts 23 of the funnel plate 21 and to the perforations 24 of the carrier pad 17 .
bristle bundles 5 which are incorporated in the bundle-retaining plate 9 or in the funnel plates 21 , respectively, may be reliably and with a desired degree of compression incorporated into perforations 24 of the carrier pads 17 which are held ready on the device 1 , in the present case on the funnel plate 21 .
the in total four bundle-retaining plates 9 and the likewise four funnel plates 21 assigned thereto are arranged on four arms 30 of a conveying gripper 31 which are mounted so as to be pivotable about a common axis, said conveying gripper 31 being configured as a turntable.
the device 1 has a welding station 15 to which the bundle-retaining plate 9 and the funnel plate 21 can be transferred by means of the conveying gripper 31 .
one conveying receptacle 33 is configured on free ends of the arms 30 of the conveying gripper 31 for each of the four pairs composed of in each case one bundle-retaining plate 9 and one funnel plate 21 .
the bristle bundles 5 may be connected in a form-fitting and/or force-fitting manner to the carrier pads 17 in the welding station 15
a welding die 32 by way of which the bristle bundles 5 may be connected to the respective carrier pad 17 is provided in the welding station 15 for each of the carrier pads 16 which is disposed on the funnel plate 21 in the carrier pad mounting 25 .
the bristle filaments 2 which are processable using the device 1 are so-called chemically tapered filaments, that is to say CTFs, wherein also conventional bristle filaments may be processed on the device.
the device 1 has a de-sheathing station 34 which is upstream of the material box 3 and which serves for de-sheathing bristle filaments 2 which are held together in filament pucks 36 by means of a sheathing 35 .
the de-sheathing station 34 in the device illustrated in FIG. 1 here disposes of a total of three cutting device 37 which are in each case equipped with two cutting tools 38 , presently with cutting blades, for opening the sheathing 35 of the filament pucks 36 .
the filament pucks 36 illustrated in the figures are provided with a spin finish with an antistatic additive for CTFs, which may reduce the tendency of the bristle filaments 2 toward static charging when being conveyed.
the de-sheathing station 34 furthermore has at least one gripping installation for removing the opened sheathings 35 .
the de-sheathing station 34 is connected in terms of conveying technology to the material box 3 which is downstream thereof.
Said material box 3 may have a gripper or a slide (not illustrated in the figures) by way of which the de-sheathed bristle filaments 2 are infeedable to the material box 3 , preferably in an automated manner.
the material box 3 illustrated in FIG. 1 has in total three conveying paths 39 which are connected in terms of conveying technology to the de-sheathing station 34 and in which the bristle filaments 2 which are oriented in the vertical direction are disposed between in each case two lateral strips 40 .
the de-sheathing station 34 is integrated in the three conveying paths 39 of the material box 3 in a particularly advantageous way.
FIG. 1 shows that the three conveying paths 39 open into a removal region 41 of the in total three removal devices 4 .
the conveying paths 39 in each case may have one introduction region (not illustrated in the figures) in which the spacing of the lateral strips 40 delimiting the respective conveying path 39 is reduced in the conveying direction of the filament pucks 36 or of the bristle filaments 2 which are freed of the respective sheathing 35 , respectively.
the device 1 Upstream of the de-sheathing station 34 the device 1 has a transfer station 42 having a suction gripper 43 for transferring bristle filaments 2 which are held together in filament pucks 36 by means of a sheathing 35 to the de-sheathing station 34 .
the suction gripper 43 is disposed on a mounting 56 which in turn is displaceably mounted on a rail system 57 .
the suction gripper 43 may then be displaced both in the horizontal and in the vertical direction, in order for individual filament pucks 36 to be transferred from the transfer station 42 to the de-sheathing station 34 .
the suction gripper 43 of the transfer station 42 has a suction plate 45 which is covered with a fabric which is impermeable to filaments, in the present case with a galloon fabric 44 , by way of which suction plate 45 in each case at least one filament puck 36 by way of its upper side or end side 46 which faces away from a contact area is acquirable by suction.
the galloon fabric 44 with which the suction plate 45 of the suction gripper 43 is covered prevents the bristle filaments 2 being sucked out of the respective filament puck 36 which has been acquired by suction and said bristle filaments 2 being lost for further processing.
the device 1 according to FIG. 1 has a suction unit 16 which is disposed beyond the bundle-retaining plate 9 which is held ready on the conveying device 6 and which generates the gas or air stream which is required for conveying the bristle bundle 5 through the hollow conduits 7 of the conveying device 6 .
the suction unit 16 is also covered with a fabric which is impermeable to filaments, in the present case with a galloon fabric 44 , such that suctioning off bristle filaments 2 of individual bristle bundles 5 which have been sucked into the bundle-retaining plate 9 may be prevented.
the sheathing 35 or the puck sheath, respectively thus is configured as an endless tape or as a tubular portion, respectively, or as a sleeve which laterally surrounds the respective filament puck 36 .
a height of the respective sheathing 35 or of the puck sheath corresponds to about a length of the bristle filaments 2 of the filament puck 36 .
the sheathing 35 or the puck sheath of the filament puck 36 here is composed of a flexible and in the present case also air-impermeable material.
the material of the sheathing 35 illustrated in FIGS. 1 and 2 is a polyethylene material which, on account of its properties is particularly suited to use as a puck sheath or sheathing 35 .
the device 1 has an infeed station 47 which is connected to the transfer station 42 .
This infeed station 47 comprises three contact areas which are in each case configured as a conveyor belt 48 , on which the filament pucks 36 may be infed to the transfer station 42 and to the suction gripper 43 which is assigned to the transfer station 42 .
the filament pucks 36 are spaced apart on these three contact areas which are in each case configured as a conveyor belt 48
all three contact areas which are configured as conveyor belts 48 have a plurality of receptacle depressions 49 which are spaced apart from one another in the conveying direction and which serve for in each case receiving one filament puck 36 .
the infeed station 47 on at least one of its longitudinal sides 50 is equipped with at least one locationally fixed depository face 51 which adjoins the three contact areas which are configured as conveyor belts 48 .
Individual filament pucks 36 or supply containers 52 which are at least partially filled with filament pucks 36 may be held ready on this at least one locationally fixed depository face 51 .
the depository face 51 here is configured so as to be board-shaped or strip-shaped and extends across the entire length of the contact areas of the infeed station 47 which are configured as conveyor belts 48 .
FIGS. 3 to 5 show an exemplary embodiment of a carrier pad 17 according to the invention. It should be pointed out at this juncture that the carrier pads 17 which in FIG. 1 have been processed using the device 1 are of the same type as the carrier pads 17 which are illustrated in FIGS. 3 to 5 .
FIGS. 6 to 9 A further very similar exemplary embodiment of a carrier pad 17 according to the invention is illustrated in FIGS. 6 to 9 .
Said carrier pad 17 differs from that from FIGS. 3 to 5 in that it has a mixed bristle arrangement 58 which firstly comprises bristle bundles 5 consisting of conventional bristle filaments 2 and secondly bristle bundles 5 a consisting of chemically tapered bristle filaments 2 a.
the carrier pad 17 has a plurality of perforations 24 , here a total of ten, which penetrate the carrier pad 17 and in which the bristle bundles 5 composed of bristle filaments 2 are insertable and are fastenable without anchoring on the carrier pad 17 .
the bristle bundles which are introducible or are introduced into the perforations consist of tapered bristle filaments, in particular of chemically tapered bristle filaments 2 a —so-called CTFs. At least after their fastening to the carrier pad, they form a bristle arrangement consisting of tapered bristle filaments 2 a on the carrier pad 17 .
one portion of the bristle bundles which are introducible or are introduced into the perforations 24 and are denoted by 5 a are composed of tapered bristle filaments 2 a , in particular of chemically tapered bristle filaments 2 a , so-called CTFs, and another portion of the bristle bundles which are introducible or are introduced into the perforations 24 and are denoted here by 5 are composed of conventional bristle filaments 2 , i.e. of bristle filaments 2 which have a cross section which is consistent over their length.
the bristle bundles 5 a consisting of tapered bristle filaments 2 a and the bristle bundles 5 consisting of conventional bristle filaments 2 form in this case the mixed bristle arrangement 58 at least after their fastening to the carrier pad 17 .
the bristle filaments 2 or 2 a are composed of polyamide and/or of polyester, depending on application and requirements.
the conventional bristle filaments 2 in particular those with a cross section which is consistent over their length, are preferably composed of polyamide while tapered bristle filaments 2 a are composed of polyester. Polyester absorbs only little water, if any at all, which simplifies a drying process of the bristle filaments after their chemical tapering and makes the drying process possible for the first time on an industrially expedient scale.
the carrier pad 17 on its back side 53 which faces away from the bristle bundles 5 which are introduced into the perforations 24 has a plurality of material protrusions 54 , in total five. These material protrusions 54 are fusible and, for fastening the bristle bundles 5 on the carrier pad 17 , are interference-fittable in a bundle-fastening plane.
the bristle bundles 5 in the situation illustrated in FIG. 3 are still located in front of the carrier pads 17 , in the situation illustrated in FIG. 4 they have already been introduced into the perforations 24 of the carrier pad 17 .
the material protrusions 54 have already be fused on the back side 53 of the carrier pad 17 and, for fastening the bristle bundle 5 on the carrier pad 17 , have been interference-fitted in the bundle-fastening plane.
the bristle bundles 5 are connected to the carrier pad 17 in a form-fitting and/or force-fitting manner.
the material protrusions 54 are configured as pimples, wherein the material protrusions 54 transversely project from the back side 53 of the carrier pad 10 .
the material protrusions 54 are disposed so as to be uniformly distributed between the perforations 24 of the carrier pad 17 .
the perforations 24 of the carrier pad 17 each have a circular cross section.
the perforations 24 have various cross sections, that is to say, for example, a round and/or oval and/or circular and/or polygonal cross section, or else are configured as elongate perforations in order for bristle arrangements with variously configured bristle bundles to be created.
FIGS. 3 to 5 and 6 to 9 show that the material protrusions 54 are integrally connected to the carrier pad 17 , wherein the material protrusions 54 are composed of the same material as the carrier pad 17 , in particular of a fusible plastic material, preferably of a thermoplastic material.
the material of which the bristle filaments 2 , 2 a and/or the bristle bundles 5 , 5 a are composed here may have a lower melting point than the material from which the material protrusions 54 are manufactured.
an embodiment in which the material of which the material protrusions 54 are composed has a lower melting point than the material of which the bristle filaments 2 , 2 a and/or the bristle bundles 5 , 5 a are composed, is preferable.
FIGS. 3 to 5 and 6 to 9 clarify that the carrier pad 17 on its back side 53 which faces away from the bristle bundles 5 , 5 a has an endless and closed delimitation 55 which perpendicularly projects from the back side 53 of the carrier pad 17 and which surrounds the perforations 24 and the material protrusions 54 , and comprises the back side 53 of the carrier pad 17 .
the delimitation 55 of the carrier pad 17 here is at least half the height of the material protrusions 54 which are disposed on the back side 53 of the carrier pad 17 .
this limitation 55 is higher than the material protrusions 54 on the back side 53 of the carrier pad 17 .
said carrier pad 17 on its back side 53 which faces away from the bristle bundles 5 , 5 a has a cover 59 at least after introduction of the bristle bundles 5 into the perforations 24 and/or post fusing and interference-fitting of the material protrusions 54 .
Said cover 59 is illustrated in FIG. 9 and can be sprayed on, for example, in an inmould process.
the carrier pad 17 illustrated in FIGS. 3 to 5 and also the carrier pad 17 illustrated in FIGS. 6 to 9 may be fastened on or to, respectively, a brush 60 , in particular on a toothbrush having a handle 61 and a brush head 62 which has a carrier-pad receptacle 63 , for example by way of being clipped or adhesively bonded therein, or by being welded, in particular by means of an ultrasonic welding method, to the brush 60 .
Such a brush 60 is illustrated in FIG. 10 .
the carrier pad 17 is fastened to the brush 60 , in particular to the carrier-pad receptacle 63 of the brush 60 , by means of an inmould process.
FIG. 11 shows part of the mixed bristle arrangement 58 of the carrier pad 17 , which is fastened to the brush 60 , in an enlarged illustration.
Four bristle bundles 5 a consisting of tapered bristle filaments 2 a and the bristle bundles 5 , which are arranged next thereto and consist of conventional bristle filaments 2 , can readily be seen.
the mixed bristle arrangement 58 consists of eight inner bristle bundles 5 a and of four outer bristle bundles 5 surrounding the eight inner bristle bundles 5 a.
the bristle filaments 2 , 2 a are removed from the material box 3 which contains a reserve of bristle filaments 2 , 2 a and assembled to form bristle bundles 5 , 5 a . Thereafter, the bristle bundles 5 , 5 a by means of a gas or air stream are guided through the hollow conduits 7 of the conveying device 6 and subsequently incorporated into the perforations 8 of the bundle-retaining plate 9 .
the device 1 has the suction unit 16 which is disposed beyond the bundle-retaining plate 9 which is held ready on the conveying device 6 and which generates the gas or air stream which is required for conveying the bristle bundles 5 , 5 a through the hollow conduits 7 of the conveying device 6 .
the suction unit 16 is also covered with a fabric which is impermeable to filaments, in the present case with a galloon fabric 44 , such that suctioning off bristle filaments 2 , 2 a of individual bristle bundles 5 , 5 a which have been sucked into the bundle-retaining plate 9 may be prevented.
the bristle filaments 2 , 2 a or of the bristle bundles 5 , 5 a are electrostatically discharged when being conveyed through the conveying device 6 to the bundle-retaining plate 9 .
the bristle filaments 2 , 2 a forming the bristle bundle 5 , 5 a are electrostatically discharged when being conveyed through the hollow conduits 7 of the conveying device 6 to the bundle-retaining plate 9 .
the bristle filaments 2 , 2 a forming the bristle bundles 5 , 5 a when being conveyed through the conveying device 6 , more specifically when being conveyed through the hollow conduits 7 of the conveying device 6 , to the bundle-retaining plate 9 are earthed for electrostatic discharging.
the bristle filaments 2 , 2 a forming the bristle bundles 5 , 5 a when being conveyed through the conveying device 6 , for electrostatic discharging are guided past an electric terminal which is disposed on the conveying device 6 and which here is configured as an earth terminal 11 and are brought into contact with said electric terminal for electrostatic discharging.
the earth terminal 11 which the bristle filaments 2 , 2 a forming the bristle bundles 5 , 5 a contact when being conveyed through the conveying device 6 , in the device 1 illustrated in FIG. 1 is provided in the hollow conduits 7 and disposed therein.
the hollow conduits 7 are Bowden cable sleeves 14 .
an outer plastic sheathing of the hollow conduit 7 which is configured as a Bowden cable sleeve 14 has been removed, such that an inner metal helix 13 of the Bowden cable sleeve 14 is visible.
This metal helix 13 functions as the earth terminal 11 by way of which the bristle bundles 5 , 5 a which are conveyed through these hollow conduits 7 which are configured as Bowden cable sleeves 14 and the bristle filaments 2 , 2 a forming the bristle bundles 5 , 5 a are contacted and may thus be discharged.
the metal helix 13 illustrated in FIG. 1 is connected to the electric conductor 12 which is configured for dissipating electrostatic charges to the earth.
all hollow conduits 7 of the device 1 which are illustrated in FIG. 1 are configured as Bowden cable sleeves 14 which in each case have one inner metal helix 13 as an earth terminal 11 , which extends across the entire length of the individual hollow conduits 7 .
Each of the hollow conduits 7 illustrated in FIG. 1 is earthed by way of the electric conductor 12 or connected to the earth for dissipating electrostatic charges, respectively.
the bristle bundles 5 , 5 a from the bundle-retaining plate 9 are directly incorporated into perforations 24 of a carrier pad 17 which is held ready through narrowing funnel ducts 23 of the funnel plate 21 .
the bristle bundles 5 , 5 a are introduced into the perforations 24 of the in total four carrier pads 17 which are held ready on the funnel plate 21 with the aid of the compression die 28 through the narrowing funnel ducts 23 on the funnel plate 21 .
the material protrusions 54 which project on the rear side of the back side 53 of the carrier pad 17 which faces away from the bristle bundles 5 are heated and thereby fused in the welding station 15 , wherein a melt of the fused material protrusions 54 is interference-fitted in a fastening plane of the bristle bundle 5 , 5 a for connecting the bristle bundles 5 , 5 a to the respective carrier pad 17 , such that the melt flows in between ends of bristle bundles which project from the back side 53 of the respective carrier pad 17 and in between ends of bristle filaments of the bristle bundles 5 , 5 a and thereafter solidifies.
the material protrusions 54 on the carrier pad 17 here by means of the welding die 32 are heated, fused and interference-fitted in a fastening plane of the bristle bundle 5 , 5 a , in order for the bristle bundles 5 , 5 a to be fastened on the carrier pad 17 .
the bristle bundles which are infed to the bundle-retaining plate 9 may here be bristle bundles 5 of conventional bristle filaments 2 and/or bristle bundles 5 a of chemically tapered bristle filaments 2 a , that is to say so-called CTFs.
the bristle filaments 2 , 2 a are infed to the transfer station 42 in filament pucks 36 which are held together by a flexible and air-impermeable sheathing 35 .
the filament pucks 36 infed to the transfer station 42 are then acquired by suction by means of a suction gripper 43 which is assigned to the transfer station 42 , wherein the suction gripper 43 by way of its suction plate 45 contacts and acquires by suction the filament pucks 36 on their free upper side or end side 46 .
the flexible and air-permeable sheathing 35 which earlier has also already been referred to as a puck sheath, is acquired by suction in a transverse manner to the longitudinal axis of the bristle filaments 2 , 2 a and in an inward manner in the direction of a longitudinal center axis which is perpendicularly oriented to the upper side 46 of the respective filament puck 36 and, on account thereof, places itself in a stabilizing manner around the bristle filaments 2 , 2 a of the filament puck 36 which has been acquired by suction.
the filament puck 36 is transferred to the de-sheathing station 34 by means of the suction gripper 43 .
the filament pucks 36 which in the figures are being infed to the transfer station 42 are, at least if they are composed of chemically tapered bristle filaments 2 a , provided with a spin finish with an antistatic additive for CTFs which reduces the tendency of the bristle filaments 2 , 2 a toward static charging when being conveyed through the conveying device 6 .
the suction gripper 43 is disposed on a mounting 56 which in turn is displaceably mounted on a rail system 57 . With the aid of this mounting 56 the suction gripper 43 may then be displaced both in the horizontal and in the vertical direction, in order for individual filament pucks 36 to be transferred from the transfer station 42 to the de-sheathing station 34 .
the sheathing 35 of the filament pucks 36 is opened and removed, and the bristle filaments 2 , 2 a which have been freed of the sheathing 35 are infed to the material box 3 in an automated manner.
the device 1 Upstream of the transfer station 42 the device 1 has the infeed station 47 by means of which the filament pucks 36 are infed to the transfer station 42 and the suction gripper 43 of the transfer station, in the present case on a total of three contact areas of the infeed station 47 which are configured as conveyor belts 48 .
the filament pucks 36 are individually held ready at the infeed station 47 on the three contact areas which are configured as conveyor belts 48 or, as is illustrated in FIG. 1 , are held ready in their supply containers 52 and, if and when required, are preferably manually pushed directly from the supply containers 52 onto the three contact areas which are configured as conveyor belts 48 , in particular in a transverse manner to the conveying direction of the three conveyor belts 48 .
the method for manufacturing bristle arrangements for brushes, and the device 1 , the carrier pad 17 , and the brush 60 which is populated with a carrier pad 17 of this type enable simplification of the manufacture of bristle arrangements for brushes, inter alia in that the bristle bundles 5 , 5 a which by means of a gas or air stream are conveyed through the conveying device 6 to the bundle-retaining plate 9 when being conveyed through the conveying device 6 are electrostatically discharged, such that they may be more easily conveyed through the conveying device 6 , and in that they reduce the complexity in the fastening of bristle bundles 5 , 5 a in a carrier pad 17 without anchoring, since the carrier pad 17 on the rear side has material protrusions 54 which are fused and thereafter interference-fitted in a bundle-fastening plane, in order for bristle bundles 5 , 5 a which have been incorporated into the perforations 24 of the carrier pad 17 to be connected in a form-fitting and/or force-fitting manner to the

Landscapes

Engineering & Computer Science (AREA)
Manufacturing & Machinery (AREA)
Chemical & Material Sciences (AREA)
Materials Engineering (AREA)
Brushes (AREA)

US15/318,862 2014-07-15 2015-07-13 Carrier plate and brush, in particular toothbrush with carrier plate Abandoned US20170119141A1 (en)

Applications Claiming Priority (5)

Application Number	Priority Date	Filing Date	Title
DE102014010399.4		2014-07-15
DE102014010399		2014-07-15
DE102015109706.0A DE102015109706B4 (de)	2014-07-15	2015-06-17	Trägerplättchen und Bürste, insbesondere Zahnbürste mit Trägerplättchen
DE102015109706.0		2015-06-17
PCT/EP2015/001426 WO2016008576A1 (fr)	2014-07-15	2015-07-13	Plaque de support et brosse, notamment brosse à dents, équipée d'une plaque de support

Publications (1)

Publication Number	Publication Date
US20170119141A1 true US20170119141A1 (en)	2017-05-04

Family

ID=55021886

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
US15/318,862 Abandoned US20170119141A1 (en)	2014-07-15	2015-07-13	Carrier plate and brush, in particular toothbrush with carrier plate

Country Status (8)

Country	Link
US (1)	US20170119141A1 (fr)
EP (1)	EP3169191B1 (fr)
JP (1)	JP2017520307A (fr)
KR (1)	KR20170034896A (fr)
CN (1)	CN106455806B (fr)
DE (1)	DE102015109706B4 (fr)
TW (1)	TWI676435B (fr)
WO (1)	WO2016008576A1 (fr)

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US10646031B2 (en)	2016-04-08	2020-05-12	M+C Schiffer Gmbh	Feeding device for feeding batches of bristle filaments to a bristle filament cassette
WO2021010533A1 (fr) *	2019-07-18	2021-01-21	주식회사 리앤코 이노베이션	Procédé de fabrication de brosse à dents et brosse à dents ainsi fabriquée
US11457725B2 (en)	2017-07-12	2022-10-04	Koninklijke Philips N.V.	Stamped brush heads and brush head stamping manufacturing methods
US20220313408A1 (en) *	2017-10-27	2022-10-06	Sunstar Americas, Inc.	Powered toothbrush bristle head
US20230097383A1 (en) *	2021-09-30	2023-03-30	Guangzhou Stars Pulse Co., Ltd.	Electric toothbrush head and electric toothbrush
EP4447750A1 (fr) *	2022-02-03	2024-10-23	Zahoransky AG	Dispositif d'alimentation de faisceaux de soies pour la production de produits à base de soies, et machine de production de matériaux à base de soies

Families Citing this family (12)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
JP6523900B2 (ja) *	2015-09-28	2019-06-05	三菱鉛筆株式会社	ブラシ及びブラシの製造方法
BE1023624B1 (de) *	2016-03-30	2017-05-19	Bart Gerard Boucherie	Verfahren und Vorrichtung zum Herstellen einer Bürste oder eines Pinsels sowie Träger für eine Bürste oder einen Pinsel
DE102016004500A1 (de) *	2016-04-18	2017-10-19	Zahoransky Ag	Borsteneinheit mit Borstenfeld, Bürste mit Borsteneinheit sowie Vorrichtung und Verfahren zur Herstellung einer Borsteneinheit
EP4042902B1 (fr)	2016-04-20	2024-07-10	Trisa Holding AG	Produit de brosse
DE102017125046A1 (de) *	2017-10-26	2019-05-02	Zahoransky Ag	Verfahren und Vorrichtung zur Herstellung von Borstenfeldern für Bürsten sowie Borstenherstellungsmaschine
DE102017130442A1 (de) *	2017-12-19	2019-06-19	V-Air Machines Gmbh	Verfahren und Vorrichtung zum Herstellen von Bürsten
CN110638192A (zh) *	2018-06-26	2020-01-03	蔡茂提	无金属片牙刷的刷片结构
CN110638193A (zh) *	2018-06-26	2020-01-03	蔡茂提	无金属片牙刷的刷片结构
WO2020013282A1 (fr) *	2018-07-11	2020-01-16	株式会社ヤギ	Poils de brosse à dents, brosse à dents et procédé de fabrication de poils de brosse à dents
DE102018127192A1 (de) *	2018-10-31	2020-04-30	Gb Boucherie Nv	Trägerkörper für einen Borsteneinsatz, Bürste und Verfahren zur Herstellung einer Bürste
DE102019134973B4 (de) *	2019-12-18	2024-02-08	Zahoransky Ag	Fahrerloses Transportfahrzeug, Bürstenherstellungsmaschine, Fertigungssystem, Filamentpuck, Verfahren zur Handhabung eines Filamentpucks, Computerprogramm und computerlesbares Medium
DE102020105351A1 (de) *	2020-02-28	2021-09-02	Zahoransky Ag	Zahnbürstenkopf, Zahnbürste, Verfahren zur Herstellung eines Zahnbürstenkopfes, Verfahren zur Herstellung einer Zahnbürste, additive Fertigungsvorrichtung, Computerprogramm und computerlesbares Medium

Citations (4)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
DE102006011671A1 (de) *	2006-03-14	2007-09-20	Firma G.B. Boucherie N.V.	Verfahren und Vorrichtung zum Verschmelzen der axialen Enden von gebündelten Fasern aus thermoplastischem Kunststoff
US7930792B2 (en) *	2007-01-19	2011-04-26	Colgate-Palmolive Company	Oral care implement
US7938492B2 (en) *	2005-03-11	2011-05-10	Young-Jun Kwon	Toothbrush having pressure relief unit and method of producing same
US20110109149A1 (en) *	2008-06-07	2011-05-12	Trisa Holding Ag	Method for producing toothbrushes bristled in an anchorless manner

Family Cites Families (13)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
DE19738256C2 (de) *	1997-09-02	1999-09-23	Rueb F A Holding Gmbh	Verfahren und Vorrichtung zum Herstellen von Borstenfeldern sowie damit hergestelltes Borstenfeld
DE19818553C1 (de) *	1998-04-24	1999-08-05	Rueb F A Holding Gmbh	Verfahren zur Herstellung einer Zahnbürste aus Kunststoff
EP1110479B1 (fr) *	1999-12-22	2003-07-30	G.B. Boucherie, N.V.	Procédé de fixation des faisceaux de soies à un support en matière thermoplastique pour brosses
JP2001178544A (ja) *	1999-12-27	2001-07-03	Kao Corp	歯ブラシ
JP2002186521A (ja) *	2000-12-21	2002-07-02	Lion Corp	歯ブラシ
DE202004018612U1 (de)	2004-11-19	2005-03-31	Boucherie Nv G B	Zahnbürste
BE1018439A3 (nl) *	2009-02-04	2010-11-09	Gb Boucherie Nv	Methode voor het produceren van ankerloze borstels, meer bepaald tandenborstels.
DE102009013723A1 (de) *	2009-03-20	2010-09-23	Zahoransky Ag	Verfahren und Vorrichtung zum Herstellen und Bereitstellen von Filamentbündel und Borstenfelder
TW201216894A (en) *	2010-10-26	2012-05-01	Zahoransky Formenbau Gmbh	Brush and method for producing a brush
KR20120097352A (ko) *	2011-02-24	2012-09-03	최의정	칫솔의 제조방법
DE102012024558B4 (de) *	2012-12-15	2023-09-28	Zahoransky Ag	Verfahren zur Herstellung von Bürsten und Bürstenherstellungsmaschine
DE102013003249A1 (de)	2013-02-27	2014-08-28	Zahoransky Ag	Zusammenfassen von Borstenbunden
KR102424499B1 (ko)	2013-07-24	2022-07-22	자호란스키 아게	칫솔모 필라멘트를 이송하는 트랜스퍼 스테이션

2015
- 2015-06-17 DE DE102015109706.0A patent/DE102015109706B4/de active Active
- 2015-07-08 TW TW104122102A patent/TWI676435B/zh not_active IP Right Cessation
- 2015-07-13 KR KR1020177002455A patent/KR20170034896A/ko not_active Ceased
- 2015-07-13 CN CN201580032062.3A patent/CN106455806B/zh active Active
- 2015-07-13 US US15/318,862 patent/US20170119141A1/en not_active Abandoned
- 2015-07-13 EP EP15737983.5A patent/EP3169191B1/fr active Active
- 2015-07-13 JP JP2016573593A patent/JP2017520307A/ja active Pending
- 2015-07-13 WO PCT/EP2015/001426 patent/WO2016008576A1/fr not_active Ceased

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US7938492B2 (en) *	2005-03-11	2011-05-10	Young-Jun Kwon	Toothbrush having pressure relief unit and method of producing same
DE102006011671A1 (de) *	2006-03-14	2007-09-20	Firma G.B. Boucherie N.V.	Verfahren und Vorrichtung zum Verschmelzen der axialen Enden von gebündelten Fasern aus thermoplastischem Kunststoff
US7930792B2 (en) *	2007-01-19	2011-04-26	Colgate-Palmolive Company	Oral care implement
US20110109149A1 (en) *	2008-06-07	2011-05-12	Trisa Holding Ag	Method for producing toothbrushes bristled in an anchorless manner

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US10646031B2 (en)	2016-04-08	2020-05-12	M+C Schiffer Gmbh	Feeding device for feeding batches of bristle filaments to a bristle filament cassette
US11457725B2 (en)	2017-07-12	2022-10-04	Koninklijke Philips N.V.	Stamped brush heads and brush head stamping manufacturing methods
US20220313408A1 (en) *	2017-10-27	2022-10-06	Sunstar Americas, Inc.	Powered toothbrush bristle head
WO2021010533A1 (fr) *	2019-07-18	2021-01-21	주식회사 리앤코 이노베이션	Procédé de fabrication de brosse à dents et brosse à dents ainsi fabriquée
US20230097383A1 (en) *	2021-09-30	2023-03-30	Guangzhou Stars Pulse Co., Ltd.	Electric toothbrush head and electric toothbrush
EP4447750A1 (fr) *	2022-02-03	2024-10-23	Zahoransky AG	Dispositif d'alimentation de faisceaux de soies pour la production de produits à base de soies, et machine de production de matériaux à base de soies
EP4447750B1 (fr) *	2022-02-03	2025-05-07	Zahoransky AG	Dispositif d'alimentation de faisceaux de soies pour la production de produits à base de soies, et machine de production de matériaux à base de soies

Also Published As

Publication number	Publication date
JP2017520307A (ja)	2017-07-27
EP3169191B1 (fr)	2023-05-03
KR20170034896A (ko)	2017-03-29
EP3169191A1 (fr)	2017-05-24
DE102015109706B4 (de)	2019-05-23
CN106455806A (zh)	2017-02-22
TWI676435B (zh)	2019-11-11
CN106455806B (zh)	2019-01-01
WO2016008576A1 (fr)	2016-01-21
TW201609020A (zh)	2016-03-16
DE102015109706A1 (de)	2016-01-21

Publication	Publication Date	Title
US20170119141A1 (en)	2017-05-04	Carrier plate and brush, in particular toothbrush with carrier plate
US9986816B2 (en)	2018-06-05	Method for manufacturing bristle arrangements, and device for manufacturing bristle arrangements
KR101752024B1 (ko)	2017-06-28	솔을 위한 강모 조립체 제조 장치
KR101670530B1 (ko)	2016-11-09	솔을 위한 강모 영역의 제조를 위한 방법 및 장치
US10843390B2 (en)	2020-11-24	Method and device for manufacturing an interdental cleaner
KR20180004220A (ko)	2018-01-10	강모 필라멘트 카세트에 강모 배치를 공급하기 위한 공급장치
JPH03215211A (ja)	1991-09-20	ブラシ用剛毛域又は刷毛用剛毛束の製法と製造装置
JP7075716B2 (ja)	2022-05-26	オーバーモールド成形されたブラシ片を製造する方法
JP2016525400A (ja)	2016-08-25	ブリッスルフィラメントを移送する移送ステーション
US6665902B1 (en)	2003-12-23	Metallic wire strip brush assembly and apparatus and method for making
CN103857312A (zh)	2014-06-11	用于制造刷子的方法和装置以及刷子
KR102256435B1 (ko)	2021-05-26	와이어부를 수용 및 배열하기 위한 배열 장치
KR102275009B1 (ko)	2021-07-08	칫솔 제조 방법 및 이 방법으로 제조된 칫솔
JP2003245139A (ja)	2003-09-02	ブラシの製造方法
KR102275010B1 (ko)	2021-07-08	칫솔 제조 방법 및 이 방법으로 제조된 칫솔
JP6621668B2 (ja)	2019-12-18	電線処理機の電線束の一括管理システム
CN109106055B (zh)	2020-10-02	齿间刷自动生产线
JP2003245135A (ja)	2003-09-02	ブラシの製造方法
JP2003245137A (ja)	2003-09-02	用毛先端部の整列方法
JPH09308754A (ja)	1997-12-02	パチンコ島台における静電気除去装置
JPH09278080A (ja)	1997-10-28	半導体パッケージの収納ケース

Legal Events

Date	Code	Title	Description
2016-12-14	AS	Assignment	Owner name: ZAHORANSKY AG, GERMANY Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:KUMPF, INGO;REEL/FRAME:040735/0951 Effective date: 20161018
2019-01-25	STPP	Information on status: patent application and granting procedure in general	Free format text: NON FINAL ACTION MAILED
2019-05-09	STPP	Information on status: patent application and granting procedure in general	Free format text: FINAL REJECTION MAILED
2020-01-14	STCB	Information on status: application discontinuation	Free format text: ABANDONED -- FAILURE TO RESPOND TO AN OFFICE ACTION