Source: https://patents.google.com/patent/EP2338377B1/en
Timestamp: 2020-01-19 23:13:32
Document Index: 252636020

Matched Legal Cases: ['art 1', 'art 2', 'art 4', 'art 1', 'art 1', 'art 1', 'art 4', 'art 1', 'art 1', 'art 1', 'art 1', 'art 4', 'art 1', 'art 4', 'art 1', 'art 2', 'art 4', 'art 1', 'art 4', 'art 1', 'art 4', 'art 1', 'art 4', 'art 1', 'art 4', 'art 1', 'art 1', 'art 4', 'art 1', 'art 1', 'art 4', 'art 1', 'art 1', 'art 4', 'art 1', 'art 4', 'art 4', 'art 4', 'art 4', 'art 1', 'art 1', 'art 4', 'art 1', 'art 1', 'art 4', 'art 1', 'art 1', 'art 4', 'art 1', 'arts 5', 'art 1', 'art 1', 'art 1', 'art 1', 'art 1', 'art 1', 'art 1', 'art 1']

EP2338377B1 - Toothbrush and method for production of such a toothbrush - Google Patents
Toothbrush and method for production of such a toothbrush Download PDF
EP2338377B1
EP2338377B1 EP10011399A EP10011399A EP2338377B1 EP 2338377 B1 EP2338377 B1 EP 2338377B1 EP 10011399 A EP10011399 A EP 10011399A EP 10011399 A EP10011399 A EP 10011399A EP 2338377 B1 EP2338377 B1 EP 2338377B1
EP10011399A
EP2338377A1 (en
2002-12-20 Priority to EP09000395A priority patent/EP2060201B1/en
2002-12-20 Priority to EP06002599A priority patent/EP1661487B1/en
2002-12-20 Priority to EP02782626A priority patent/EP1458261B1/en
2007-05-02 First worldwide family litigation filed litigation Critical https://patents.darts-ip.com/?family=7711076&utm_source=google_patent&utm_medium=platform_link&utm_campaign=public_patent_search&patent=EP2338377(B1) "Global patent litigation dataset” by Darts-ip is licensed under a Creative Commons Attribution 4.0 International License.
2011-06-29 Publication of EP2338377A1 publication Critical patent/EP2338377A1/en
2012-09-19 Publication of EP2338377B1 publication Critical patent/EP2338377B1/en
The invention relates to a toothbrush according to the preamble of claim 1 and a method for the production thereof with the features of claim 18.
Toothbrushes with a conventional bristle field consisting of bundles of bristle filaments, for example of polyamide (PA) or polyester (PBT), and an additional soft elastic structure are for example from WO 00/64307 and the WO 01/21036 known. The conventional bristles serve for the ordinary cleaning of the teeth, while the soft-elastic structure can perform different functions, such as massage of the palate, damping the cleaning movement, removal of dental plaque, polishing the tooth surface, elastic suspension of the bristles and / or sealing ungeschweisster points. The WO 00/64307 discloses a toothbrush having rod-like soft-elastic cleaning elements which are approximately the same length as the conventional bristle bundles and are peripherally arranged on the head part of the toothbrush. In the WO 01/21036 elastic cleaning elements are flat, eg wave-shaped, and arranged within the conventional bristle field. In the WO 00/64307 several of the soft elastic cleaning elements are connected to each other via a material bridge of the same material. The cleaning elements are produced after the bristles of the head part of the toothbrush with conventional bristles by molding over the head part. The disadvantage of this is that the bristle filaments are ready for use before the production of the soft elastic structure must be made, for example by rounding the bristle bundles or producing a predetermined profiling. Subsequently, a renewed insertion into the injection mold for the production of soft elastic structure is necessary. The bristle bundles can be damaged or dirty. The manufacturable forms of soft elastic structure are limited, among other things for demoulding technical reasons.
The invention has for its object to provide a toothbrush with conventional bristles and a soft elastic structure available that can be produced in a simple manner. Furthermore, a corresponding manufacturing method should be specified.
The object is achieved by a toothbrush having the features of claim 1 and by a method for producing such a toothbrush having the features of claim 18. Advantageous developments emerge from the dependent claims, the description and the drawings.
According to the invention, in a toothbrush of the type mentioned at least one soft elastic structure, for example a cleaning element, is arranged on a carrier element which consists of a hard material. This support element is connected to the head part. The carrier element and / or the soft-elastic structure has recesses through which the bristle filaments pass and are melted, welded or glued for attachment to the carrier element with their rear ends facing the head part in the application. This AFT (Anchor Free Tufting) technology has the advantage that can be largely arbitrary bristle arrangements, in particular flat bristles, realize. The support member is connected in particular by means of ultrasonic welding to the head part, for example as in the DE 200 06 311 U described.
Such a toothbrush has advantages in the production because the attachment, i. the provided with the soft elastic structure carrier element, manufactured separately and can be easily connected to the headboard.
The connection of the carrier element with the head part can be produced by mechanical means by jamming or snap-fastening or riveting, chemically by gluing, by ultrasonic welding or thermally by welding or other heat sources. Manufacturing technology is preferred that the carrier element consists of the same material as the head part, since in this case, only a hard component for preparing the brush held and must not be paid attention to mutual material compatibility. This has advantages, especially in ultrasonic welding.
The arrangement of the soft elastic structure on a carrier element made of a hard material has the following advantages: The additional part can be manufactured separately from the rest of the toothbrush body, consisting of handle and head part, and prepared for end use. In a simple further step, the connection of the carrier element with the head part, wherein all of said connection techniques can be used and the hard carrier element is preferably formed adapted thereto. For example, the carrier element can be shaped such that in the later connection step it can be shaped Embraces head part in a clamping manner. The additional part is due to the hard support member to handle in a simple manner and can be used much easier than a completely made of a soft elastic material attachment.
The additional part is small in relation to the rest of the toothbrush. Therefore, the tools needed are small and inexpensive. The toothbrush body and the bristles can be made with a standard tool even with later equipment with different accessories. In order to produce toothbrushes with different accessories, only the additional part or the corresponding tool has to be exchanged for it, which can be done in a simple and cost-effective manner.
A further advantage of the separate production of additional part and basic body is that any forms of soft-elastic cleaning elements can be realized, e.g. even those that cross the conventional bristles, touch or displace when inserting the additional part. Due to the separate production, the demolding of the soft elastic structure is unproblematic. There are geometries in the injection molding produced that would be demolded only at great expense if the Reinigungslement would be mounted directly on the bristled headboard.
Heretofore, the soft elastic structure has been made of the same material as any soft elastic components on the handle part for manufacturing reasons. The invention provides for the material of the structure a greater freedom, so that, for example, a different degree of hardness can be used. An inseparable connection of the additional part with the head part prevents the additional part from detaching during use, and precludes the danger of swallowing.
The conventional bristles are fastened, for example, directly on the head part, on a bristle plate acting as a further carrier element, or also on the carrier element for the soft-elastic cleaning elements, all variants having advantages. When attaching the bristles on the head part or on the bristle plate, the soft elastic structure and the conventional bristles can be prepared independently of each other for later use before assembling the head part and additional part, so that a mutual damage or contamination is prevented.
The application of both conventional bristles and the soft elastic structure on the carrier element has the advantage that any spatial arrangement of the two components is possible. Such a prepared carrier element can be connected to the final production with different toothbrush main bodies, so that a few basic bodies with a large number of different toothbrushes can be realized.
The conventional bristles may in both cases be prepared for use before or after application of the soft-elastic structure. If both components are provided on the carrier element, the flexible structure, including any cleaning elements, is preferably formed first and then the carrier element is filled with bristles which, for example, are formed by recesses in the soft or hard component can be passed.
The manufacture of the attachment, i. the carrier element with one or more soft elastic cleaning elements, is preferably carried out in two- or multi-component injection molding. In this case, a non-detachable connection between the components is preferably produced.
The soft-elastic structure is preferably also arranged laterally on the carrier element, e.g. injection-molded, wherein it terminates in the assembled state laterally with the outer contour of the head part or goes beyond this. It serves e.g. for sealing unwelded areas, massaging the palate, e.g. by sharpened slightly protruding elastic elements, or as impact protection when cleaning.
Preferably, the soft-elastic cleaning element consists of a particular thermoplastic elastomer, e.g. made of natural or synthetic rubber. For the carrier element, the material used for the toothbrush base body is preferably used, in particular polypropylene, styrene-acrylonitrile, polyester, acrylonitrile-butadiene-styrene (ABS) or Isoplast®. The Shore A hardness of the soft component is preferably less than 90, and more preferably less than 50.
Since rubber-elastic material, in particular a thermoplastic elastomer, due to the strong attenuation of the ultrasonic vibrations can only conditionally weld ultrasound, the welding surface between the carrier element and the head part is preferably at least partially kept free of the soft elastic component. Preferably, the injection point of the soft component on the bristle-carrying side of the Carrier selected so that no material bridges from the soft component reduce the welding area. In the event that non-elastic elements should nevertheless be arranged in the region of the welding surface, their position is preferably selected laterally from the longitudinal axis of the toothbrush. This creates unwelded points also on the side of the support element, while the front and rear in the longitudinal direction between the support member and the headboard can be welded. Thus, a good grip of the support member is guaranteed, as are burdened by the cleaning movement and the corresponding leverage forces, especially the front and rear area and less the side areas. A selective welding only with unwelded points can also be used selectively, so that the brush head and support element are mutually movable and thus a certain flexibility of the entire brush head is achieved.
The soft elastic structure can also serve as a sealing lip for additional sealing ungeschweisster points. As a result, the space between the carrier element and the head part is advantageously sealed against the ingress of water. Thus, no germs can accumulate in this area, and the brush is more hygienic. In order to achieve an adequate sealing function, the Shore A hardness of the soft component is preferably less than 50.
Examples of the invention are illustrated in the drawings and described below. It shows purely schematically:
Views of a toothbrush according to the invention in different assembly stages, wherein the additional part is fastened by riveting on the head part;
Views of another toothbrush whose attachment is fastened by riveting;
Views of a toothbrush whose attachment is secured by welding;
Views of a toothbrush whose attachment is attached by means of a snap connection;
Views of another toothbrush whose attachment is attached by a snap connection;
Views of a toothbrush, in which the attachment is fixed in a clamping manner;
the production of a toothbrush in the AFT process;
Fig. 8a-e
Views of another toothbrush whose attachment is attached with play on the headboard;
Fig. 10a-j
the production of another toothbrush in the AFT process;
Views of a toothbrush with a lateral Border made of soft elastic material.
All illustrated toothbrushes have a main body with a head part 1 and a handle part 2, which is only partially shown. An additional part 4 with several soft-elastic cleaning elements 6 of different shape, which are also connected to a carrier element of different shape, is connected to the finished toothbrush with the head part 1. The head part 1 is further directly ( Fig. 1-5 ) or indirectly ( Fig. 6 ) are provided with bundles 3 of conventional bristle filaments. Material and arrangement of the bristle bundles 3 may be different. In the following, only the specific features of the individual embodiments will be discussed. In this case, mutually corresponding elements are designated by the same reference numerals.
Fig. 1a, c shows a toothbrush whose head part 1 has already been provided with bristle bundles 3. This in Fig. 1b shown additional part 4 has an average U-shaped support member 5 made of a hard material, in particular the same plastic, which was used for the preparation of the head part 1 and the entire body. Soft elastic cleaning elements 6, here in the form of straight bars, are firmly connected to the carrier element 5. The cleaning elements 6 are slightly inclined from one another towards the vertical and enclose an angle of 5 to 30 ° with the vertical. In this way, the elastic cleaning elements 6 contact the conventional bristle bundles 3 (FIG. 1 d) and may even cross them (not shown). Such a position can be realized with conventional production methods only with expensive displacement techniques.
The support element 5 is in shape to an in Fig. 1c visible recess 9 in the bristle bundles 3 facing away from the region of the head part 1 adapted. In this area are further pins 7, which can be inserted through a hole 8 in the support member 5. The pins 7 are cold or hot deformed and so permanently fixed in the hole 8. A top view of the finished toothbrush shows Fig. 1d ,
The lower region of the hole 8 or of the entire head part 1 can be covered by a protective layer 22 of soft plastic for aesthetic or hygienic reasons (cf. Fig. 2d ). Likewise, the boundary regions between the carrier element 5 and the head part 1 are preferably covered by soft plastic. As a material for this example, the soft material is used, which is also used for the handle portion of the toothbrush. Preferably, the protective layer is already injected during the production of the grip part in the multi-component injection molding process. However, the plastic layer may also be formed directly on the carrier element.
Another example of a toothbrush whose attachment part 4 is connected to the head part 1 by a riveted connection is shown in FIG Fig. 2a-e shown. The additional part consists here of a plate-shaped support member 5, are connected to the flat soft elastic cleaning elements 6 rosette-shaped. The support member 5 has a pin 7 ', with which the additional part 4 can be inserted through an appropriately prepared hole 8' in the front end of the head part and fixed by deforming the pin 7 '. The soft-elastic cleaning elements 6 are located in the region of the tip of the head part 1. In the direction of the handle part 2, the bristle field closes with individual bristle bundles 3. A protective layer 22 covers the area of the hole 8 '.
Fig. 3a-e shows a further example of a toothbrush, the result of a toothbrush according to Fig. 2 similar. The additional part 4 with a plate-shaped carrier element 5 and rosette-like soft-elastic cleaning elements 6 is connected in the present case by means of a welded connection to the head part 1. For this purpose, the front region of the head part has a plate-like recess into which the carrier element 5 is permanently inserted by means of ultrasound welding thanks to a correspondingly structured underside 5a. A side view of the finished toothbrush shows Fig. 3d , the supervision of the combined bristle field of conventional bristle bundles 3 and soft elastic cleaning elements 6 shows Fig. 3e ,
The additional part 4 of in Fig. 4a-e shown toothbrush is fastened by means of a snap connection in the middle of the head part 1. The additional part 4 comprises a rectangular support element 5, at whose corners wing-like soft-elastic cleaning elements 6 are arranged. On the support element 5 are further two rod-shaped cleaning elements 6 ( Fig. 4b, c ). As in Fig. 4a 1, the head part 1 has a central hole 8 ", which serves to insert a spring-shaped extension 11 on the carrier element 5. The additional part 4 and the head part 1 are connected to one another by a snap connection which, due to the enlarged cross-section at the lower end 11a of the extension 11 The bristle field of the conventional bristle bundles 3 is configured so that the wing-like cleaning elements 6 between the conventional Bristle bundles find 3 place, as in Fig. 4a and 4e shown. The additional part 4 is manufactured separately and then inserted into the head part 1 with the prepared bristle field. As a result, through the conventional bristle field sweeping structures of soft elastic cleaning elements 6 can be realized, as the wing-like elements arranged above the corner Fig. 4b-e or pointing in different directions, fanned pencil-shaped cleaning elements Fig. 8 , The bottom of the head part 1 is covered for hygienic or aesthetic reasons by a layer 22 of soft elastic material.
Fig. 5a-e show a further example of a snap connection between the additional part 4 and the head part 1 of a toothbrush according to the invention. The head part 1 has within the bristle field of conventional bristle bundles 3 a prepared area 13 for receiving the additional part 4. This area 13 consists of a recess at the edge perpendicular to the orientation of the handle 2 each have a groove 12 which the head part 1 as Also, the extending at its lateral edge grooves 12 'has a certain elasticity or resilient effect. The prepared area 13 is slightly smaller than the base area of the carrier element 5, so that it can be inserted into the area 13 in a suitable manner and in a clamping manner. As seen from the supervision in Fig. 5e recognizable, the additional part has both rod-shaped and flat, arranged transversely to the orientation of the handle 2 cleaning elements.
Fig. 6a-f shows a further example of a toothbrush according to the invention, here a Aufsteckzahnbürste for an electric tooth cleaning device. The conventional Bristle bundles 3 are fastened to a separate bristle plate 18, which is connected in the mounted state to the head part 1 of the toothbrush adapted thereon or to a disk 23 mounted thereon in a rotatable or pivotable manner. The soft-elastic cleaning elements 6, in this case rod-shaped, are fastened to a carrier element 5 which is slightly bent in plan view and has a flat extension 16, which is oriented essentially perpendicular to the orientation of the cleaning elements 6. With this extension 16, the additional part 4 can be inserted into a correspondingly shaped groove 14 in the disk 23 1. In the middle of the head part 1 and the groove 14, a round recess 15 is arranged, into which engages a corresponding counter element 17 on the extension 16 of the additional part 4. This additional part 4 and headboard 1 are connected to each other fittingly and in a clamping manner. The bristle plate 18 has at its lower end a groove 19 with which the bristle plate 18 on the disc 23 and the lateral extensions 23 can be attached. The additional part 4 is moved in the illustrated embodiment by the disc 23. As an alternative, the additional part 4 can be attached directly to the head part 1 and does not rotate with it.
Figure 7a-e show an example of the production of a toothbrush by means of the AFT technology. The FIGS. 7a-c show sectional views of the carrier element 5 in various stages of the method, before the loading with soft-elastic cleaning elements 6 and conventional bristle bundles 3 (FIGS. Fig. 7a ), after application of the soft elastic material ( Fig. 7b ) and after application of the bristles ( Fig. 7c ). The carrier element 5 is in its outer shape to the dimensions of a prepared area 13 in the form of a flat recess in the head part first adapted to the toothbrush. The carrier element 5 has prepared regions 20 into which the soft-elastic cleaning elements 6 are attached, in particular injection-molded. Furthermore, the support element has 5 recesses 24, which are completely or partially filled with soft elastic material 6 ', see. also the detailed drawing Fig. 7e , Furthermore, holes 21 are present in the carrier element 5, are pushed through the bristle bundles 3 and fixed to the back by melting their rear ends 3a. The elastic material regions 6 'have further holes 21', which also serve to receive bristle bundles 3, which are fastened in the same way. The material regions 6 'can receive one or more bristle bundles 3. The anchored in the elastic material 6 'bristle bundles 3 are therefore particularly elastic anchored or suspended. Further bristle bundles 3 are fastened directly on the carrier element 5. The carrier element 5 equipped with bristle bundles and the soft-elastic structure 6, 6 'is then inserted into the prepared area 13.
In the application, the bottom of the recess 13 facing edge 30 of the support member 5 is pointed, also in the example Fig. 10 and 11 , This tapered edge 30 is used in ultrasonic welding for connection to the head part 1 as an energy concentrator and material reservoir for material to be liquefied.
The AFT technology uses no anchors or clips to attach the bristle filaments, which instead are welded directly to the backing plate. Thus, the width of a bundle of bristles is not determined by the anchor, so that also finer structures, especially flat bristle arrangements realize to let.
Technically, it is also possible to prepare the bristle filaments for use in the AFT process prior to attachment to the carrier plate. However, the variant is currently being implemented in which the bristles are processed only after attachment to the carrier plate.
Fig. 8a-e shows a variant of the toothbrush Fig. 4 , The bristle field of conventional bristle bundles 3 corresponds Fig. 4 , The additional part 4 has a plurality of star-shaped apart pin-shaped cleaning elements 6, which pass through the conventional bristle bundles 3 ( Fig. 8d, e ). The attachment mechanism corresponds FIG. 4 , A layer 22 of soft elastic material covers the underside of the head and handle part 1,2.
Fig. 9a-f show a further example of a toothbrush according to the invention. The head part 1 has a prepared area 13 for the carrier element 5 of the additional part 4, which is larger than the carrier element 5 itself. The region 13 is, for example, a hole completely through the head part 1, cf. sectional drawings Fig. 9b, d, e , The region 13 has two lateral grooves 13 a, the shape of which is adapted to the shape of two lateral extensions 5 b of the carrier element 5. This is inserted into the head part 1 and locked there. Due to the play of the support element 5 within the region 13, which allows a lateral displacement and / or a pivoting movement about the axis defined by the extensions 5b, there is a particular elasticity or resilient action of the additional part 4. The back of the head part 1 can turn with a layer be covered from soft material.
Fig. 10a-j shows another example of a toothbrush made by AFT. The Figures 10a-c correspond to the FIGS. 7a-c and each show the carrier plate 5 in different stages of the process. Fig. 10d-f show the same support plate 5 in section along the in Fig. 10a indicated line II. The centrally arranged soft elastic element 6 is sheetlike or sail-like and in the supervision ( Fig. 10h ) wavy. As in Fig. 10e + f shown, the soft elastic structure comprises laterally molded portions 6 ", in the mounted state ( Fig. 10h ) limit the toothbrush head 1 laterally and close almost flush with the outer contour of the head part. They serve, for example, as impact protection and / or for additional massage of the palate. The areas 6 "also have holes 21 'for receiving bundles of bristles 3, which are elastically suspended and particularly pliable during cleaning.
The carrier element 5 provided with conventional bristles 3 and the soft-elastic structure 6, 6 ', 6 "is inserted into a recess 13 in the brush head 1. The brush head 1 is in Fig. 10g + j without support element 5 and in Fig. 10h + i shown with inserted support element 5 in different views. At its lateral edge, the brush head 1 or the recess 13 has lateral openings 25, which are adapted to the side soft-elastic regions 6 "which have been sprayed onto the carrier element 5.
The carrier element 5 is connected to the brush head 1 by means of ultrasonic welding. The welding surface 26 is indicated by dashed lines. To the welding too realize, the support member has at its lower edge a welding edge 26 ', which rests on the base of the recess 13 during assembly, wherein the contact surface defines the welding surface 26. The welding edge 26 'melts under the influence of ultrasound, so that the two parts 5 and 1 are connected to one another.
Since rubber-elastic material can only conditionally weld ultrasound, the welding surface 26 is kept as free as possible, for example in the case of the toothbrush Fig. 7 , or only minimally interrupted, as with the toothbrush off Fig. 10 , The goal is in both cases, the complete sealing of the cavity 28 between the carrier element 5 and the head part 1, to prevent ingress of water and germs. For this purpose, the injection point of the soft elastic material on the bristle-carrying front side of the carrier element 5 is preferably selected, so that unnecessary material bridges reduce the welding surface 26. If further soft elastic elements are present on the head part 1, in particular on its rear side, its position is chosen such that it does not reduce the welding surface 26. For example, they and the corresponding injection point lie completely within the area defined by the welding surface 26 on the rear side of the head part 1 (not shown). Preferably, the entire contact surface between head part 1 and carrier element 5 is welded to at least 25%, particularly preferably along the circumference of the head (line 26).
In the example off Fig. 10 the soft-elastic regions 6 "interrupt the welding surface 26, so that there are unwelded points 27. These are advantageously arranged on the side of the head part 1, while the longitudinally front and rear portions of the support member 5 with the head part 1 are firmly welded. As a result, a secure hold of the support member 5 is ensured, as exposed by the cleaning movement and corresponding leverage forces the front and rear of the largest load.
In the present case, the unwelded points 27 are sealed by the soft-elastic regions 6 "in the manner of a sealing lip, so that little or no water can penetrate into the cavity 28. For a good sealing function, material with a Shore A hardness of 50 or less is preferably chosen. Unwelded points between the head part and the carrier element can also be used selectively in order to achieve a certain flexibility between the two hard components.
Fig. 11 shows another example of an AFT-made toothbrush with two sail-like soft-elastic cleaning elements 6 in different views. The support member 5 is completely surrounded on its periphery with soft elastic material 6 ', which in the assembled state (top view 11a ) completely surrounds the head part 1 at its outer periphery at the top and serves as impact protection. In regions 6 ", the soft material serves as a holder for lateral bundles of bristles 3, which are passed through the soft elastic material 6".
How out Fig. 11c As can be seen, the hard components of carrier element 5 and head part 1 touch one another along a surface 26 below the soft component in the region 6 'and can be welded here by means of ultrasound become. The welding surface 26 is interrupted by the lateral regions 6 ", but a sufficient holding effect is achieved as described above The cavity 28 below the carrier element 5 is sealed by the soft-elastic regions 6" and the points welded along the surface 26.
The above with reference to Fig. 10 and 11 described type of welding and sealing of the components can be used with advantage in other toothbrushes.
Toothbrush with a handle (2) and a head part (1), a plate-like carrier element (5), which consists of a hard material, and a flexible structure (6, 6', 6"), which is arranged on the carrier element (5), wherein the carrier element (5), which has holes (21), has its rear side directed towards the head part (1) and is connected in an non-releasible manner to the head part (1), and clusters of bristles (3) are guided through the holes (21) and are fused, welded or adhesively bonded by way of their rear ends (3a), which in the application case are directed towards the head part (1), for fastening on the rear side of the carrier element (5), and wherein the carrier element (5), which is provided with the flexible structure (6, 6', 6"), forms a separate, additional part (4) and the flexible structure (6, 6', 6") comprises regions (6") arranged laterally on the carrier element (5).
Toothbrush according to Claim 1, characterized in that the regions (6"), which comprise the flexible structure (6, 6', 6") and are arranged laterally on the carrier element (5), terminate laterally, in the assembled state, with the outer contour of the head part (1).
Toothbrush according to Claim 1 or 2, characterized in that the flexible structure (6, 6', 6'') is fastened on the carrier element (5), wherein the flexible structure (6, 6', 6") and the carrier element (5) are produced by multi-component injection moulding and are connected by a non-releasable connection.
Toothbrush according to one of Claims 1 to 3, characterized in that an injection point for the production of the flexible structure (6, 6', 6") is located on the front side of the carrier element (5).
Toothbrush according to one of Claims 1 to 4, characterized in that the head part (1) has a cutout (13) which is matched to the shape of the carrier element (5) and is intended for accommodating the carrier element (5), and in that the carrier element (5) is inserted into this cutout (13) and is welded to the head part (1).
Toothbrush according to one of Claims 1 to 5, characterized in that the head part (1) has at least one lateral opening (25) whose shape is matched to the lateral flexible regions (6") which are arranged on the carrier element (5).
Toothbrush according to one of Claims 1 to 6, characterized in that the regions of the carrier element (5) which are at the front and rear in the longitudinal direction are firmly welded to the head part (1).
Toothbrush according to one of Claims 1 to 7, characterized in that non-welded locations (27) between the carrier element (5) and the head part (1) are present on the side of the head part (1).
Toothbrush according to Claim 8, characterized in that the flexible regions (6") interrupt a welding surface (26), and therefore the non-welded locations (27) are formed.
Toothbrush according to Claim 8 or 9, characterized in that the non-welded locations (27) between the head part (1) and the carrier element (5) serve to ensure a certain degree of flexibility between the two hard components of the carrier element (5) and of the head part (1).
Toothbrush according to one of Claims 8 to 10, characterized in that the non-welded locations (27) between the head part (1) and the carrier element (5) serve to allow the head part (1) and the carrier element (5) to move in relation to one another.
Toothbrush according to one of Claims 1 to 11, characterized in that connecting locations between the head part (1) and the carrier element (5) are covered by flexible material (22).
Toothbrush according to one of Claims 1 to 12, characterized in that the flexible structure (6, 6', 6") consists of a thermoplastic elastomer, which has a Shore A hardness of less than 90.
Toothbrush according to one of Claims 1 to 13, characterized in that the flexible structure (6, 6', 6") comprises at least one flexible cleaning element (6), which has no bristles.
Toothbrush according to one of Claims 1 to 14, characterized in that the carrier element (5) has cutouts (24), which are filled wholly or partially with flexible material, in order to form flexible material regions (6'), the flexible material regions (6') have further holes which serve for accommodating clusters of bristles (3), which are fastened on the rear side by their rear ends (3a) being fused.
Toothbrush according to one of Claims 1 to 15, characterized in that the flexible structure (6, 6', 6"), which is arranged on the head part (1), and an associated injection point for this flexible structure (6, 6', 6") are arranged on the rear side of the head part (1), within the region defined by the welding surface (26).
Toothbrush according to one of Claims 1 to 16, characterized in that a flexible structure (6, 6', 6") is arranged on the rear side of the head part (1), entirely within the region defined by the welding surface (26).
Method for producing a toothbrush according to Claim 5, comprising a handle (2) and a head part (1), wherein
a plate-like carrier element (5), which has a front side, a rear side and holes (21) and consists of a hard material, is provided;
a flexible structure (6, 6', 6") is moulded laterally on the carrier element (5);
a plurality of clusters of bristles (3) are provided and are guided through bristle-accommodating holes (21) in the carrier element (5);
the rear ends (3a) of the bristles are fused, welded or adhesively bonded to the rear side of the carrier element (5) and/or the flexible structure (6, 6', 6"); and wherein
the carrier element (5) is welded to the head part (1), wherein a welding surface (26) between the carrier element (5) and the head part (1) is kept free of the material of the flexible structure (6, 6', 6").
Method according to Claim 18, characterized in that the carrier element (5) has cutouts (24) which are filled wholly or partially with flexible material, in order to form flexible material regions (6'), the flexible material regions (6') have further holes which serve for accommodating clusters of bristles (3), which are fastened on the rear side by their rear ends (3a) being fused.
Method according to Claim 18 or 19, characterized in that the clusters of bristles (3) are cut and/or rounded before the bristles are fastened on the carrier element (5), which is not yet mounted on the head part (1), and/or on the flexible material.
Method according to one of Claims 18 to 20, characterized in that the flexible structure (6, 6', 6") and the carrier element (5) are produced by a two-component injection-moulding process, with a non-releasable connection being established between the flexible structure (6, 6', 6") and the carrier element (5).
Method according to one of Claims 19 to 21, characterized in that an injection point for the flexible material is provided on the front side of the carrier element (5).
Method according to one of Claims 18 to 22, characterized in that a contact surface between the head part (1) and the carrier element (5) is welded over at least 25%.
Method according to one of Claims 18 to 23, characterized in that the head part (1) and the carrier element (5) are welded in the longitudinally front and rear regions of the head part (1).
Method according to one of Claims 18 to 24, characterized in that the head part (1) and the carrier element (5) are welded along the head circumference of the carrier element (5), wherein non-welded locations (27) are formed.
Method according to one of Claims 18 to 24, characterized in that the head part (1) and the carrier element (5) are welded along the head circumference of the carrier element (5), wherein certain non-welded locations (27) are formed, and therefore the head part (1) and the carrier element (5) can be moved in relation to one another and a degree of flexibility for the brush head as a whole is achieved.
Method according to one of Claims 18 to 26, characterized in that the head part (1) and the carrier element (5) are formed from a hard component selected from the group made up of polypropylene (PP), polyester (PET) and acrylonitrile-butadiene-styrene (ABS).
EP10011399A 2001-12-28 2002-12-20 Toothbrush and method for production of such a toothbrush Active EP2338377B1 (en)
EP09000395A EP2060201B1 (en) 2001-12-28 2002-12-20 Toothbrush and method for production of such a toothbrush
EP06002599A EP1661487B1 (en) 2001-12-28 2002-12-20 Toothbrush and method for production of such a toothbrush
EP02782626A EP1458261B1 (en) 2001-12-28 2002-12-20 Toothbrush and method for production of such a toothbrush
EP06002599A Division EP1661487B1 (en) 2001-12-28 2002-12-20 Toothbrush and method for production of such a toothbrush
EP02782626A Division EP1458261B1 (en) 2001-12-28 2002-12-20 Toothbrush and method for production of such a toothbrush
EP09000395A Division EP2060201B1 (en) 2001-12-28 2002-12-20 Toothbrush and method for production of such a toothbrush
EP2338377A1 EP2338377A1 (en) 2011-06-29
EP2338377B1 true EP2338377B1 (en) 2012-09-19
EP10011550A Active EP2335519B1 (en) 2001-12-28 2002-12-20 Tooth brush and method for the manufacture of such a tooth brush
EP06002599A Active EP1661487B1 (en) 2001-12-28 2002-12-20 Toothbrush and method for production of such a toothbrush
EP10011706.8A Active EP2335520B1 (en) 2001-12-28 2002-12-20 Tooth brush and method for the manufacture of such a tooth brush
EP14003428.1A Active EP2842456B1 (en) 2001-12-28 2002-12-20 Holder element for a toothbrush and method for the production of such a holder element
EP02782626A Active EP1458261B1 (en) 2001-12-28 2002-12-20 Toothbrush and method for production of such a toothbrush
EP09000395A Active EP2060201B1 (en) 2001-12-28 2002-12-20 Toothbrush and method for production of such a toothbrush
EP10011399A Active EP2338377B1 (en) 2001-12-28 2002-12-20 Toothbrush and method for production of such a toothbrush
US (7) USRE42985E1 (en)
EP (7) EP2335519B1 (en)
KR (3) KR101022855B1 (en)
CN (4) CN101254047B (en)
BR (2) BR0215354A (en)
CA (4) CA2724109C (en)
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WO2015145340A1 (en) * 2014-03-25 2015-10-01 Koninklijke Philips N.V. Brush head assembly and methods of manufacture
EP1110479B1 (en) 1999-12-22 2003-07-30 G.B. Boucherie, N.V. Process for joining bristle bundles for brushes to a carrier made of thermoplastic material
2002-12-20 CN CN200810005687.2A patent/CN101228993B/en active IP Right Grant
2011-07-13 RBV Designated contracting states (corrected)