EP4153004A1 - Produit d'hygiène, en particulier produit d'hygiène bucco-dentaire - Google Patents
Produit d'hygiène, en particulier produit d'hygiène bucco-dentaireInfo
- Publication number
- EP4153004A1 EP4153004A1 EP21730111.8A EP21730111A EP4153004A1 EP 4153004 A1 EP4153004 A1 EP 4153004A1 EP 21730111 A EP21730111 A EP 21730111A EP 4153004 A1 EP4153004 A1 EP 4153004A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- base body
- volume
- volume body
- hygiene
- application unit
- Prior art date
- 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.)
- Pending
Links
Classifications
-
- A—HUMAN NECESSITIES
- A46—BRUSHWARE
- A46B—BRUSHES
- A46B5/00—Brush bodies; Handles integral with brushware
- A46B5/02—Brush bodies; Handles integral with brushware specially shaped for holding by the hand
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C44/00—Shaping by internal pressure generated in the material, e.g. swelling or foaming ; Producing porous or cellular expanded plastics articles
- B29C44/34—Auxiliary operations
- B29C44/36—Feeding the material to be shaped
- B29C44/38—Feeding the material to be shaped into a closed space, i.e. to make articles of definite length
- B29C44/44—Feeding the material to be shaped into a closed space, i.e. to make articles of definite length in solid form
- B29C44/445—Feeding the material to be shaped into a closed space, i.e. to make articles of definite length in solid form in the form of expandable granules, particles or beads
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C45/00—Injection moulding, i.e. forcing the required volume of moulding material through a nozzle into a closed mould; Apparatus therefor
- B29C45/14—Injection moulding, i.e. forcing the required volume of moulding material through a nozzle into a closed mould; Apparatus therefor incorporating preformed parts or layers, e.g. injection moulding around inserts or for coating articles
- B29C45/14778—Injection moulding, i.e. forcing the required volume of moulding material through a nozzle into a closed mould; Apparatus therefor incorporating preformed parts or layers, e.g. injection moulding around inserts or for coating articles the article consisting of a material with particular properties, e.g. porous, brittle
- B29C45/14795—Porous or permeable material, e.g. foam
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C67/00—Shaping techniques not covered by groups B29C39/00 - B29C65/00, B29C70/00 or B29C73/00
- B29C67/20—Shaping techniques not covered by groups B29C39/00 - B29C65/00, B29C70/00 or B29C73/00 for porous or cellular articles, e.g. of foam plastics, coarse-pored
- B29C67/205—Shaping techniques not covered by groups B29C39/00 - B29C65/00, B29C70/00 or B29C73/00 for porous or cellular articles, e.g. of foam plastics, coarse-pored comprising surface fusion, and bonding of particles to form voids, e.g. sintering
-
- 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
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C44/00—Shaping by internal pressure generated in the material, e.g. swelling or foaming ; Producing porous or cellular expanded plastics articles
- B29C44/34—Auxiliary operations
- B29C44/3415—Heating or cooling
- B29C44/3426—Heating by introducing steam in the mould
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29K—INDEXING SCHEME ASSOCIATED WITH SUBCLASSES B29B, B29C OR B29D, RELATING TO MOULDING MATERIALS OR TO MATERIALS FOR MOULDS, REINFORCEMENTS, FILLERS OR PREFORMED PARTS, e.g. INSERTS
- B29K2023/00—Use of polyalkenes or derivatives thereof as moulding material
- B29K2023/10—Polymers of propylene
- B29K2023/12—PP, i.e. polypropylene
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29K—INDEXING SCHEME ASSOCIATED WITH SUBCLASSES B29B, B29C OR B29D, RELATING TO MOULDING MATERIALS OR TO MATERIALS FOR MOULDS, REINFORCEMENTS, FILLERS OR PREFORMED PARTS, e.g. INSERTS
- B29K2025/00—Use of polymers of vinyl-aromatic compounds or derivatives thereof as moulding material
- B29K2025/04—Polymers of styrene
- B29K2025/06—PS, i.e. polystyrene
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29L—INDEXING SCHEME ASSOCIATED WITH SUBCLASS B29C, RELATING TO PARTICULAR ARTICLES
- B29L2031/00—Other particular articles
- B29L2031/42—Brushes
- B29L2031/425—Toothbrush
Definitions
- Hygiene products in particular oral hygiene products
- the invention relates to a hygiene agent, in particular an oral hygiene agent.
- a hygiene agent in particular an oral hygiene agent.
- EP 0 758534 B1 and US 4,283,808 already disclose hygiene products, in particular oral hygiene products, with at least one application unit, with at least one handle unit connected to the application unit and with at least one volume body which at least partially forms the application unit and / or the handle unit and which at least partly consists of a foamed material, known.
- hygiene agents are also already known from DE 20 2004 015 133 U1, WO 2020/193760 A1 and US Pat. No. 9,138,048 B2.
- the object of the invention is in particular to provide a generic device with improved properties in terms of material efficiency, weight and / or ergonomics.
- the object is achieved according to the invention by the features of claim 1, while advantageous configurations and developments of the invention can be found in the subclaims.
- the invention is based on a hygiene agent, in particular an oral hygiene agent, with at least one application unit, with at least one handle unit connected to the application unit and with at least one volume body, which at least partially forms the application unit and / or the handle unit and which is at least partially made of a foamed Material consists.
- the hygiene means have at least one base body connected to the volume body, which is at least partially the application unit and / or forms the handle unit, the at least one volume body being molded onto the at least one base body.
- the volume body is preferably produced in a foaming process and in particular forms at least part of the handle unit and / or the application unit.
- the hygiene means preferably consists of an application unit with bristles and the handle unit, the application unit in particular having a neck area which connects the application unit to the handle unit. All sub-elements can consist of at least one hard and / or one or more soft component (s) and / or a foamed material. Conventional hard and / or soft components or sustainable hard and / or soft components can be used.
- the inventive design of the hygienic means can provide advantageous properties with regard to ergonomics of the hygienic means.
- the grip unit can advantageously be gripped.
- the weight of the hygienic agent can be kept low, in particular without impairing the ergonomics of the hygienic agent, in particular its ability to be grasped.
- a light but nevertheless voluminous body can be provided.
- a light but nevertheless voluminous toothbrush can be produced.
- the hygiene agent is particularly light as a feather and a surface is rather soft and feels warm.
- the use of material for the hygiene agent can be kept low. In this way, in particular, an advantageously ecological or sustainable hygiene agent can be provided.
- a “hygiene agent” is to be understood as meaning, in particular, an oral hygiene agent, preferably a toothbrush.
- the hygiene agent can be a body care agent, e.g. for hair removal such as in particular a shaving brush handle or a wet razor, and / or a hairbrush, in particular an elongated hairbrush handle or a hairbrush handle, for example in the form of a bowl (into which the bristle field is introduced) be.
- the hygiene agent of a cosmetic applicator such as in particular a handle for a mascara brush or a mascara applicator, a mascara container, a nail polish brush handle, a nail polish brush container, a face brush, a handle for a make-up applicator and / or a container for make-up is formed.
- the hygiene agent can be understood as a household item, such as a handle element on the handle of a washing-up brush, a handle element on the handle of a toilet brush handle, a handle element on the handle of a floor mop, on the handle of a dustpan and / or a handle element on the broomstick of a broom will.
- the hygiene means can be formed by packaging and / or an aid, such as, in particular, a dental floss box, a cream jar and / or a face brush base.
- An “oral hygiene agent” is to be understood in particular as a toothbrush and / or an interdental cleaner and / or an interdental brush and / or a flosser and / or a tongue cleaner and / or a toothpick.
- the oral hygiene agent is advantageously designed as a toothbrush, in particular a manual toothbrush, preferably a children's or adult toothbrush, advantageously a purely manual toothbrush.
- the oral hygiene agent can be a disposable toothbrush, a reusable toothbrush, an interchangeable toothbrush, a single-tuft brush, an electric toothbrush, in particular a housing of an electric toothbrush, as well as a hybrid toothbrush, an interdental cleaner, in particular with twisted-in bristles, in injected form or be designed as a flosser, a tongue cleaner and / or as a dental floss box.
- the hygiene means in particular has a longitudinal axis which is advantageously arranged at least essentially parallel to a main direction of extent of the hygiene means.
- the longitudinal axis preferably runs at least in sections within the hygiene product and in particular through its center of gravity.
- the longitudinal axis of the hygiene product is a central axis of the hygiene product and / or a central axis of the handle unit.
- a “central axis” of an object is to be understood in particular as an imaginary axis that runs within the object parallel to a main direction of extent of the object and intersects the object at a maximum of two points.
- At least substantially parallel should be understood here to mean in particular an alignment of a direction relative to a reference direction, in particular in a plane, the direction having a deviation from the reference direction, in particular less than 8 °, advantageously less than 5 ° and particularly advantageously less than 2 °.
- a “main direction of extent” of an object is to be understood here in particular as a direction which is parallel runs to a longest edge of a smallest imaginary cuboid, which just completely encloses the object.
- a “main extension” of an object is to be understood in this context in particular as an extension of a longest edge of a smallest imaginary cuboid which just completely surrounds the object.
- the hygiene device has a length, in particular parallel to the longitudinal axis of the hygiene device, and measured parallel to the support surface, from 140 mm to 210 mm and preferably from 165 mm to 195 mm, although other, in particular smaller or larger, lengths are of course also conceivable .
- the hygiene device has a maximum width, in particular parallel to a width axis of the hygiene device, advantageously perpendicular to the longitudinal axis and / or parallel to a main plane of extent of the hygiene device and / or the handle unit, of 10 mm to 20 mm and preferably of 12 mm to 17 mm on.
- the hygiene agent with the filaments / bristles introduced has, in particular, a height, in particular parallel to the height axis measured perpendicular to the support surface, of 12 mm to 25 mm and preferably of 15 mm to 19 mm.
- the term “height” refers in particular to a state of the hygiene product in which it is placed, for example on a surface such as a table top, a wash basin, a furniture top or the like, in particular in such a way that the longitudinal axis is arranged parallel to the surface .
- a “main extension plane” of an object is to be understood in particular as a plane which is parallel to a largest side surface of a smallest imaginary cuboid, which just completely surrounds the object, and runs through the center of the cuboid.
- the application unit advantageously has at least one cleaning area which is provided for a tooth cleaning application, in particular in an oral cavity of the user.
- the cleaning area preferably comprises at least one cleaning unit, in particular at least one brush head, advantageously a toothbrush head, preferably with several bristles and / or bristle bundles and / or sprayed cleaning elements or sprayed bristles and / or flexible cleaning elements.
- the cleaning unit can also be used, for example, as an interdental brush and / or as a single tuft (e.g. a single large bundle of bristles) and / or be designed as a bow covered with dental floss, in particular as a flosser, or the like.
- the application unit advantageously has at least the fial element, which is preferably connected to the cleaning area, in particular directly and / or in one piece.
- “In one piece” should be understood to mean, in particular, at least cohesively and / or materially connected, for example by a welding process, an adhesive process, an injection molding process and / or another process that appears sensible to a person skilled in the art, and / or advantageously formed in one piece, such as by a fiering position from a single cast and / or by a fiering position in a single or multi-component injection molding process and advantageously from a single blank.
- “Provided” should be understood in particular to be specially designed and / or equipped. The fact that an object is provided for a specific function is to be understood in particular to mean that the object fulfills and / or executes this specific function in at least one application and / or operating state.
- the hygiene means has, in particular, a front side and a rear side, which in particular are arranged facing away from one another.
- the cleaning area is preferably arranged on the front side of the hygiene product.
- the front side is in particular a side of the hygiene product that is visible in a viewing direction perpendicular to the longitudinal axis of the hygiene product and perpendicular to the width axis of the hygiene product.
- the face of the brush on which the thumb is placed is referred to as the front of the hygiene product.
- the front is usually also the side towards which the bristle field is directed.
- the rear side advantageously corresponds to a side of the hygiene product that is visible in a viewing direction opposite to this.
- the side of the toothbrush opposite the bristle field is referred to as the back of the hygiene product.
- the left side of the hygiene product refers to a side which is on the left when looking perpendicularly at the front of the hygiene product.
- the right side of the hygiene product denotes a side which is on the right when looking perpendicularly at the front of the hygiene product.
- an end of the hygiene product on which the cleaning area is arranged is referred to as the upper side.
- an end of the hygiene product which is opposite to the upper side and which is closest to the grip area is referred to as the underside.
- the handle unit preferably has at least one handle element which is advantageously provided for holding with one hand.
- the grip element is preferably designed with a waist at least in some areas. This advantageously allows a secure hold and optimizes ergonomics.
- the grip element is particularly preferably elongated, with a longitudinal axis of the grip element advantageously corresponding to the longitudinal axis of the hygiene product.
- the grip element has, in particular, a grip body which forms a substantial volume of the grip element.
- the grip element is at least partially formed from at least one hard component and / or from one or more soft components and from at least one foamed material.
- the grip element advantageously comprises at least one thumb grip area and / or at least one handle area.
- the thumb grip area is advantageously arranged on the front side of the hygiene product and in particular on a front side of the grip element. It is conceivable that the thumb grip area and / or the handle area have at least one element and / or a surface structure made of at least one soft component and / or at least one hard component and / or at least one foamed material.
- the components or materials used for production can be classified as follows - they apply to soft components, hard components and foamed material, among others:
- Bio-based materials or components material which, in particular, is made from more than 60%, preferably more than 80% and particularly preferably 100% from renewable raw materials. Another possible additional property of bio-based materials is in particular that the bio-based materials are biodegradable. The materials are preferably not based on foodstuffs such as, in particular, corn, etc.
- o Biodegradable materials or components material that is biodegradable in accordance with the current standards. This particularly includes compostability (industrial or non-industrial). Materials made from renewable raw materials, such as petrochemical raw materials in particular, can have this property.
- o Recycled materials or components materials that come from a recycling process, such as post consumer recycled materials, post industrial recycled materials, ocean waste plastic or social plastic.
- the materials or components used can be recyclable materials.
- recyclable materials there is advantageously another recycling option after use.
- a hard component can comprise polyolefins such as polypropylene (PP), polyethylene (PE) or the like, in particular also in the form of high-density polyethylene (HDPE) or low-density polyethylene (LDPE).
- SAN styrene acrylonitrile
- PS polystyrene
- ABS acrylonitrile butadiene styrene
- SMMA styrene methyl methacrylate
- SB styrene butadiene
- a hard component can comprise polyolefins such as polypropylene (PP), polyethylene (PE) or the like, in particular also in the form of high-density polyethylene (HDPE) or low-density polyethylene (LDPE).
- polyesters such as polyethylene terephthalate (PET), in particular in the form of acid-modified polyethylene terephthalate (PETA), glycol-modified polyethylene terephthalate (PETG), polybutylene terephthalate (PBT), acid-modified polycyclohexylene dimethylene terephthalate) or the like (PCT-G-hexylate-A), glycol-modified poly (ethylene terephthalate).
- PET polyethylene terephthalate
- PETA polyethylene terephthalate
- PET polyethylene terephthalate
- PET polyethylene terephthalate
- PET polyethylene terephthalate
- PETA polyethylene terephthalate
- PET polyethylene terephthalate
- PET polyethylene terephthalate
- PET polyethylene terephthalate
- PETA polyethylene terephthalate
- PET polyethylene terephthalate
- PET polyethylene terephthalate
- PET polyethylene terephthalate
- PETA polyethylene
- a hard component for example, polyamides (PA) such as PA 6.6, PA 6.10, PA 6.12 or the like, polymethyl methacrylate (PMMA), polycarbonate (PC), polyoxymethylene (POM), polyvinyl chloride (PVC), polyurethane (PUR), polyamide (PA) or the like include more.
- PA polyamides
- PMMA polymethyl methacrylate
- PC polycarbonate
- POM polyoxymethylene
- PVC polyvinyl chloride
- PUR polyurethane
- PA polyamide
- PE polyethylene
- PU polyurethane
- a hard component has a modulus of elasticity of at least 1000 N / mm 2 and advantageously of at least 1300 N / mm 2 and / or of at most 2400 N / mm 2 and advantageously of at most 1800 N / mm 2 .
- Polypropylene (PP) is the preferred hard component.
- At least certain of the materials mentioned under the hard component can be sustainable materials.
- materials with a cellulose content are at least partially bio-based.
- Hard components are advantageously used for stable and / or structure-bearing elements, in particular in the handle element and / or in a carrier element of the application unit and / or interface geometry, for example for interchangeable heads or the like.
- the hard component is preferably used for elements whose durability must be guaranteed.
- the hygiene agent or at least a base body of the hygiene agent preferably has a single hard component which can be formed from one of the materials mentioned or from a mixture thereof.
- combinations of different hard components are also conceivable, these being processed, for example, in a two- and / or multi-component injection molding and / or glued to one another and / or welded, in particular ultrasonically welded.
- hard components can be used that do not enter into a material bond and / or material bond in a two- and / or multi-component injection molding.
- a form fit for example in the form of at least one undercut and / or at least one opening and / or at least one at least partial overmolding or the like, is produced between hard components.
- a second hard component which is in particular injected onto a first hard component, shrinks and / or shrinks after an injection molding and advantageously forms a shrinkage connection with the first hard component.
- Suitable combinations can be, for example, polypropylene-polyester, polypropylene-styrene-acrylonitrile or other combinations.
- thermoplastic styrene elastomers such as a styrene-ethylene-butylene-styrene copolymer (SEBS), a styrene-butadiene-styrene copolymer (SBS) or the like come into consideration as soft components.
- thermoplastic polyurethane elastomers TPE-U
- thermoplastic polyamide elastomers TPE-A
- thermoplastic polyolefin elastomers TPE-O
- thermoplastic polyester elastomers TPE-E
- a soft component can comprise at least one silicone, for example.
- a soft component advantageously has a Shorte A hardness of at most 90, advantageously of at most 50 and particularly advantageously of at most 30.
- At least one soft component preferably forms at least one material bond and / or material bond with at least one hard component, in particular in at least one two- and / or multi-component injection molding, advantageously by means of at least one overmolding and / or overmolding.
- the materials mentioned under the soft component can be sustainable materials.
- the foamed material is in particular formed by a particle foam made of expanded components. Components that are expandable contain in particular an E in the designation.
- the foamed material can be made from a hard component, so that in particular a hard foam is produced.
- the foamed material can for example consist of expanded polystyrene (EPS), expanded polyethylene (EPE), expanded polypropylene (EPP), expanded polyethylene terephthalate (EPET) and / or expanded polybutylene terephthalate (EPBT) as the basic component.
- EPS expanded polystyrene
- EPE expanded polyethylene
- EPP expanded polypropylene
- EPET expanded polyethylene terephthalate
- EPBT expanded polybutylene terephthalate
- the foamed material can also be made from a soft component, so that in particular a soft foam is produced.
- the foamed material can for example consist of expanded thermoplastic polyurethane (ETPU) as a basic component.
- EPU expanded thermoplastic polyurethane
- the foamed material comprises pentane in the basic component.
- the pentane is used in particular as a propellant.
- the pentane causes the volume to increase in a manufacturing process.
- it can be stored because it is loaded with pentane, for example.
- biodegradable components are also possible for the foamed material.
- a foam that is completely biodegradable would be conceivable for sustainability.
- a foam based on vegetable oil, such as palm oil, and / or based on PLA that is to say in particular based on vegetable starch / cellulose and water, is conceivable. ok
- the foamed material is made in particular from expandable granules.
- the foamed material can be realized in particular from hard components or soft components.
- the foamed material is in particular formed from a closed-cell foam.
- Various granulate production variants that appear sensible to a person skilled in the art are conceivable.
- the material can be foamed in an autoclave as a reactor.
- the granulate for example polypropylene (PP), is introduced into the autoclave with easily evaporating hydrocarbon and mixed.
- the autoclave is then emptied, the granulate foams up and forms pearls.
- the material can be produced in an extruder.
- the extruder in a first step, the extruder is loaded with a melt and with blowing agent and extruded.
- the extruded material is then cut with knives after the extrusion and pearls are formed.
- colors can be mixed in directly.
- the advantage of this process is, in particular, the higher temperature resistance of the expanded granulate, with higher processing pressures, in particular steam pressures, being necessary later during molding.
- the expanded granulate for the foamed material is in particular buoyant and has a density of 0.01 g / cm 3 to 0.5 g / cm 3 , preferably 0.02 g / cm 3 to 0.3 g / cm 3 .
- the finished hygiene agent which can consist of further foamed and / or non-foamed materials or components, preferably remains buoyant.
- the mean density of the finished hygiene product is preferably below 0.9 g / cm 3 , preferably below 0.7 g / cm 3, particularly preferably below 0.5 g / cm 3 . In addition to the ability to swim, this also allows very simple and pleasant handling.
- the light hygiene product can reduce or even prevent injuries due to its resilient effect, even if handled incorrectly.
- benchmark polypropylene has a density of around 0.9 g / cm 3 to 1 g / cm 3 .
- Other materials for hygiene agents can even have densities above 1.0 g / cm 3 .
- the expanded granules for the foamed material have, in particular, good thermal insulation. Due to its low thermal conductivity, the material feels particularly warm and therefore offers a very pleasant feel, especially in comparison with an injection-molded (ie processed by means of an injection-molding process) plastic component. This circumstance also encourages longer use of the hygiene product and can thus better provide the intended benefit.
- the thermal conductivity of the expanded granulate for the foamed material is in particular from 10 W / (m * K) to 70 W / (m * K), preferably from 25 W / (m * K) to 45 W / (m * K).
- the foamed material has a pleasantly soft feel.
- the surfaces that are molded with the foamed material preferably have a Shore A hardness of less than 90, preferably less than 70 and particularly preferably less than 50. If surfaces are molded from soft material on the hygiene agent, the soft material with a Shore hardness lower than the foamed material chosen. The density of the foamed material is adjusted accordingly in order to achieve the preferred Shore hardness.
- the foamed material is preferably softer than the hard component.
- the expanded granulate has a damping function in particular for the foamed material.
- an acoustic noise reduction can be achieved, in particular by 10% to 50%, preferably by 15% to 30%.
- a grain size of the expanded granulate for the foamed material is in particular from 0.5 mm to 5 mm, preferably from 1 mm to 3 mm.
- the expanded granulate for the foamed material exhibits, in particular, a shrinkage after processing of 0.5% to 5%, preferably of 1% to 2%.
- the expanded granulate for the foamed material has, in particular, a dimensional stability under heat of 100.degree. C. to 180.degree. C., preferably from 110.degree. C. to 150.degree.
- a recycling proportion in the granulate can in particular be up to 90%.
- the expanded granules preferably have uniform particle sizes so that the surface of the foamed material is smooth.
- the foamed material can have a color.
- a color can be integrated into the foamed material. It can in particular for example, a continuous color can be produced in the foamed material.
- translucent foams can also be used. In this way, optical effects in particular can be achieved on the foamed part.
- the acoustic damping function can be used to advantage particularly in the case of housings for electric toothbrushes.
- the housing of the electric toothbrush can be partially or completely equipped with foamed material.
- the corresponding sections dampen the noises generated by the drive unit and gearbox during operation.
- a used hard component, a used soft component and / or a used foamed material have different colors so that surface structures, lettering, motifs and the like can be implemented by means of a suitable design of the hard component, the soft component and / or the foamed material.
- the surfaces of the various components or materials can have different surface roughness.
- the at least one application unit has a brush head, in particular a toothbrush head.
- the application unit advantageously has at least one cleaning unit, in particular a toothbrush head, with bristles.
- the cleaning unit also advantageously has at least one bristle carrier, for example a brush head base body.
- At least some or all of the bristles are advantageously conventional, extruded bristles.
- bristles can in particular comprise at least one hard component and / or at least one soft component.
- the bristles are preferably made at least partially or completely from polyamide (PA) and / or from polyester (PBT, PET), any other materials being conceivable and sustainable materials also being possible. It is also conceivable that at least some of the bristles have a taper and / or a variable cross section.
- the bristles are preferably formed from a single, in particular also mixed, component or material.
- bristles with several unmixed components are also conceivable, which can in particular be produced and / or produced by means of at least one coextrusion.
- the bristles can be manufactured and / or manufactured, for example, by means of extrusion, cutting to length and / or post-processing.
- conventional bristles are extruded, cut and used on the toothbrush handle by means of an adapted process, such as the anchor punch process, the AFT process and / or the IMT process, by means of which it is also determined when the bristles are processed further. For example when it is profiled and / or rounded.
- cylindrical or pointed bristles with a round cross-section are possible, with any other cross-sections such as polygonal, triangular, rectangular, square, elliptical, star-shaped, trapezoidal, parallelogram-shaped, rhombus-shaped or any other cross-sections being conceivable.
- different bristles can be used in a bristle bundle, but also different bristle bundles, in particular each with a certain type of bristle.
- the bristles and / or bristle bundles can be arranged regularly, but also irregularly.
- bristles and / or bundles of bristles arranged in groups and / or adjacent can differ with regard to at least one feature such as a length, a diameter, a material, a color, a material hardness, a geometry, a point and the like, in particular alternately.
- the bristles preferably have a diameter, in particular perpendicular to their longitudinal axis, of at least 0.075 mm and / or of at most 0.25 mm.
- the bristles advantageously have a cross-sectional area, in particular perpendicular to their longitudinal axis, of at least 0.002 mm 2 and / or of at most 0.2 mm 2 .
- bristles that are used in the cosmetics sector for example bristles of an additional application element
- thinner bristles and / or bristles with a smaller cross section can also be used, in particular bristles with a diameter, in particular perpendicular to their longitudinal axis, of at least 0.025 mm and / or of at most 0.2 mm and / or with a cross-sectional area, in particular perpendicular to its longitudinal axis, of at least 0.001 mm 2 and / or of at most 0.15 mm 2 .
- polyester PBT, PET
- PET is particularly suitable as a material, sustainable materials also being possible, with sharpening being able to be generated mechanically and / or chemically.
- the bristles are preferably straight in the longitudinal direction, but they are also wavy and / or twisted and / or helical and / or twisted Bristles are conceivable and, in particular, combinations of different bristles. Furthermore, bristles with a smooth surface are conceivable, as well as bristles with a textured surface.
- the bristles are preferably processed by means of at least one anchor punching process, an anchor free tufting process (AFT), an in-mold tufting process (IMT), a PTt process or the like, in particular attached to the bristle carrier.
- the bristle carrier preferably has a plurality of, in particular drilled and / or injection-molded, bristle receptacles, in particular holes for bristle bundles.
- anchor punching it is conceivable, for example, that a base body, in particular from a flart component, preferably the brush head, is first manufactured by means of injection molding, with blind holes for bundles of bristles advantageously being formed during the injection molding.
- bristles or bristle bundles are then folded and fastened in each case in a blind hole by means of at least one anchor, in particular by means of punching. Loop punching is also conceivable.
- bristles or bristle bundles advantageously not being folded.
- bristles or bristle bundles are approximately half the length of an anchor punch.
- the bundles of bristles are initially separated, fused and / or that their bristle ends that are not on the use side are in particular then encapsulated in order to fasten them.
- bundles of bristles can advantageously be brought together.
- a fiery position by means of the in-mold tufting process is possible, with a base body, for example the brush head and / or the handle unit and / or the fastening unit, advantageously being formed when the bristle ends are overmolded.
- bristles are first overmolded with platelets or the like and these platelets are then overmolded in turn, for example to form the brush head and / or the handle unit.
- the application unit consists of a base body and a bristle plate, which is provided with bristles and / or alternative cleaning elements is occupied, is composed.
- bristle plates with through holes are first manufactured by means of injection molding, through which bristles are then passed.
- the bristles are then preferably connected, in particular fused, on a rear side, preferably with one another and / or with the corresponding bristle plate.
- Bristle platelets with bristles in this way can then be welded and / or glued to a base body, in particular a brush head, preferably by means of ultrasonic welding.
- the base body in particular the brush head, has in particular a recess into which the bristle plate can be inserted.
- the known manufacturing process is the anchor-free tufting process, which in particular enables bundles of bristles to be brought together.
- the underside of the bristle plate denotes a side which is placed in a recess in the base body and points in the direction of the rear side of the hygiene product.
- the top of the bristle plate points in the direction of the top of the hygiene product.
- Another possible method for anchorless bristle application is the manufacture, in particular injection molding, of a brush head with through-holes for bristles. Bristles can then be passed through the through holes and fused on a rear side, in particular with one another and / or with the brush head. Preferably, the fused areas and / or the brush head are then overmolded, in particular with at least one soft component.
- an AMR method which in particular does not allow bundles of bristles to be brought together
- an AMR + method which in particular enables bristles to be brought together, comes into consideration.
- a brush head with blind holes for example by means of injection molding, and / or to manufacture it by means of drilling the blind holes.
- bristles are put together in bundles and fused and / or otherwise connected at one end.
- the brush head is then heated, in particular to a glass temperature of its material.
- bundles of bristles can advantageously be introduced into the blind holes and anchored to the brush head by means of pressure.
- the heated ones are deformed here Blind holes so that the bundles of bristles are anchored in the same.
- a known PTt method is suitable here, for example.
- injection-molded bristles are also conceivable. These can, in particular, be manufactured together with the application unit, the handle unit and / or the fastening unit during a multi-component injection molding process, or they can be injection-molded onto a base body of the application unit at a later date.
- the injected bristles are not to be confused with the conventionally extruded bristles, although these have similar dimensions. Due to the necessary demolding in the injection molding tool, the injected bristles have an essentially conical basic shape.
- filament is fed from a roll, with in particular several filament strands being wound on a roll.
- Several rollers are pre-tensioned for feeding the machine, because each filament in the brush corresponds to a strand of filament.
- the filaments are spread out correctly in width so that they have the width in which they are inserted into the brush.
- the filaments are pulled forward so that they are then free for the next step, ie that a wire can be passed over them.
- a wire is fed to the machine from a roll, ie it is unwound and introduced into the process.
- the wire is cut to a length which is greater than the unwound length of the screwed-in brush; the final cutting to length takes place after it has been screwed in.
- the wire is bent into a U so that the open side can then be pushed over the filaments to thread the bristles.
- the wire is held at the bottom of the U.
- the open end of the wire is then clamped so that the filaments are held between the pieces of wire.
- the filaments are cut to a length which is greater than the final length in the brush, so that the brush can then be cut correctly when the filaments are twisted.
- the wire is rotated so that the filaments are clamped between the wire and thus fixed. After the filaments are fixed in the wire, they are cut to the correct length and profiled.
- materials of injected bristles preferably do not enter into a material bond and / or material bond with other soft components and / or hard components of the hygiene product.
- Injected bristles are preferably connected by means of a form fit, for example by means of at least one undercut and / or at least one opening and / or by means of at least one at least partial overmolding with soft components and / or hard components, with a shrinkage connection and / or a shrink connection being particularly conceivable.
- a connection by means of at least one material connection and / or material connection is also conceivable.
- One, two and / or multi-component injection molding is basically conceivable for all of the possible injection molding processes mentioned.
- the materials used in particular different soft components and / or hard components, can, as mentioned, be and / or be connected in a materially and / or form-fitting manner. Forming articulated or movable or flexible connections by means of suitable injection molding steps is also conceivable.
- hot runner processes, cold runner processes and / or co-injection processes for example, are fundamentally possible.
- the application unit can also have at least one tongue cleaner and / or at least one alternative cleaning and / or massage element.
- These can each be formed from a soft component, from a hard component or from a combination of soft and hard components and / or advantageously manufactured and / or manufactured by means of injection molding.
- the cleaning and / or massage elements are manufactured using an injection molding process. However, they differ from the injected bristles in the significantly lower Shore hardness of the component or material used. Furthermore, cleaning and / or massage elements are significantly more voluminous than sprayed bristles.
- Injection-molded bristles are preferably made at least partially and advantageously completely from a thermoplastic polyurethane elastomer (TPE-U).
- TPE-U thermoplastic polyurethane elastomer
- TPE-E thermoplastic polyester elastomers
- TPE-A thermoplastic polyamide elastomers
- PE polyethylene
- LLDPE linear low density polyethylene
- Materials for sprayed bristles advantageously have a Shore D hardness of at least 0 and particularly advantageously of at least 30 and / or of at most 100 and advantageously of at most 80.
- a Shore hardness of a material of injected bristles is advantageously higher than a Shore hardness of other soft components used, for example for grip elements, massage elements, further cleaning elements or the like.
- the materials used to manufacture injected bristles can be sustainable materials.
- water-soluble polymers are also conceivable, for example for hard components, soft components, injected bristles or other elements of the hygiene product.
- bioplastics can be used for the hard component and / or the soft component and / or the material for injected bristles and / or for the foamed material, which can in particular be obtained from renewable raw materials, be biodegradable, in particular compostable, and / or made from can consist of a recycled and / or recyclable material.
- the material is preferably formed in particular from a plastic.
- the biodegradable, in particular compostable, and / or recycled and / or recyclable material is preferably formed from a bioplastic, in particular from a plastic based on renewable raw materials and / or from a biodegradable plastic.
- the material can therefore in particular be fossil-based and biodegradable, such as PVOH, PCL, PBAT, PET or PBS, based on renewable raw materials and biodegradable, such as PLA, PHA, cellophane or starch blends, or based on renewable raw materials and are not biodegradable, such as Ca, Bio-PE, Bio-PP, Bio-PA, Bio-PET.
- biodegradable such as PVOH, PCL, PBAT, PET or PBS
- biodegradable such as PLA, PHA, cellophane or starch blends
- bioplastics that appear sensible to a person skilled in the art are conceivable, such as starch-based bioplastics, cellulose-based bioplastics, polyhydroxy-alkanoates, such as in particular polyhydroxybutyric acid (PHB), polylactic acid (PLA), aliphatic and / or aromatic copolyesters, or other bioplastics such as lignin-based bioplastics.
- PHB polyhydroxybutyric acid
- PLA polylactic acid
- aliphatic and / or aromatic copolyesters or other bioplastics such as lignin-based bioplastics.
- the hard component and / or the soft component and / or the material for injected bristles and / or for the foamed material consists in particular of a bioplastic, which in particular can be obtained from renewable raw materials.
- a “volume body” is to be understood as meaning, in particular, a body which partially forms the hygiene means and which in particular consists of a solid material.
- the volume body preferably forms a voluminous structure of the hygiene product.
- the volume body preferably consists largely, in particular completely, of a foamed material.
- a “base body” is to be understood as meaning, in particular, a body which partially forms the hygiene means and which in particular consists of a solid material.
- the base body preferably forms a support structure or the backbone of the hygiene product.
- the volume body preferably consists to a large extent, in particular completely, of at least one hard component.
- the at least one volume body is molded onto the at least one base body is to be understood in particular as meaning that at least part of a shape of the volume body takes place directly on the base body.
- the volume body is produced directly, in particular during production, on the, in particular around the, base body.
- the volume body can be subsequently deformed, in particular compressed, on the base body to form a form fit for a connection to the base body.
- the volume body preferably forms a form fit and / or material fit with the base body directly during production.
- the volume body is non-destructively and inseparably connected to the base body.
- the volume body can alternatively also be connected to the base body in a form-fitting or force-fitting manner, for example by means of assembly. It is further proposed that the at least one volume body at least partially surrounds the at least one base body.
- the at least one volume body preferably encloses the at least one base body at least partially in a region of the handle unit.
- “at least partially enclose” is to be understood as meaning that the base body in at least one plane, starting from a geometric center point of the base body in the plane, in an angular range of at least 180 °, preferably at least 270 ° and particularly preferably at least approximately 360 ° is surrounded by the solid.
- the volume body preferably completely encloses the base body in at least one plane.
- the solid can be gripped.
- an advantageous shaping of the volume body and thus of the hygiene agent can be achieved.
- the weight of the hygienic agent can be kept low, in particular without impairing the ergonomics of the hygienic agent, in particular its ability to be grasped.
- a good connection between the volume body and the base body is achieved, which benefits the longevity of the hygiene product.
- the volume body can be configured in several parts (for example from 2, 3, 4 or 5 parts) and when connected to the base body, it at least partially enclose it. When connecting individual solid parts, the base body can be fixed in the assembled solid. Different parts of the base body can form cavities in the assembled state.
- the volume body can be arranged in individual partial areas or a combination of partial areas such as the grip area, the neck area and / or the head area. For example in the grip area and in the neck area, in the neck area and in the head area, in the grip area and in the head area.
- the volume body can also be arranged in all partial areas, that is to say the grip area, the neck area and the head area of the hygiene product. This results in a completely foamed product in particular.
- a surface of the foamed volume body is particularly dependent on a manufacturing process. Furthermore, the surface can be changed with the process.
- a flat surface is formed without special structures. If the structure of the tool is too fine, in particular due to eroded surfaces, it may not be effective for coarse grains due to the grain size of the foam. Etched or polished surfaces in the tool are also conceivable. Alternatively, a combined surface can also be created in the tool, such as, for example, eroded and etched surfaces. For example, polished edges and rough surfaces can be provided. Furthermore, structures can also be provided on a surface of the solid.
- the structures or shapes protruding from the surface of 0.1 mm to 2 mm, preferably from 0.5 mm to 1.5 mm, and / or shapes sunk from the surface of 0.1 mm to 2 mm, preferably from 0.5 mm to 1.5 mm, conceivable.
- the structures or shapes in particular have a fundamentally closed contour. In particular, it should be avoided that the individual foamed grains are visible on the surface.
- the structured surface additionally reduces the water absorption of the volume. The structured surface allows better and safer handling of the hygiene product even when used with water.
- cross-sectional shapes of the structures that appear sensible to a person skilled in the art are conceivable, such as, for example, circular, oval, circular segment-shaped, n-angular, square, rectangular, diamond-shaped, rhombus-shaped and / or parallelogram-shaped.
- patterns of shapes can be created on the surface of the solid.
- a one-time arrangement or a repetitive multiple arrangement of the patterns are conceivable.
- a partial arrangement of structures on the solid is conceivable.
- the structure can in particular be provided at one point or at several points.
- the structure can be provided on one side, on two sides or around the body. A surface of the injection molded parts, in particular of the base body, is possible in particular in accordance with the current standard.
- the solid can have a different roughness of the structure in different places.
- partial areas with an essentially smooth surface can also be provided.
- the hygiene means has in particular a voluminous handle.
- the handle unit preferably consists at least partially of the volume body. In this way, in particular, the same or lower weight can be achieved than with the exclusive use of hard or soft components with the same size. Furthermore, there is less problem with sink marks than with injection-molded parts with large volumes.
- the volume body in particular has a volume of 10 cm 3 to 70 cm 3 , preferably 15 cm 3 to 50 cm 3 .
- the foamed volume body preferably forms 60% to 90%, preferably 70% to 85%, of a total volume. The foamed volume body results in a weight saving in particular.
- the hygiene agent preferably has a weight of 3.5 g to 12 g, preferably 6 g to 10 g.
- a proportion of the foamed part of the total weight is in particular from 5% to 50%, preferably from 15% to 25%.
- a maximum circumference (around the longitudinal axis) of the handle unit in the case of a purely foamed handle is in particular from 5 cm to 12 cm, preferably from 7 cm to 10 cm.
- the position of the center of gravity of the hygiene product, measured from the rear end, is in particular at a value from 100 mm to 170 mm, preferably from 120 mm to 150 mm.
- the center of gravity of the hygiene product, measured from the rear end is in particular at a value of 50% to 80%, preferably 60% to 75% of the total length. The changed position of the center of gravity allows a completely different dynamic when using the hygiene product and is perceived as particularly pleasant by the majority of the test persons.
- a material thickness of the base body in the area in which foamed parts are mounted is in particular from 3 mm to 10 mm, preferably 3.5 mm to 7 mm, so that sufficient stability is achieved together with the foamed part.
- a layer thickness of the foamed volume body is in particular from 3 mm to 30 mm, preferably from 3 mm to 20 mm. The minimum layer thickness of the foamed The volume depends in particular on the granulate used for it. Large wall thicknesses, on the other hand, are not critical.
- the injection-molded base body can have various cross-sectional shapes that appear sensible to a person skilled in the art, such as, for example, H-shaped, rectangular, U-shaped, cross-shaped and / or star-shaped, each with angular or rounded edges.
- the cross-section is particularly preferably formed essentially in the longitudinal direction.
- the cross-section can only be used in partial areas of the body.
- the base body preferably has symmetrical shapes with respect to the longitudinal axis.
- the shape of the base body can in particular be combined with contours for a force fit and / or form fit with the volume body, in particular form fit elements such as a protruding disc, extension, recess, opening or the like. Process-specific elements can also be used for functions on the product.
- holding structures are formed by steam outlets, for example during the sprue, or steam outlet.
- steam escapes can form surface structures.
- the surface structures can, for example, be arranged in a targeted manner as a thumb grip.
- steam outlet valves are modified so that the shapes can also offer the necessary function.
- the base body is preferably shaped in such a way that the foamed volume body can be separated therefrom, for example for professional disposal. Separation can take place, for example, by cutting or tearing / peeling off. Predetermined breaking points can be provided for separation. These can be broken manually or with simple tools available at home. If the solid consists of several parts, it can preferably be separated again into these parts.
- the at least one base body has at least one form-fit element which forms a force-fit and / or form-fit connection with the at least one volume body.
- a “form-fit element” should be understood to mean, in particular, an element of the base body which is provided to protrude into the volume body or to form a recess for the volume body to penetrate.
- the form-fit element preferably forms an extension and / or a recess which / which is essentially perpendicular to a main direction of extent of the hygiene product extends and is provided for a form-fitting fixation of the volume body parallel to a main direction of extent of the hygiene product.
- Form-fitting is to be understood in particular to mean that surfaces of components connected to one another in a form-fitting manner exert a holding force acting on one another in the normal direction of the surfaces.
- the components are in geometric engagement with one another.
- the form-fit element can in particular be designed as an extension, such as a pin, a web and / or a disk, as a taper and / or as an opening.
- an advantageously stable connection between the base body and the volume body can be implemented in particular. Forces which act via the intended use of the hygiene product are thereby transferred from the base body to the volume body without the base body and the volume body separating.
- a material bond can be dispensed with. This enables separate disposal in particular.
- an advantageously stable hygienic means can be provided in particular.
- this avoids the fact that the forces during the intended use (e.g. when brushing teeth and the resulting pressure on the brush head) of the hygiene agent create a play between the base body and the volume body or that this play can at least be kept smaller than if no form-fitting elements are used would.
- Form-fit elements naturally make sense in particular when no material connection and / or material connection is provided between the base body and the volume body.
- the handle unit has at least one cage element which at least partially engages around the at least one volume body.
- the at least one volume body preferably at least partially forms a form fit with the cage element.
- the volume body is produced in the cage element.
- the cage element particularly preferably cuts at least partially into the volume body.
- the cage element can also lie completely in the solid and not protrude from it. In this case, at least the application unit formed in one piece with the cage element emerges from the solid.
- a “cage element” is to be understood as meaning, in particular, an element which at least partially encloses the volume body.
- the cage element preferably extends over a substantial part of a main extent and / or transverse extent of the volume body, the Cage element in particular covers less than 50%, preferably less than 30% and particularly preferably less than 15% of an outer surface of the volume body.
- the cage element preferably forms a lattice structure which extends at least partially around the volume body.
- a “transverse extension” is to be understood in particular as an extension of a component which extends parallel to a width of the hygiene product and perpendicular to the main direction of extent of the hygiene product.
- a “main extension” is to be understood as meaning, in particular, an extension of a component along the main extension direction.
- an “essential part” should be understood to mean in particular at least 30%, preferably at least 50% and particularly preferably at least 70% of a whole.
- an advantageously stable arrangement of the volume body can be implemented.
- the volume body can particularly advantageously be protected.
- dimensional stability of the solid can be guaranteed.
- an advantageously stable hygienic means can be provided in particular.
- the at least one cage element is directly and firmly connected to the at least one base body.
- the cage element is preferably made in particular from the same material as the base body.
- the cage element is preferably designed in one piece with the base body.
- the base body and the cage element are in particular made from one casting. “In one piece” is to be understood in particular to be at least cohesively connected, for example by a welding process, an adhesive process, an injection molding process and / or another process that appears sensible to the person skilled in the art, and / or advantageously formed in one piece, such as by a Production from a single casting and / or by production using a single or multi-component injection molding process and advantageously from a single blank.
- the hygiene means have at least one enveloping body which at least partially encloses the at least one volume body and which is connected to the at least one volume body in a non-positive and / or cohesive manner.
- the enveloping body is preferably cohesively connected to the volume body.
- the enveloping body preferably enters into a material connection with the volume body and / or the base body during manufacture.
- “Cohesively connected” is to be understood in particular to mean that the mass parts are held together by atomic or molecular forces, such as, for example, during soldering, welding, gluing and / or vulcanizing. In this way, in particular, an advantageous outer surface of the hygiene product can be provided. Furthermore, in spite of the volume body, an advantageously uniform surface of the hygiene product can be created.
- the at least one enveloping body consists at least partially of a soft component.
- the enveloping body preferably consists entirely of a soft component.
- an advantageous outer surface of the hygiene product can be provided.
- an advantageously uniform surface of the hygiene product can be created.
- an advantageous slip resistance of the hygiene agent can be created. This makes it possible to provide an advantageous graspability. A high level of ergonomics can be provided.
- the at least one base body consists at least partially of a hard component.
- the base body preferably consists entirely of a hard component.
- the hygiene means have at least one enveloping body which at least partially penetrates the at least one volume body and is connected to the at least one volume body and / or base body in a force-locking and / or material-locking manner.
- the enveloping body cannot enter into a material bond with the volume body, but it can with the base body.
- the volume body preferably has at least one recess and / or at least one gap in which the enveloping body is arranged.
- the enveloping body can extend through the volume body up to the base body.
- a “penetrating enveloping body” is to be understood as meaning, in particular, an enveloping body which is delimited by the volume body in at least one plane in at least two opposite directions.
- the enveloping body is preferably introduced directly into a recess and / or a gap in the volume body during manufacture, the enveloping body being in particular delimited directly by the volume body after manufacture.
- gripping surfaces that are pleasant to the touch can be provided on the hygiene means, in particular advantageously.
- different surfaces and / or strengths and / or Shore hardnesses of the hygiene agent can be provided. In this way, in particular, advantageously high ergonomics can be provided.
- the base body and the volume body be manufactured in particular independently of one another and that the two bodies be subsequently assembled.
- the interface area between the base body and the volume body is shaped, in particular in one embodiment, as a cylindrical blind hole in the volume body and as a barb structure in the base body.
- the base body with the barb structure is pressed into the blind hole of the volume body.
- the stop body on the base body ensures that the base body is not pressed too hard into the blind hole during assembly. This also prevents the base body from being pressed too far into the blind hole during use. Due to the barb structure, the base body is anchored in the blind hole and can only be removed again in a destructible manner, ie the structure is torn and further assembly can no longer take place.
- the barb structure can in principle be designed differently.
- a symmetrical structure is preferably formed which is formed completely around a part of the base body which is inserted into the blind hole.
- the barb structure can be formed over the entire part of the base body which is inserted into the solid body, or only over a part thereof.
- the structure can also be formed in a plurality of subregions of the introduced geometry that are spaced apart from one another.
- a geometry can be introduced over the entire area or over one or more sub-areas thereof which clearly defines the alignment of the main body with respect to the volume body.
- the geometry can continue over the barb structure or it can be implemented in several parts.
- the geometry can be formed, for example, in a combination of ridge and groove.
- the stop body is designed in such a way that it has a larger diameter than the blind hole so that it cannot be inserted into the blind hole.
- the stop body can be arranged completely around the base body or its part that is inserted into the blind hole, or it can only occupy partial areas. If the stop body is formed only in partial areas, the partial areas are preferably arranged symmetrically or regularly around the longitudinal axis of the body to be inserted. For example, segments of a circle are formed.
- the design of the interaction between the base body or its stop body can take place in different ways.
- the stop body can, as it were, lie on top of the volume body, so that only the side of the stop body which faces it directly rests on the volume body.
- the volume body can be provided with recesses which receive the stop body. As a result, the stop body can be sunk into the recess to such an extent that only one of its sides forms part of the surface of the final product and the remaining side surfaces are accommodated in the recesses.
- glue can be used to connect the base body in the blind hole of the volume body.
- the adhesive is accordingly between the blind hole or its walls in the solid and Basic body applied. Welding (including ultrasonic welding), for example, can also be used as a support at these points.
- the solid can consist of several parts.
- a base body is manufactured in an injection molding process and the foamed volume body, for example consisting of two parts, is mounted on the base body.
- the base body forms at least the head area and the neck area of a toothbrush, and it continues to form the handle unit. It can develop over the entire length of the toothbrush or only over part of the length.
- the base body is preferably formed from at least one hard component and can contain further hard and / or soft components.
- the multi-part solid consists of a foamed material.
- the base body preferably forms the final shape of the product in the neck and head area or it forms the body to such an extent that the bristling can take place without further processing / assembly of foamed elements.
- the base body preferably already has the final shape when it has been completed in the injection molding process.
- the various parts of the solid form the handle unit when they are mounted on the base body.
- the volume bodies form the essential part of the surface of the handle unit, while the base body forms little or no surface components, depending on the configuration.
- the proportion of the base body on the surface of the finished product is between 0% and 40%, preferably 0% to 20%.
- the base body can form an at least partially circumferential strip in the finished grip area.
- the strip can be formed around an axis lying essentially 90 ° to the longitudinal axis or also essentially around the longitudinal axis. In principle, however, other angles of the arrangement of the strip are also possible, always under the condition that the base body can be manufactured using the injection molding process, the various volume bodies can be manufactured and the base body can be assembled with the volume bodies.
- the strip can be designed to be uninterrupted or interrupted. Depending on the characteristics of the stripe, it may be possible to increase the number of parts of the solid in order to make the assembly of the base body with the solid possible.
- the parts of the solid can be designed differently.
- a thumb grip can be formed on a part facing the front side, while the volume body facing the rear side forms more of an ergonomic overall shape of the grip area.
- the thumb grip can be designed in the form of a depression or depression or simply have a different surface quality or a surface structure.
- the solid bodies can also be formed from different materials and / or in different colors, among other things.
- the solid bodies are mounted on the base body.
- the base body can be completely or partially enclosed in the grip area. If it is only partially enclosed, then certain surface parts are preferably formed by the base body. If the base body is completely enclosed, it is not visible in the grip area within the volume body.
- the base body and / or parts of the volume body are fixed to one another by means of a force fit and / or form fit.
- Fixing means such as platforms and grooves on the solid bodies are brought together with recesses and ridges in the base body. Pedestals and recesses form pairs, and grooves and ridges also form pairs.
- Parts of the volume body and / or the base body can form cavities with one another in the assembled state.
- the base body is provided with connecting means, for example with recesses, and means that secure against rotation, such as for example combs.
- the combs serve to better stabilize the volume body against rotation with respect to the base body. In this way, they absorb torsional forces and also serve to make the base body more stable.
- the recesses are preferably designed as through holes. They are arranged on both sides of the longitudinal axis of the base body. The number depends on the length of the solid to be fastened, there are between 3 and 12, preferably between 4 and 10 recesses formed on each side of the longitudinal axis. The length and width of the recesses can be identical or vary over the entire body.
- the recesses have a width of 3 mm to 8 mm, preferably from 4.5 mm to 6.5 mm.
- the length is between 4 mm and 12 mm, preferably 6 mm to 9.5 mm.
- the through holes have wall geometries that are matched to the insertion of the platforms of the solid. They are each carried out identically in the direction of insertion. Seen in the direction of insertion, an insertion bevel is designed which is at an angle to the normal of 5 ° to 20 °, preferably 8 ° to 15 °. This is followed by a part that is at a smaller angle to the longitudinal axis, the angle da is between 1 ° and 10 °, preferably from 2 ° to 6 °. This is followed by a part that opens again and is thus directed away from the normal, the angle to the normal is between 15 ° and 35 °, preferably between 20 ° and 30 °.
- the combs can be arranged lengthways and / or transversely.
- the shape of the combs is rectangular in cross-section, so that the forces are best absorbed.
- the longitudinal combs are on the front and on the back in identical levels.
- the combs have a width of 0.8 mm to 2.5 mm, preferably from 1 mm to 1.8 mm.
- the height of the combs varies and can be between 1 mm and 8 mm, preferably 2 mm to 6.5 mm.
- the dimensions of the platforms correspond to the dimensions of the recesses with a surcharge. So that a force fit and / or form fit can be achieved, the addition or the oversize is between 0.05 mm and 1 mm, preferably between 0.1 mm and 0.5 mm.
- the height of the pedestal is between 1.5 mm and 4 mm, preferably between 2 mm and 3 mm.
- the platforms on the solid bodies are designed in such a way that they each omit one position compared to the base body. This means that the platforms of the solid bodies alternate in the longitudinal direction. Thus, in the base body, the platforms alternate in the assembled state. For example, with one solid on the front and one on the back, the platforms are designed alternately so that the platforms on the front and the platforms on the rear alternately penetrate the base body.
- the recesses in the base body accommodate the platforms of the solid bodies and thus fix the bodies to one another.
- the platforms and recesses are matched to one another in such a way that a force-fit and / or form-fit connection between the two is created. Due to the fundamentally symmetrical design, the cross-sections (perpendicular to the longitudinal axis) each have pedestals of both solid bodies. These are located next to each other, separated by the comb.
- the handle units in the assembled state can also have cavities which are formed by the shell-like volume bodies.
- the base body can also be designed to be flat and not have any continuous recesses. It can have reinforcing ribs that give it the necessary stability.
- the reinforcement ribs can be designed analogously to the combs mentioned above (including shape and dimensions).
- connecting means can be provided which enable the solid bodies to be assembled.
- the connecting means can be designed as independent elements or, for example, also in connection with the reinforcing ribs.
- the connecting means can be shaped, for example, as an interplay of several reinforcing ribs which, for example, clamp between them the volume body or a protruding or exposed element thereof (for example a comb).
- the reinforcing ribs on the sides on which the volume body is to be held can be provided with an insertion bevel.
- the lead-in bevels Due to the interaction of two reinforcing ribs, the lead-in bevels are directed towards one another. This allows the solid to be inserted well.
- the lead-in bevels run towards one another in the lead-in direction and form a minimum distance between one another at a culmination point, after which the distance between the reinforcing ribs widens again. In this way, the volume body is held by the undercut that forms after the culmination point.
- connecting means can also be hollow cylindrical elements on the base body, which interact with corresponding elements (pins) on the volume body. These are inserted into one another and can thus be fixed to one another. Additional or different latching means / connecting means can be implemented here.
- the volume body can also be glued to the volume body which is at least partially flat.
- Another possible flat design of the base body provides that it forms a half-shell-like structure in the grip area. This can for example be arranged in the final product on the front or the back.
- the half-shell-like structure forms a type of recess into which the solid can be mounted.
- the base body as well as the volume body form relevant parts of the surface of the final product.
- a base body produced using the multi-component method can have elements made of a soft component that improve the feel / ergonomics.
- a thumb grip can be formed with a soft component if the flat base body forms the front side in the final product.
- a cavity is created between the flat base body and the volume body in the final product.
- the volume body is connected to the base body at the edge areas, so that a cavity is formed in the interior between the two.
- the cavity is preferably closed and has no opening to the outside. So that the cavity is tight, the base body and the volume body can be glued to one another.
- the application unit is at least partially formed by the volume body, which is compressed at least in sections, in particular subsequently, in an area of the application unit.
- a foamed material of the volume body is preferably compressed at least in sections after the volume body has been produced.
- a density of the volume body is increased at least in sections.
- a gas stored in the foamed material is displaced or released, for example in the form of air.
- densified zones can have different physical and mechanical properties than other zones of the solid. In this way, for example, a reliable fixation of cleaning agents, such as in particular bristles, can be achieved.
- the handle unit is at least partially formed by the volume body, which is compressed at least in sections, in particular subsequently, in a region of the handle unit.
- a foamed material of the volume body is preferably compressed at least in sections in a region of the handle unit after the volume body has been produced.
- a subsequent contouring of the handle unit can be achieved.
- complex shapes can be produced which, for example, cannot be realized in the production of the foamed material. It can also be used to change the surface structure or quality.
- the hygiene means have at least one bristle plate which is inserted into a recess in the application unit.
- the bristle plate is in particular covered with bristles and / or alternative cleaning elements (e.g. injected bristles and / or massage and cleaning elements made of soft material).
- bristle plates with through holes or blind holes are first produced, in particular by means of injection molding, through or into which bristles and / or alternative cleaning elements are then passed.
- the bristles are then preferably connected to the plate using the methods described, such as AFT, PTT or anchor punching.
- the application unit is preferably designed to be compacted in a region of the recess.
- the application unit preferably consists at least partially of the foamed material in a region of the recess.
- the hygiene means have a bundle of bristles which is connected to the application unit by means of punching.
- the bristle bundles are preferably processed by means of at least one anchor punching process or the like, in particular attached to the application unit.
- a bristle carrier of the application unit preferably has a plurality of, in particular drilled and / or shaped in a casting process and / or a particle foam process, Bristle receptacles, in particular holes for bundles of bristles.
- a base body preferably the brush head
- a base body is first manufactured by means of a casting process and / or a particle foam process, with blind holes for bundles of bristles advantageously being formed in the casting process and / or the particle foam process.
- blind holes for bundles of bristles advantageously being formed in the casting process and / or the particle foam process.
- a subsequent drilling of blind holes is of course also conceivable.
- bristles or bristle bundles are then folded and fastened in each case in a blind hole by means of at least one anchor, in particular by means of punching.
- Loop punching is also conceivable.
- an advantageously simple and reliable fastening of bundles of bristles can thereby be achieved.
- an advantageously stable and reliable hygiene means can be provided.
- the invention is also based on a method for producing the hygiene product. It is proposed in particular that in at least one method step the volume body is molded directly onto the base body by means of a foam method, in particular by means of a particle foam method. At least part of a shaping of the volume body is preferably carried out directly on the base body.
- the base body preferably delimits, in particular, a shaping cavity of a shaping tool for the volume body.
- the volume body is particularly preferably produced at least partially around the base body.
- the volume body is produced directly, in particular during production, on the, in particular around the, base body.
- the volume body preferably forms a form fit and / or material fit with the base body directly during production.
- the particle foam process in particular also known as particle foaming or the Styrofoam process, forms, in particular, physical foaming in which the material is foamed by a physical process.
- expandable plastic such as polystyrene (PS) in the form of expanded polystyrene (EPS) or polypropylene (PP) in the form of expanded polypropylene (EPP)
- PS polystyrene
- EPS expanded polystyrene
- PP polypropylene
- EPP expanded polypropylene
- a first step of the particle foam process in particular the raw material in the form of pearls and / or spheres is placed in a mold and the cavity is filled. Subsequently, water vapor is injected under pressure and at high temperature through various small openings in the tool or in the cavity.
- the granulate in particular in a first process step, is provided in a pressure loading container and / or pressure filling device.
- a foaming mold is then closed in a second process step or in parallel.
- the foaming mold defines, in particular, a shape of the solid in the form of a cavity.
- the foaming mold is filled from the pressure loading container and / or pressure filling device.
- the pressure during the introduction of the material is in particular from 0.5 bar to 3 bar, preferably from 1 bar to 2 bar.
- the foam mold is vented, if necessary, in particular by means of a vacuum.
- the contents of the foaming mold are then in particular steamed in a further process step.
- a steam pressure is in particular up to 40 bar, preferably up to 25 bar and particularly preferably below 5 bar.
- the vapor pressure and the vapor temperature are particularly related, since higher temperatures bring higher pressures.
- the steam temperature is in particular up to 250.degree. C., preferably up to 170.degree. C. and particularly preferably up to 150.degree.
- the steam temperature is also in particular at least 80 ° C.
- the duration of the vapor deposition is in particular from 20 s to 50 s, preferably from 25 s to 40 s, in particular the granulate or the beads are welded together.
- Material expansion is in particular 20 to 100 times, preferably 40 to 80 times, the original volume.
- this can be supported in particular with a vacuum so that steam can penetrate better.
- the latest foams can also be produced without steam.
- the basis for this is in particular an RF technology in which the foaming takes place with energy in the form of electromagnetic waves.
- the welding takes place in particular from the inside of the foamed solid to the outside, which results in better product quality.
- a corresponding RF technology is more energy-efficient and less process-intensive.
- the foam mold is then cooled so that the granulate is stabilized and / or fixed.
- the cooling takes place in particular via a cavity system with water (sprayed water) via the same channels as the steam is introduced.
- the foam mold is then opened in a further process step.
- the cycle times of the foaming process are in particular from 60 s to 200 s, preferably from 80 s to 120 s.
- the particle foam process has a minimum wall thickness of the solid.
- the minimum wall thickness is in particular 3 mm.
- the volume body is temporarily stored after production, so that, for example, the residues of the propellant, in particular the pentane, can escape.
- the material is pre-expanded. In particular, the raw material can be produced separately in the form of pearls and / or spheres.
- the expandable plastic is produced for this purpose with the addition of blowing agents, such as, for example, hydrocarbons and / or penthane, by suspension (bead) polymerization.
- the granulate size can in particular be between 0.2 mm and 0.3 mm.
- the expandable plastic is pre-expanded with the aid of steam, in particular at temperatures from 80 ° C. to 110 ° C., in particular up to 80 times its volume.
- discontinuously or continuously working prefoamers are used for this purpose.
- the water vapor diffusing into the cell walls supports the foaming process. In this way, in particular, a hygiene agent with advantageous properties with regard to the ergonomics of the hygiene agent can be produced.
- an advantageous gripping ability and a pleasant feel and improved slip resistance of the handle unit can be achieved.
- the weight of the hygienic agent can be kept low, in particular without impairing the ergonomics of the hygienic agent, in particular its ability to be grasped.
- the use of material for the hygiene agent can be kept low. In this way, in particular, an advantageously ecological hygiene means can be provided, although an ergonomic and pleasant handle unit does not have to be dispensed with.
- the shaping tool for the solid is preferably formed by at least one foaming tool mold.
- the foaming tool mold has in particular at least one injection point or inlet.
- the injection point is preferably central on the axis of symmetry.
- the injection point is arranged between the steam inlets and outlets.
- the injection point is preferably concealed or placed in such a way that it does not interfere, in particular, for example, on the longitudinal axis in the center at a rear end.
- structures can be implemented in the form of the foaming tool.
- the temperature of the foaming tool mold is partially different.
- different meat zones and / or different cooling zones can be implemented.
- the surface temperatures in the tool preferably correspond to the steam temperature.
- the foaming tool mold in particular is also cooled.
- the arrangement of the steam entry and exit points must be taken into account in the foaming tool mold. The arrangement plays a particularly decisive role for the surface quality and component properties of the solid. Defects that arise can in particular be air inclusions or incorrect sintering.
- steam entry and steam exit can be seen on the end product, in particular in the form of valve-like inserts.
- the steam inlet as well as the steam outlet points are preferably not visible from the outside in the later solid, therefore the steam outlet points are preferably arranged in non-functional areas.
- the steam outlet points are preferably attached to the underside of the solid.
- the softness of the material of the solid also enables relatively large undercuts compared to the injection molding process.
- the foaming tool mold is preferably made of metal.
- foaming processes that appear sensible to a person skilled in the art are also conceivable.
- Alternative foaming processes are, for example, chemical foaming.
- chemical foaming blowing agents in the form of powder or granules are added to the plastic. This chemical additive decomposes with the release of a gas, in particular mostly carbon dioxide, during the plasticization of the plastic as the temperature rises.
- a gas in particular mostly carbon dioxide
- the gas in the melt goes into solution while maintaining a minimum pressure.
- the rest of the process corresponds to that of physical foaming.
- the advantage of this process is that no special system technology is required.
- Alternative foaming processes are also, for example, mechanical foaming.
- the at least one enveloping body and / or the at least one base body is molded onto the volume body by means of an injection molding process.
- Particle foam composite injection molding is a technology in which a foamed molded part is permanently bonded to plastic during injection molding.
- the volume body is preferably made, for example, from an expanded polypropylene (EPP).
- EPP expanded polypropylene
- the injection molding tool is then closed, in particular, and a plastic component of the enveloping body and / or the base body is injected onto the volume body. Since injection molding has a higher melting temperature and / or the melt has a higher temperature than the melting temperature of the foamed volume, a cohesive, solid mechanical connection occurs through a defined melting of the foamed volume.
- the at least one enveloping body and / or the at least one base body is preferably connected to the volume body in a materially bonded manner. Positive connections can also be formed.
- the foamed solid can be overmolded with a soft component.
- the positive properties of the particle foams can be combined with the positive properties of the thermoplastics, so that a functional lightweight component is created in particular.
- various process options and / or combinations are conceivable.
- foaming over an existing part is conceivable.
- a foamed part can be foamed over.
- different foam components such as hard and soft foam components and / or such as, for example, foam components with different bases (based on plastic components, for example EPS with EPP).
- the two foam components can in particular enter into different connections, such as in particular a material connection or preferably a force and / or form connection.
- an injection-molded part is foamed over.
- an injection-molded part is created, which is then foamed over.
- the injection molded part can be a base body.
- the connection options between different parts are particularly dependent on the combination of materials.
- chemical (material connection / material connection) and / or mechanical (force connection / form connection) connections of the parts can be realized.
- an advantageous, in particular hygienic, outer surface of the hygiene agent can be provided.
- an advantageously uniform surface of the hygiene product can be created.
- an advantageous slip resistance of the hygiene agent can be created. This makes it possible to provide an advantageous graspability.
- a high level of ergonomics can be provided.
- the volume body can be produced by means of foaming.
- the volume body can be designed in several parts.
- the foamed volume body can then be inserted into an injection molding tool and the foamed volume body can be overmolded with a hard component, in particular the base body.
- the hard component, in particular the base body can optionally be encapsulated with a soft component, in particular the enveloping body and / or a material component for injection-molded bristles and / or the foamed component with soft components.
- the volume body can be produced by means of foaming.
- the foamed volume body can then be inserted into an injection molding tool and the foamed volume body can be produced with a hard and / or soft component in a cavity. If the hard and soft components are processed, the corresponding volumes or zones of the hard and soft components are preferably separated, i.e. do not touch.
- the foamed volume body can be overmolded with material components for injection-molded bristles.
- the base body can be manufactured by means of injection molding.
- the base body can then be inserted into a foaming tool and the base body can be foamed with the foamed material for the volume body.
- the base body preferably has at least one partial geometry which, through good anchor and / or connection structures, prevents tearing and holds the parts together.
- An application example could, for example, have a toothbrush handle, in particular one as a base body (for example an injection-molded stem) a volume body foamed thereon and / or an injection-molded cage structure with a volume body foamed through or on.
- the base body can be manufactured by means of injection molding.
- a body made of a non-plastic e.g. mechanically processed body, body made of wood, metal or glass, etc.
- the base body can then optionally be encapsulated or assembled with a soft component, in particular the enveloping body.
- a thumb grip and / or a tongue cleaner can be formed by means of the soft component.
- the molded or assembled base body is then placed in a foaming tool and the base body is foamed with the foamed material for the volume body.
- the base body can be produced by means of injection molding.
- a body made of a non-plastic e.g. mechanically processed body, body made of wood, metal or glass, etc.
- the base body can then optionally be encapsulated or assembled with a soft component, in particular the enveloping body.
- a thumb grip and / or a tongue cleaner can be formed by means of the soft component.
- the foamed volume body can then be produced separately and mounted on the base body and / or at least partially around the base body.
- the volume body can be designed in several parts, i.e. from 2, 3, 4, 5, or several separately produced foamed parts of the volume body.
- the volume body can at least partially enclose the base body after assembly.
- the base body can be provided with a barb structure for fixing the volume body.
- the base body can be provided with a stop body.
- the volume body can be provided with a blind hole-like recess for receiving the base body.
- the base body can be provided with recesses and anti-twist means such as recesses and combs.
- the solid can be provided with recesses and platforms.
- the volume body can be produced by means of foaming.
- the solid can consist of one or more Foam components exist.
- the foamed solid is then optionally at least partially compressed.
- the volume body can be produced from a hard component by means of foaming.
- a further body, in particular made of a soft component, can then optionally be foamed onto the volume body.
- the foamed volume body can then be inserted into an injection molding tool and encapsulated with a hard component, in particular the base body.
- small parts can be foamed around in the method.
- this can be used in the foaming application variants.
- an insert can be foamed.
- the insert is placed in a foaming mold and the insert is foamed.
- Possibilities for a corresponding insert are, for example, transparent windows, thumb grip elements, plastic plates with or without cleaning elements, film hinges, application units with razor blades and / or functional parts with an interface or connection options to another part.
- an assembled part would also be conceivable. For this purpose, appropriate interface geometries would have to be created that allow assembly.
- Back-foaming in particular forms a further variant of the method.
- film and / or fabric can be back-foamed, in particular with the aim of achieving a smooth surface, in particular when using a film, or a fabric surface or a material or structured surface, in particular when using a fabric.
- back-foaming in particular only one side is foamed, while a second side is designed to be at least partially exposed.
- a special surface is formed on the film or also on the fabric, which makes adhesion possible.
- a polypropylene-backed film can be formed for adhesion with a polypropylene foam.
- the process parameters are preferably different from conventional injection molding parameters.
- the pressure conditions must be adapted to the component and the geometry of the volume body to be overmolded, so that destruction of the volume body by the pressure is prevented.
- the temperature conditions are in particular from 150 ° C to 250 ° C, preferably from 180 ° C to 230 ° C.
- the temperature ratios are in particular from 180.degree. C. to 290.degree. C., preferably from 210.degree. C. to 260.degree.
- a material selection and / or material parameter selection that flows well with little pressure and low temperatures is useful.
- the injection points, inlets, ventilation zones, steam entry / exit points of the previous manufacturing steps are preferably covered.
- injection points of an injection-molded part are covered by the subsequently foamed-over part.
- both the foamed part and the injection-molded part can be covered.
- the injection point and the injection direction must be selected so that the foamed part is not destroyed.
- the direction of injection must preferably not be directed towards the foamed material; if this is not possible, the distance to the impact must be maximized as far as possible so that the risk of damage is reduced.
- the injection point must preferably be determined as a function of the geometry of the solid and also checked with regard to the arrangement in the final product.
- connection options between the foamed parts in particular the solid body and the injection-molded parts, in particular the base body and / or the enveloping body.
- a material connection and / or material connection is conceivable.
- the prerequisite for a material connection and / or material connection are in particular compatible components, in particular a material with the same basis.
- Possible combinations of the foamed part and the injection molded part can be, for example, EPE and PE, EPP and PP, EPS and PS, EPS and SAN, EPS and ABS, EPET and PET.
- a material bond and / or material bond is possible in particular if the component processed downstream has a higher melting point than the component processed upstream. This is particularly the case with subsequent encapsulation.
- a connection can also be made by means of a force and / or form connection.
- an anchor structure consisting of a form fit element is preferably provided in the hard component, which enables a form fit connection.
- a force fit and / or form fit can take place, for example, by foaming around a structure with protruding elements, in particular also with undercuts.
- the protruding elements can for example be formed from ring-shaped elements on the part to be foamed, in particular the base body.
- the annular elements form a retaining element in the longitudinal direction.
- the annular elements can preferably run 360 ° around the longitudinal axis.
- the base body can thus in particular be completely foamed around 360 °, the ring-shaped element enabling fixation in the longitudinal direction.
- Further structures on the base body can form a fixation of the rotation.
- columnar protruding elements on the element to be foamed, in particular the base body are conceivable.
- a column made of soft component is injection-molded onto the base body made of injection-molded hard component and is intended to form the thumb grip.
- the form-fitting connection through the column is achieved by foaming around the base body.
- the implementation of a large number of pillars on the base body is also conceivable.
- a force fit and / or form fit can also be realized by foaming around form fit elements with recesses, around foam around form fit elements with openings, around foam around form fit elements with undercuts or foam around the inside.
- a mesh can be injected, with a foam being injected through a mesh into the cavity formed by the mesh.
- a cage can be arranged in foam.
- the cage can, as it were, rest on the foam and / or only are partially covered with foam.
- the failure of empty spaces in molded products is also conceivable.
- the mentioned form-fit elements are aligned so that they can absorb the forces that arise from the intended use of the hygiene product.
- the at least one volume body is compressed at least in sections after at least a first shaping process. Compaction takes place in particular after foaming.
- a first step therefore, the volume body or a plurality of foam components are foamed, and then the volume body is at least partially compressed.
- the aim of compression is, for example, to enable bristling, to create a stable structure at least in sections, to make the solid as a whole stable, to introduce a film hinge in the solid, to at least partially achieve a different surface structure, at least partially to create a flexible zone, at least to produce partially a different surface quality, at least partially a different one to create a haptic zone, at least partially to create another optical zone, to create characters (logo, code, etc.).
- the volume body is deformed under pressure and heat with the aid of a stamp corresponding to the compression, with a stamp surface preferably already containing part of an end geometry.
- a compression takes place in particular in two process steps.
- the product with the solid is placed in a negative mold.
- the shape of the product attached to it does not change.
- a stamp is then placed on the product and presses the product into position accordingly.
- the surface adjacent to the stamp is shaped according to the stamp.
- the solid is compressed in the process.
- the compression can take place in several compression steps, since part of the shape does not always change. This is particularly necessary in order to create a defined shape and / or to ensure a defined alignment of the product in the shape.
- a further shaping of the solid can take place at the same time as the compression.
- bristle holes can be formed together with the head compaction. This can be done in particular, for example, by means of a heated stamp with a bristle hole stamp.
- the solid is preheated, in particular, to a defined temperature.
- the compression process is preferably carried out directly after the foaming process, so that the volume body does not have to be heated separately, but still contains heat. Preheating can be used to keep the compaction more uniform and to be able to make the execution faster.
- a maximum preheating takes place in particular to the glass transition temperature of the foamed volume body.
- a temperature of the stamp is in particular in the range of the melting temperature of the component to be compressed and / or between the glass transition temperature and the melting temperature of the component to be compressed.
- the compressed partial area of the volume body is compressed to 30% to 80%, preferably 50% to 70%, of an original volume.
- the duration of maintaining the compression is in particular from 1 s to 20 s, preferably from 1 s to 10 s.
- the compression is maintained in particular so that the foaming does not recover.
- an advantageously variable hygiene means can be provided.
- the application unit can be provided with an advantageously high level of strength. In this way, a reliable fixation of cleaning agents, such as in particular bristles, can in turn be achieved.
- a subsequent contouring of the handle unit can be achieved.
- complex shapes can be produced which, for example, cannot be realized in the production of the foamed material.
- a film hinge can be created by compressing the foamed mass.
- the gas / air is pressed out of at least partial areas of the volume body, so that at least approximately a full mass is created again.
- an interface geometry for example, which serves to connect to another part, can be formed in the volume body.
- a partial area of the interface can be compressed in order to create a harder, defined or calibrated structure.
- the interface can be designed for interchangeable heads or for hairbrush front parts, for example.
- the compression it would be particularly conceivable that several foamed parts can be directly assembled by means of welding and / or pressing together. Furthermore, it would be particularly conceivable during the compression that the compression can also be implemented directly in the foaming tool with a movable core and / or punch.
- the compression can also be used to create variability. For example, a preliminary product, in particular for example a foamed product or foamed and injected product, can be provided which is compressed differently in order to be able to realize different handle shapes, for example. In this way, in particular, a basic handle can be created that is condensed into different shapes and thus brings different product shapes, for example for different customers.
- volume body be compressed at least in sections in a region of the application unit after a shaping process.
- the aim of the compaction is, in particular, to enable bristling.
- a bristle field can be implemented directly through the compression in the volume body.
- the volume body can be compressed in an area of a brush body, so that known methods are used for bristling can.
- compression and bristling take place in parallel.
- a further shaping of the solid can take place at the same time as the compression.
- bristle holes can be formed together with the head compaction. This can be done in particular, for example, by means of a heated stamp with a bristle hole stamp.
- a bristle field can be created in a compacted body. The brush head is compacted in one process step so that bristling is possible.
- the compression can take place with the formation of bristle holes for normal anchor punching.
- the compression can take place with the formation of a recess for a bristle plate.
- the bristle plate can in particular be sprayed normally, with bristles and then welded into the head area.
- the bristle plate can be bristled using the AFT, PTT, AMR or inmould processes described above.
- a bristle field can also be introduced into a foamed body, such as in particular in the foamed base body.
- a bristle plate such as in particular an AFT / PTT / AMR / or inmould plate, can be foamed.
- a bristle plate or bristle plate is produced in a first step in particular. The bristle-free plate is then in particular foamed and at least part of the application unit and / or the handle unit is produced using foamed components.
- individual bundles of bristles to be foamed around.
- a first step in particular, bundles of bristles with a mushroom-shaped end are used made with the mushroom-shaped end acting like an anchor.
- the bristle bundles are then placed in a foaming tool and foamed around.
- the bundles of bristles are fixed by the foaming.
- screwed-in brushes is conceivable.
- one end of the wire is held in a foamed handle.
- the anchoring is particularly important here, since the end of the wire must have a corresponding shape, for example in the shape of a fish hook (shape of a "J"), so that the brush cannot be torn out.
- the screwed-in brush is inserted into an injection molding or foaming tool and encapsulated in the freezing position.
- the foaming can take place directly on the brush or the wire end or on an injection-molded part that has been molded onto the wire end.
- a bristle field can be arranged on the injection-molded body, in particular the base body.
- the injection-molded base body which also forms the head area of the toothbrush, or a simply injection-molded body forms the head area.
- a variant with a punched bristle field is particularly conceivable.
- the head area of the application unit contains, in particular, bristle holes, it being possible to apply bristles directly in the bristle holes. Anchoring punching processes are particularly conceivable for this.
- the head area of the application unit contains, in particular, a recess for a bristle plate, in particular an AFT plate.
- the bristle plate is normally injected, bristled and then welded into the head area.
- the hygiene agent can in particular be printed and / or decorated as desired. Printing or decoration can take place, for example, by means of a surface treatment.
- the surface treatment can be integrated into a manufacturing process or downstream of the manufacturing process.
- the hygiene agent can be sealed, for example, by painting or flaming. When painting, the holes in the surface in particular are filled, which can mean that the paint is not applied with the same thickness everywhere. Paint can take place, for example, by spraying or painting the hygiene product with paint or by dip painting. Dip painting depends in particular on the material and is not suitable for all materials due to the processing temperatures.
- the hygiene agent can be embossed.
- the embossing represents a kind of partial compression, which is a surface structure and / or brings shape or also depicts a lettering and / or a logo.
- a film structure with a printing layer and a connecting layer, such as, in particular, adhesive is also possible.
- image embossing a film, for example from a roll, is pressed onto the body using a heated stamp in particular. The embossing takes place at those points where the film is provided with the appropriate adhesive.
- the stamp for the embossing has in particular the shape of the body surface. Printing takes place in particular in a defined manner, so that printing marks have to be aligned with respect to the body to be printed.
- a heated stamp with the contour of the embossing is used to press a film, in particular for example from a roll, onto the body.
- the touching surfaces of the body are equipped with the decoration from the foil.
- the contour of the printing is therefore made in particular by the stamp.
- the stamp is in particular formed by a metal stamp.
- the stamp can in particular be used for other functions.
- lettering can be burned in by means of industrial embossing. It is therefore possible, in particular, to create depressions by means of strands, with an embossing from the film being formed on the bottom of the depression. For this purpose, the stamp is driven deeper than the surface in particular. Alternatively, the shaping of negative shapes is also conceivable.
- Embossing can thus take place in particular without a film, with only partial compression taking place.
- three-dimensional lettering, structures or the like can be generated in this way.
- the hygiene product can also be decorated by means of an insert in an undercut. For example, a diamond or the like can be inserted.
- additional elements in particular can be mounted on the base body, the volume body and / or the enveloping body.
- smaller elements can be assembled.
- additional elements such as metal parts, diamonds, glass beads or the like can be retrofitted.
- injection molded parts such as hard elements or soft elements or, for example, elements with other functions can also be added later during assembly.
- the assembly of handle parts is also conceivable as a special case. It is particularly conceivable that, for example, the foamed part has a hole, a part to be assembled being passed through the hole for assembly. There are in particular further final part conceivable.
- a fixation of the parts can be achieved, for example, mechanically, by means of flint cuts, by means of a screw connection, by means of clamping, by means of locking and / or riveting, with one part in particular being riveted and / or locked, and / or by means of clamping.
- parts of the flywheel means are in particular screwed together.
- two injection-molded parts can be connected through the foamed body by closing with a nut-like, screwed-on part. Alternatively or additionally, it can be fixed by gluing or welding.
- flygienic means according to the invention should not be restricted to the applications and embodiments described above.
- the flygienic means according to the invention can have a number of individual elements, components and units that differs from a number of individual elements, components and units mentioned herein, and / or any meaningful combination thereof, in order to fulfill a mode of operation described herein.
- values lying within the stated limits should also be deemed disclosed and can be used in any way.
- FIG. 1 A shows a base body of a flygienic means designed as a toothbrush with an application unit and with a handle unit in a 3D view
- Fig. 1B the base body of the flygienic means with the application unit and the handle unit in a sectional view
- Fig. 1C the flygienic means with the application unit, with the handle unit, with the base body and with the volume body in a 3D view
- Fig. 1D the Flygienic means with the application unit, with the handle unit, with the base body and with the volume body in a sectional view
- FIG. 2A shows an alternative Flygienic means designed as a toothbrush with an application unit, with a handle unit, with a base body, with a volume body and with an envelope body in a 3D view,
- 3A shows a further alternative Flygienic means designed as a toothbrush with an application unit, with a handle unit, with a base body and with a volume body in a 3D view in a lowering position,
- 3B shows the further alternative Flygienic means with the application unit, with the handle unit, with the base body, with the volume body and with an enveloping body in a 3D view
- FIG. 4A shows a further alternative Flygienic means designed as a toothbrush with an application unit, with a handle unit which has a cage element, with a base body and with a volume body in a 3D view,
- 4B shows the further alternative flygienic means with the application unit, with the handle unit which has the cage element, with the base body and with the volume body in a sectional view
- 5A shows a further alternative Flygienic means designed as a toothbrush with an application unit, with a handle unit which has a cage element, with a base body and with a volume body in a 3D view
- 5B shows the further alternative flywheel with the application unit, with the handle unit which has the cage element, with the base body and with the volume body in a sectional view
- FIG. 6A shows a further alternative Flygienic means designed as a toothbrush with an application unit, with a handle unit and with a solid in a side view, uncompacted after foaming,
- FIG. 6B shows the further alternative flygienic means with the application unit, with the handle unit and with the volume body in a side view, with a compressed brush head
- 6C shows the further alternative Flygienic means with the application unit, with the handle unit and with the volume body in a side view, completely compressed
- FIG. 7A shows a further alternative Flygienic means designed as a toothbrush with an application unit which has a recess for an AFT plate, with a handle unit and with a solid in a 3D view, uncompacted after foaming,
- FIG. 7C shows the further alternative flygienic means with the application unit, with the handle unit, with the volume body and with an AFT plate received in the recess of the application unit in a 3D view, completely compressed,
- FIG. 8 shows a Flygienic means designed as an interdental brush with an application unit, with a handle unit and with a solid in a 3D view,
- FIG. 9 shows a flygienic means designed as an electric toothbrush with an application unit, with a handle unit which has a housing, with a base body forming the housing and with a Solid, which is arranged on the housing in a 3D view,
- FIG. 10 shows an alternative flygienic means designed as an electric toothbrush with an application unit, with a handle unit which has a housing, with a base body forming the housing and with various partial volume bodies which are arranged on the housing, and a charging station in a 3D- Opinion,
- FIG. 11 A shows a flygienic agent designed as a mascara with an application unit, with a handle unit, with a tank, with a base body and with a volume body in a side view,
- 11 B shows the flygienic means with the application unit, with the handle unit, with the base body and with the volume body in a side view without the tank,
- FIG. 12 shows a Flygienic means designed as a razor with a
- Application unit with a handle unit, with a base body and with a volume body in a 3D view,
- FIG. 13A shows a flygienic means designed as a dental floss box with a
- Application unit with a handle unit designed as a box and with a solid unfolded in a 3D view,
- FIG. 14 shows a flygienic means designed as a Flandbesen with a
- Application unit with a handle unit and with a solid body forming the handle unit in a 3D view,
- 15A shows a further alternative Flygienic means with the application unit, with the handle unit, with the base body and with the volume body in a 3D view,
- 15B the further alternative flygienic means with the application unit, with the handle unit, with the base body and with the volume body in a 3D view of the rear side
- 15C shows the further alternative hygiene means with the application unit, with the handle unit, with the base body and with the volume body in an exploded view
- 15D shows a base body of the further alternative hygiene product in a 3D view from the front
- 15E shows the base body of the further alternative hygiene product in a 3D view from behind
- 15F shows the base body with part of the volume body of the further alternative hygiene means assembled, in a 3D view
- FIG. 16A shows a further alternative hygiene means with the application unit, with the handle unit, with the base body and with the volume body in a 3D view, and FIG
- 16B shows the further alternative hygiene means with the application unit, with the handle unit, with the base body and with the volume body in an exploded view.
- FIG. 1A shows a front side 36a of a hygiene product 10a in a schematic perspective illustration.
- the hygiene means 10a is designed as a toothbrush in the present case.
- the hygiene means 10a can also be designed as a disposable toothbrush or as an interchangeable toothbrush.
- the hygiene means 10a could be designed as a flosser, a single-tuft brush, an interdental cleaner, a tongue cleaner or the like.
- combined hygiene means are conceivable which combine at least two different functions, for example a toothbrush with tongue cleaner, a toothbrush with massage elements, an interdental cleaner with flosser or the like.
- the hygiene means 10a has at least one application unit 12a. Furthermore, the hygiene means 10a has at least one handle unit 14a.
- FIGS. 1A to 1D show different views and production stages of the hygiene product 10a. Due to the In different views, some elements are not shown in all the figures and accordingly not provided with reference symbols in all the figures.
- the flygreen means 10a has a longitudinal axis 38a, a flea axis 40a and a latitude axis.
- the longitudinal axis 38a is arranged parallel to a fluff extension direction 42a of the flygienic means 10a. If the flywheel 10a is placed with a rear side 44a on a flat surface, so that the longitudinal axis 38a is arranged parallel to the surface, the flea axis 40a is arranged perpendicular to the longitudinal axis 38a and perpendicular to the surface and the latitude axis.
- the latitude axis is arranged perpendicular to the longitudinal axis 38a and perpendicular to the flea axis 40a.
- the flygienic means 10a has a length, in particular parallel to the longitudinal axis 38a and measured parallel to the support surface, of 140 mm to 210 mm and preferably of 165 mm to 195 mm.
- the at least one application unit 12a has a head area 46a.
- the head region 46a forms a brush head of the flywheel 10a.
- the head region 46a is designed as a toothbrush head.
- the head region 46a has, in particular, a base body designed as a bristle carrier.
- the main body of the head region 46a is formed entirely from a flart component. However, it would also be conceivable that the main body of the head region 46a is formed from a flart component and a soft component.
- the main body of the head region 46a forms a bristle carrier.
- the flygienic means 10a furthermore has a plurality of bristle holes in the head region 46a in the form of recesses 32a, each of which comprises a bundle of bristles.
- the flywheel 10a could have a bristle plate received by the head region 46a, which comprises a plurality of bristle bundles.
- the bristle plate is formed, for example, from an AFT plate.
- a recess is formed on the front side 36a of the head region 46a. The recess is provided for receiving the bristle plate.
- the application unit 12a comprises a fials area 48a, which in particular connects the head area 46a to the handle unit 14a.
- the fials area 48a forms a neck.
- the application unit 12a is arranged on the upper side of the hygiene product 10a.
- the application unit 12a forms an uppermost point of the hygiene product 10a.
- the application unit 12a can have at least one tongue cleaner element.
- the tongue cleaner element can in particular have knobs and / or lamellae.
- the tongue cleaner element is preferably arranged on the rear side of the head region 46a, in particular it can be arranged on a ring made of a soft component and / or on a surface made of a soft component and / or on an island made of a hard component.
- the tongue cleaner element can be formed from hard and / or soft components.
- the neck area 48a forms a transition between the application unit 12a and the handle unit 14a.
- the lower end of the neck region 48a is at least partially resilient.
- the hygiene means 10a also has a volume body 16a.
- the volume body 16a consists at least partially of a foamed material.
- the volume body 16a consists entirely of a foamed material.
- the foamed material is made from expandable granules.
- the foamed material can be made from a hard component, so that in particular a hard foam is produced.
- the foamed material can for example consist of expanded polystyrene (EPS), expanded polyethylene (EPE), expanded polypropylene (EPP), expanded polyethylene terephthalate (EPET) and / or expanded polybutylene terephthalate (EPBT) as the basic component.
- EPS expanded polystyrene
- EPE expanded polyethylene
- EPP expanded polypropylene
- EPET expanded polyethylene terephthalate
- EPBT expanded polybutylene terephthalate
- the volume body 16a at least partially forms the application unit 12a and / or the handle unit 14a.
- the volume body 16a partially forms the handle unit 14a.
- the volume body 16a forms an outer shell of a grip area of the grip unit 14a.
- the volume body 16a has, for example, a circular cylindrical basic shape, with a central axis extending along the longitudinal axis 38a of the hygiene product 10a.
- the volume body 16a is designed as a hollow cylinder. However, other forms that appear sensible to a person skilled in the art are also conceivable.
- the hygiene means 10a has a base body 18a connected to the volume body 16a.
- the base body 18a consists at least partially of a Flart component.
- the base body 18a consists entirely of a flart component.
- the base body 18a is formed in one piece.
- Styrene polymers such as styrene acrylonitrile (SAN), polystyrene (PS), acrylonitrile butadiene styrene (ABS), styrene methyl methacrylate (SMMA), styrene butadiene (SB) or the like come into consideration as flart components.
- a flart component can comprise polyolefins such as polypropylene (PP), polyethylene (PE) or the like, in particular also in the form of high-density polyethylene (HDPE) or low-density polyethylene (LDPE).
- polyolefins such as polypropylene (PP), polyethylene (PE) or the like, in particular also in the form of high-density polyethylene (HDPE) or low-density polyethylene (LDPE).
- PET polyethylene terephthalate
- PET polyethylene terephthalate
- PET acid-modified polyethylene terephthalate
- PET acid-modified polyethylene terephthalate
- PET glycol-modified polyethylene terephthalate
- PBT polybutylene terephthalate
- PCT-G-hexylate-A acid-modified polycyclohexylene dimethylene terephthalate
- the base body 18a at least partially forms the application unit 12a and / or the handle unit 14a.
- the base body 18a forms the application unit 12a.
- the base body 18a completely forms the application unit 12a.
- elements made of a soft component are additionally provided on the application unit 12a.
- the base body 18a also partially forms the handle unit 14a.
- the base body 18a forms a core of the handle unit 14a.
- the base body 18a has an at least approximately cylindrical basic shape in a region of the handle unit 14a.
- the base body 18a extends along the longitudinal axis 38a along the entire hygiene product 10a.
- the base body 18a has a rounded end at a rear end of the hygiene device 10a.
- the volume body 16a is molded onto the base body 18a.
- the volume body 16a is produced directly on the base body 18a in a foaming process.
- the base body 18a is produced in an injection molding process, the base body 18a being foamed with the volume body 16a.
- the volume body 16a at least partially encloses the base body 18a.
- the volume body 16a encloses the base body 18a in a region of the handle unit 14a.
- the volume body 16a completely encloses the base body 18a in at least one plane perpendicular to the longitudinal axis 38a.
- the base body 18a and the volume body 16a form a form fit.
- the base body 18a has at least one form-locking element 20a, 22a, 24a, which with the volume body 16a forms a form fit.
- the base body 18a has several form-locking elements 20a, 22a, 24a.
- a first form-locking element 20a of the base body 18a is designed as a disk.
- the first form-locking element 20a is formed by a ring which extends completely around a basic shape of the base body 18a.
- the first form-locking element 20a is arranged in a plane perpendicular to the longitudinal axis 38a.
- the first form-fit element 20a has a rectangular cross section when viewed in a plane parallel to the longitudinal axis 38a.
- the base body 18a has, for example, two first form-locking elements 20a which are arranged at a distance from one another.
- a second form-locking element 22a of the base body 18a forms a circumferential groove.
- the groove of the second form-locking element 22a extends completely around the base body 18a in a plane perpendicular to the longitudinal axis 38a.
- the groove of the second form-locking element 22a is annular and, for example, has a rectangular cross section.
- a third form-locking element 24a of the base body 18a forms an opening through the base body 18a.
- the opening of the third form-locking element 24a extends perpendicular to the longitudinal axis 38a through the base body 18a.
- the opening of the third form-locking element 24a has a round cross section.
- the opening of the third form-locking element 24a extends completely through a basic shape of the base body 18a. In principle, however, another configuration of the form-locking elements 20a, 22a, 24a that appears sensible to a person skilled in the art would also be conceivable.
- the form-fit elements 20a, 22a, 24a each form an extension and / or a recess, which / which extends perpendicular to the fluff extension direction 42a of the flygienic means 10a, and is provided for a form-fitting fixation of the volume body 16a parallel to the fluff extension direction 42a of the flygienic means 10a .
- the form-fit elements 20a, 22a, 24a and the volume body 16a are in geometric engagement with one another.
- the first form-locking elements 20a extend partially into the volume body 16a.
- the volume body 16a extends into the groove of the second form-fit element 22a and through the opening of the third form-fit element 24a.
- the second form-fit element 22a and the third form-fit element 24a are arranged along the longitudinal axis 38a between the first form-fit elements 20a.
- the base body 18a can thus be completely foamed around 360 °, the first Form-fit elements 20a and the second form-fit element 22a enable fixation in the longitudinal direction.
- the third form-locking element 24a on the base body 18a fixes the rotation of the volume body 16a on the base body 18a and at the same time also fixes it in the longitudinal direction.
- the flygienic means 10a is produced in one process.
- the base body 18a is produced by means of injection molding.
- the volume body 16a is molded directly onto the base body 18a by means of a foam process, in particular by means of a particle foam process.
- the base body 18a is placed in a foaming tool and the base body 18a is foamed with the foamed material for the volume body 16a.
- the volume body 16a is produced around the base body 18a.
- the volume body 16a forms a form fit with the base body 18a directly during production.
- expandable plastic is used in particular.
- a first step of the particle foam process the raw material of the volume body 16a in the form of pearls and / or spheres is placed in a mold in which the base body 18a is already inserted. Water vapor is then injected under pressure and at high temperature through various small openings in the mold or in the cavity. This introduction of heat leads to the expansion and sintering of the pearls that bond on their surfaces. The water content is then preferably reduced, for example in a tempering furnace.
- the granulate is provided in a pressure loading container and / or pressure filling device.
- a foam mold is then closed in a second process step.
- the foaming mold defines, in particular, a shape of the volume body 16a.
- the foaming mold is then filled in a third process step.
- the pressure during the introduction of the material is in particular from 0.5 bar to 3 bar, preferably from 1 bar to 2 bar.
- the foam mold is vented, if necessary, in particular by means of a vacuum.
- the contents of the foaming mold are then in particular steamed in a further process step.
- a steam pressure is in particular up to 40 bar, preferably up to 25 bar and particularly preferably below 5 bar.
- the vapor pressure and the vapor temperature are particularly related, since higher temperatures bring higher pressures.
- the steam temperature is in particular up to 250 ° C., preferably up to 170 ° C and particularly preferably up to 150 ° C.
- the steam temperature is also in particular at least 80 ° C.
- the duration of the vapor deposition is in particular from 20 s to 50 s, preferably from 25 s to 40 s, in particular the granulate or the beads are welded together.
- Material expansion is in particular 20 to 100 times, preferably 40 to 80 times, the original volume.
- this can be supported in particular with a vacuum so that steam can penetrate better.
- the foam mold is then cooled so that the granulate is stabilized and / or fixed. The cooling takes place in particular via a cavity system with water (sprayed water) via the same channels as the steam entry takes place.
- the foam mold is then opened in a further process step.
- FIGS. 2A to 14 Further exemplary embodiments of the invention are shown in FIGS. 2A to 14. The following descriptions are essentially limited to the differences between the exemplary embodiments, reference being made to the description of the other exemplary embodiments, in particular FIGS. 1A to 1D, with regard to components, features and functions that remain the same.
- the letter a in the reference symbols of the exemplary embodiment in FIGS. 1 to 1D is replaced by the letters b to n in the reference symbols in the exemplary embodiments in FIGS. 2A to 14.
- components with the same designation in particular with regard to components with the same reference numerals, reference can in principle also be made to the drawings and / or the description of the other exemplary embodiments, in particular FIGS. 1A to 1D.
- FIG. 2A shows a front side 36b of a hygiene product 10b in a schematic perspective illustration.
- the hygiene means 10b is designed as a toothbrush in the present case.
- the hygiene means 10b has at least one application unit 12b. Furthermore, the hygiene means 10b has at least one handle unit 14b.
- the hygiene means 10b also has a volume body 16b.
- the volume body 16b consists at least partially of a foamed material.
- the volume body 16b consists entirely of a foamed material.
- the volume body 16b partially forms the handle unit 14b.
- the volume body 16b forms a handle body of a Grip area of the grip unit 14b.
- the volume body 16b has, for example, a circular cylindrical basic shape, a central axis extending along a longitudinal axis 38b of the hygiene product 10b.
- the volume body 16b is designed as a hollow cylinder. However, other forms that appear useful to a person skilled in the art are also conceivable.
- the hygiene means 10b has a base body 18b connected to the volume body 16b.
- the base body 18b consists at least partially of a hard component.
- the base body 18b consists entirely of a hard component.
- the base body 18b is formed in one piece.
- the base body 18b forms the application unit 12b.
- the base body 18b completely forms the application unit 12b.
- the base body 18b also partially forms the handle unit 14b.
- the base body 18b forms a core of the handle unit 14b.
- the base body 18b has an at least approximately cylindrical basic shape in a region of the handle unit 14b.
- the base body 18b extends along the longitudinal axis 38b along the entire hygiene product 10b.
- the base body 18b has a rounded end at a rear end of the hygiene product 10b.
- the volume body 16b is molded onto the base body 18b.
- the volume body 16b is produced directly on the base body 18b in a foaming process.
- the base body 18b is produced in an injection molding process, the base body 18b being foamed with the volume body 16b.
- the volume body 16b at least partially encloses the base body 18b.
- the volume body 16b encloses the base body 18b in a region of the handle unit 14b.
- the volume body 16b completely encloses the base body 18b in at least one plane perpendicular to the longitudinal axis 38b.
- the base body 18b and the volume body 16b form a form fit.
- the base body 18b has at least one form-fit element 20b, 22b, 24b, which forms a form-fit connection with the volume body 16b.
- the base body 18b has several form-locking elements 20b, 22b, 24b.
- the hygiene means 10b has an enveloping body 28b which encloses the at least one volume body 16b.
- the enveloping body 28b is materially connected to the volume body 16b.
- the enveloping body 28b is a production Form fit and / or material fit with the volume body 16b.
- the envelope body 28b at least partially forms an outer envelope of the hygiene product 10b.
- the enveloping body 28b completely encloses the volume body 16b.
- the enveloping body 28b extends directly to the base body 18b.
- the enveloping body 28b is formed as a thin layer on the volume body 16b.
- the enveloping body 28b consists at least partially of a soft component.
- thermoplastic styrene elastomers such as a styrene-ethylene-butylene-styrene copolymer (SEBS), a styrene-butadiene-styrene copolymer (SBS) or the like come into consideration as soft components.
- SEBS styrene-ethylene-butylene-styrene copolymer
- SBS styrene-butadiene-styrene copolymer
- TPE-U thermoplastic polyurethane elastomers
- TPE-A thermoplastic polyamide elastomers
- TPE-O thermoplastic polyolefin elastomers
- TPE-E thermoplastic polyester elastomers
- the hygiene means 10b has a thumb rest 50b.
- the thumb rest 50b is arranged in a thumb grip area of the grip unit 14a.
- the thumb rest 50b consists of a soft component.
- the thumb rest 50b consists of the same component as the enveloping body 28b.
- the thumb rest 50b is arranged on the base body 18b.
- the thumb rest 50b is cohesively connected to the base body 18b.
- the thumb rest 50b can also be positively connected to the base body 18b.
- Various shapes of the thumb rest 50b that appear sensible to a person skilled in the art are conceivable.
- the hygiene means 10b is produced in one process.
- the base body 18b is produced by means of injection molding.
- the volume body 16b is molded directly onto the base body 18b by means of a foam process, in particular by means of a particle foam process.
- the base body 18b is placed in a foaming tool and the base body 18b is foamed with the foamed material for the volume body 16b.
- the volume body 16b is produced around the base body 18b.
- the volume body 16b forms a form fit with the base body 18b directly during production.
- the at least one enveloping body 28b is molded onto the volume body 16b by means of an injection molding process.
- the thumb rest 50b is molded onto the base body 18b by means of an injection molding process.
- the The volume body 16b and the base body 18b are inserted into a cavity of an injection molding tool.
- the injection molding tool is then closed and a plastic component of the enveloping body 28b is molded onto the volume body 16b and the thumb rest 50b is molded onto the base body 18b. Since injection molding has a higher melting temperature or the melt has a higher temperature than the melting temperature of the foamed volume body 16b, a cohesive, firm mechanical connection occurs through a defined melting of the foamed volume body 16b.
- the enveloping body 28b is materially connected to the volume body 16b.
- the thumb rest 50b is materially connected to the base body 18b.
- the product created according to FIGS. 2A and 2B can build on the product from FIGS. 1A to 1D.
- the product created in FIGS. 1 A to 1 D is ready for use, but can become a product according to FIGS. 2A and 2B through the additional process step.
- FIG. 3A shows a front side 36c of a hygiene product 10c in a schematic perspective illustration.
- the hygiene means 10c is designed as a toothbrush in the present case.
- the hygiene means 10c has at least one application unit 12c. Furthermore, the hygiene means 10c has at least one handle unit 14c.
- the hygiene means 10c also has a volume body 16c.
- the volume body 16c consists at least partially of a foamed material.
- the volume body 16c consists entirely of a foamed material.
- the volume body 16c partially forms the handle unit 14c.
- the volume body 16c forms a grip body of a grip area of the grip unit 14c.
- the volume body 16c is designed in two parts and has two partial bodies 52c, 52c 'which are spaced apart from one another.
- the partial bodies 52c, 52c 'of the volume body 16c each have, for example, a circular-cylindrical basic shape, a central axis extending along a longitudinal axis 38c of the hygiene product 10c.
- the partial bodies 52c, 52c ' are arranged coaxially to one another.
- the partial bodies 52c, 52c 'of the volume body 16c are each formed as a hollow cylinder.
- the hygiene means 10c has a base body 18c connected to the volume body 16c.
- the base body 18c consists at least partially of a hard component.
- the base body 18c consists entirely of a hard component.
- the base body 18c is formed in one piece.
- the base body 18c forms the application unit 12c.
- the base body 18c completely forms the application unit 12c.
- the base body 18c also partially forms the handle unit 14c.
- the base body 18c forms a core of the handle unit 14c.
- the base body 18c has an at least approximately cylindrical basic shape in a region of the handle unit 14c.
- the base body 18c extends along the longitudinal axis 38c along the entire hygiene product 10c.
- the base body 18c has a rounded end at a rear end of the hygiene device 10c.
- the volume body 16c is molded onto the base body 18c.
- the volume body 16c is produced directly on the base body 18c in a foaming process.
- the base body 18c is produced in an injection molding process, the base body 18c being foamed with the volume body 16c.
- the volume body 16c at least partially encloses the base body 18c.
- the volume body 16c encloses the base body 18c in a region of the handle unit 14c.
- the volume body 16c completely encloses the base body 18c in at least one plane perpendicular to the longitudinal axis 38c.
- the base body 18c and the volume body 16c form a form fit.
- the base body 18c has at least one form-fit element 20c, which forms a form-fit connection with the volume body 16c.
- the base body 18c has a first form-locking element 20c, which is designed as a disk.
- the first form-locking element 20c is formed by a circular ring which extends completely around a basic shape of the base body 18c.
- the first form-locking element 20c is arranged in a plane perpendicular to the longitudinal axis 38c.
- the first form-locking element 20c has a rectangular cross section when viewed in a plane parallel to the longitudinal axis 38c.
- the base body 18c has, for example, two first form-fitting elements 20c which are arranged at a distance from one another.
- the base body 18c has, for example, two first form-locking elements 20c, which are spaced apart from one another in a partial body 52c, 52c 'of the volume body 16c are arranged.
- the partial bodies 52c, 52c ' can be made of various foamed materials.
- the hygiene means 10c has an enveloping body 28c that partially penetrates the at least one volume body 16c.
- the enveloping body 28c is at least partially materially connected to the volume body 16c.
- the enveloping body 28c enters into a material connection with the volume body 16c during manufacture.
- the envelope body 28c partially forms an outer envelope of the hygiene product 10c.
- the enveloping body 28c is arranged between the partial bodies 52c, 52c 'of the volume body 16c.
- the enveloping body 28c connects the partial bodies 52c, 52c '.
- the enveloping body 28c extends directly to the base body 18c.
- the enveloping body 28c consists of a soft component.
- the enveloping body 28c is at least partially materially connected to the base body 18c.
- the hygiene means 10c is produced in one process.
- the base body 18c is produced by means of injection molding.
- the volume body 16c is molded directly onto the base body 18c by means of a foam process, in particular by means of a particle foam process.
- the base body 18c is placed in a foaming tool and the base body 18c is foamed with the foamed material for the volume body 16c.
- the volume body 16c is produced around the base body 18c.
- the volume body 16c forms a form fit with the base body 18c directly during production.
- the at least one enveloping body 28c is molded onto the volume body 16c by means of an injection molding process.
- the volume body 16c and the base body 18c are inserted into a cavity of an injection molding tool.
- the injection molding tool is then closed and a plastic component of the enveloping body 28c is injected onto the volume body 16c and the base body 18c.
- the enveloping body 28c is at least partially materially connected to the volume body 16c.
- the enveloping body 28c is at least partially materially connected to the base body 18c.
- FIG. 4A shows a front side 36d of a hygiene product 10d in a schematic perspective illustration.
- the hygiene means 10d is designed as a toothbrush in the present case.
- the hygiene means 10d has at least one application unit 12d.
- the hygiene means 10d has at least one handle unit 14d.
- the hygiene means 10d also has a volume body 16d.
- the volume body 16d consists at least partially of a foamed material.
- the solid 16d consists entirely of a foamed material.
- the volume body 16d partially forms the handle unit 14d.
- the volume body 16d forms a grip body of a grip area of the grip unit 14d.
- the volume body 16d has, for example, a circular-cylindrical basic shape, a central axis extending along a longitudinal axis 38d of the hygiene product 10d.
- the volume body 16d is designed as a circular cylinder. However, other forms that appear sensible to a person skilled in the art are also conceivable.
- the hygiene means 10d has a base body 18d connected to the volume body 16d.
- the base body 18d consists at least partially of a hard component.
- the base body 18d consists entirely of a hard component.
- the base body 18d is designed in one piece.
- the base body 18d forms the application unit 12d.
- the base body 18d completely forms the application unit 12d.
- the base body 18d also partially forms the handle unit 14d.
- the base body 18d has a recess 54d in a grip area of the grip unit 14d.
- the recess 54d extends over the entire grip area of the grip unit 14d.
- the recess 54d serves to accommodate the volume body 16d.
- the recess 54d separates the base body 18d into two partial base bodies 56d, 56d '.
- the base body 18d has an at least approximately cylindrical basic shape in a region of the handle unit 14d.
- the base body 18d has a rounded end at a rear end of the hygiene means
- the volume body 16d is molded onto the base body 18d.
- the volume body 16d is produced directly on the base body 18d in a foaming process.
- the volume body 16d is introduced into the recess 54d of the base body 18d.
- the base body 18d is produced in an injection molding process, the recess 54d of the base body 18d being filled with foam with the volume body 16d.
- the handle unit 14d also has a cage element 26d which at least partially engages around the volume body 16d.
- the cage element 26d forms a lattice structure around the Solid 16d from.
- the cage element 26d extends along the longitudinal axis 38d completely over the volume body 16d.
- the cage element 26d has three longitudinal webs 58d which are arranged distributed in the circumferential directions and which extend around the volume body 16d.
- the cage element 26d has a transverse web 60d which surrounds the volume body 16d in the circumferential direction and connects the longitudinal webs 58d.
- the cage element 26d extends over the recess 54d of the base body 18d.
- the cage element 26d connects the partial base bodies 56d of the base body 18d to one another.
- the cage element 26d is directly and firmly connected to the base body 18d.
- the cage element 26d is firmly connected to the base body 18d at both ends of the volume body 16d.
- the cage element 26d is formed in one piece with the base body 18d.
- the cage element 26d at least partially forms an outer shell of the flywheel means 10d.
- the flygienic means 10d is produced in one process.
- the base body 18d with the cage element 26d is produced by means of injection molding.
- the volume body 16d is molded directly onto the base body 18d by means of a foam process, in particular by means of a particle foam process.
- the recess 54d of the base body 18d is filled with foam with the volume body 16d.
- the base body 18d is placed in a foaming tool and the recess 54d of the base body 18d is foamed with the foamed material for the volume body 16d.
- FIG. 5A shows a front side 36e of a flywheel 10e in a schematic perspective illustration.
- the flygienic means 10e is designed as a toothbrush in the present case.
- the flygienic means 10e has at least one application unit 12e. Furthermore, the fly control means 10e has at least one handle unit 14e.
- the flygienic means 10e also has a volume body 16e.
- the volume body 16e consists at least partially of a foamed material.
- the solid 16e consists entirely of a foamed material.
- the volume body 16e partially forms the handle unit 14e.
- the volume body 16e forms a grip body of a grip area of the grip unit 14e.
- the volume body 16e has, for example, a circular-cylindrical basic shape, with a central axis extending along a longitudinal axis 38e of the hygiene product 10e extends.
- the volume body 16e is designed as a hollow cylinder. However, other forms that appear useful to a person skilled in the art are also conceivable.
- the hygiene means 10e has a base body 18e connected to the volume body 16e.
- the base body 18e consists at least partially of a hard component.
- the base body 18e consists entirely of a hard component.
- the base body 18e is formed in one piece.
- the base body 18e forms the application unit 12e.
- the base body 18e completely forms the application unit 12e.
- the base body 18e also partially forms the handle unit 14e.
- the base body 18e forms a core of the handle unit 14e.
- the base body 18e has an at least approximately cylindrical basic shape in a region of the handle unit 14e.
- the base body 18e extends along the longitudinal axis 38e along the entire hygiene device 10e.
- the base body 18e has a rounded end at a rear end of the hygiene product 10e.
- the volume body 16e is molded onto the base body 18e.
- the volume body 16e is produced directly on the base body 18e in a foaming process.
- the base body 18e is produced in an injection molding process, the base body 18e being foamed with the volume body 16e.
- the volume body 16e at least partially encloses the base body 18e.
- the volume body 16e encloses the base body 18e in a region of the handle unit 14e.
- the volume body 16e completely encloses the base body 18e in at least one plane perpendicular to the longitudinal axis 38e.
- the base body 18e and the volume body 16e form a form fit.
- the base body 18e has at least one form-fit element 20e, 22e, 24e, which forms a form-fit connection with the volume body 16e.
- the base body 18e has a plurality of form-fitting elements 20e, 22e, 24e.
- the hygiene means 10e has an enveloping body 28e which partially encloses the at least one volume body 16e.
- the enveloping body 28e is materially connected to the volume body 16e.
- the enveloping body 28e enters into a material connection with the volume body 16e during manufacture.
- the envelope body 28e at least partially forms an outer envelope of the hygiene product 10e.
- the enveloping body 28e is of a Ring formed which encloses the solid 16e transversely to the longitudinal axis 38e.
- the enveloping body 28e can form a form fit in addition to the material connection, or form no material connection and only form a form connection.
- the hygiene means 10e is produced in one process.
- the base body 18e is produced by means of injection molding.
- the volume body 16e is molded directly onto the base body 18e by means of a foam process, in particular by means of a particle foam process.
- the base body 18e is placed in a foaming tool and the base body 18e is foamed with the foamed material for the volume body 16e.
- the volume body 16e is produced around the base body 18e.
- the volume body 16e forms a form fit with the base body 18e directly during production.
- the at least one enveloping body 28e is molded onto the volume body 16e by means of an injection molding process.
- the volume body 16e and the base body 18e are placed in a cavity of an injection molding tool.
- the injection molding tool is then closed and a plastic component of the enveloping body 28e is injected onto the volume body 16e.
- the enveloping body 28e is materially connected to the volume body 16e.
- FIGS 6B and 6C show a hygiene means 10f in a schematic side view.
- the hygiene means 10f is designed as a toothbrush in the present case.
- the hygiene means 10f has at least one application unit 12f.
- the at least one application unit 12f has a head area 46f.
- the head region 46f forms a brush head of the hygiene product 10f.
- the head region 46f is designed as a toothbrush head.
- the head region 46f has, in particular, a base body designed as a bristle carrier.
- the main body of the head region 46f is formed entirely from a hard component. However, it would also be conceivable for the base body of the head region 46f to be formed from a hard component and a soft component.
- the main body of the head region 46f forms a bristle carrier.
- At least one recess 32f is formed on a front side 36f of the head region 46f.
- the at least one recess 32f is provided for receiving a bristle bundle 34f.
- the head portion 46f has a plurality of Recesses 32f.
- the recesses 32f are formed by bristle holes formed in a particle foam process. Any suitable bristles can be used as the bristles of the bristle bundles 34f, which, as described above, can be punched, for example, using the anchor punching process.
- the hygiene means 10f has the bristle bundles 34f.
- the bristle bundles 34f are connected to the application unit 12f by means of punching.
- the bristle bundles 34f are attached to the application unit 12f by means of an anchor punching process.
- the hygiene means 10f has at least one handle unit 14f.
- the hygiene means 10f also has a volume body 16f.
- the volume body 16f consists at least partially of a foamed material.
- the solid body 16f consists entirely of a foamed material.
- the volume body 16f forms the application unit 12f and the handle unit 14f.
- the application unit 12f is formed by the solid 16f.
- the handle unit 14f is formed by the volume body 16f.
- the volume body 16f has, for example, a circular cylindrical basic shape, with a central axis extending along a longitudinal axis 38f of the hygiene product 10f.
- other forms that appear sensible to a person skilled in the art are also conceivable.
- the volume body 16f is subsequently compressed at least in sections in an area of the application unit 12f.
- the volume body 16f is completely subsequently compressed in an area of the application unit 12f.
- a foamed material of the volume body 16f is compressed after the volume body 16f has been produced.
- a density of the volume body 16f is increased in sections.
- the volume body 16f is in particular compressed to a normal dimension of the application unit 12f.
- the volume body 16f is subsequently compressed, at least in sections, in a region of the grip unit 14f.
- the volume body 16f is completely subsequently compressed in a region of the handle unit 14f.
- the foamed material of the volume body 16f is compressed in a region of the handle unit 14f after the volume body 16f has been produced.
- the hygiene means 10f is produced in one process.
- the volume body 16f is produced by means of a particle foam method (cf. FIG. 6A). Subsequently, the volume body 16f is at least in sections after a Forming process condensed.
- a first compression step the volume body 16f is compressed at least in sections in a region of the application unit 12f after a shaping process (cf. FIG. 6B). Depending on the desired shape, the product can already be manufactured in this state.
- the volume body 16f is compressed at least in sections in a region of the handle unit 14f after a shaping process (cf. FIG. 6C). Compression takes place after foaming.
- the volume body 16f is deformed under pressure and heat with the aid of a stamp, with a stamp surface in particular already containing at least part of an end geometry.
- a compression takes place in particular in two steps. In a first step, the solid 16f is placed in a negative mold. Then, in a second step, a stamp is placed on the volume body 16f and presses the volume body 16f into position accordingly. The volume body 16f is compressed in the process.
- the compression takes place here, for example, in two steps, that is to say in an area of the application unit 12f and in an area of the handle unit 14f. With the compression, a further shaping of the volume body 16f takes place at the same time.
- bristle holes are formed in the application unit 12f. This can be done in particular, for example, by means of a heated stamp with a bristle hole stamp.
- the bristle bundles 34f are then punched.
- the bristle bundles 34f are preferably folded and fastened in each case in a blind hole by means of at least one anchor, in particular by means of punching. Loop punching is also conceivable.
- FIG. 7C shows a hygiene means 10g in a schematic side view.
- the hygiene means 10g is designed as a toothbrush in the present case.
- the hygiene means 10g has at least one application unit 12g.
- the at least one application unit 12g has a head region 46g.
- the head area 46g forms a brush head of the hygiene product 10g.
- the head region 46g is designed as a toothbrush head.
- the head region 46g has, in particular, a base body designed as a bristle carrier.
- a base body of the head region 46g is formed entirely from a hard component. However, it would also be conceivable for the base body of the head region 46g to consist of a hard component and a Soft component is formed.
- the main body of the head region 46g forms a bristle carrier.
- the hygiene means 10g also has a bristle plate 30g which is received by the head region 46g and which comprises a plurality of bristle bundles.
- the bristle plate 30g is formed, for example, from an AFT plate.
- a recess 32g is formed on a front side 36g of the head region 46g.
- the recess 32g is provided for receiving the bristle plate 30g.
- the bristle plate 30g is inserted into the recess 32g of the application unit 12g.
- the hygiene means 10g has at least one handle unit 14g.
- the hygiene means 10g also has a volume body 16g.
- the volume body 16g consists at least partially of a foamed material.
- the solid body 16g consists entirely of a foamed material.
- the volume body 16g forms the application unit 12g and the handle unit 14g.
- the application unit 12g is formed by the solid 16g.
- the handle unit 14g is formed by the volume body 16g.
- the volume body 16g has, for example, a circular cylindrical basic shape, a central axis extending along a longitudinal axis 38g of the hygiene product 10g.
- other forms that appear sensible to a person skilled in the art are also conceivable.
- the volume body 16g is subsequently compressed at least in sections in an area of the application unit 12g.
- the volume body 16g is completely subsequently compressed in an area of the application unit 12g.
- a foamed material of the volume body 16g is compressed after the volume body 16g has been produced.
- a density of the volume body 16g is increased in sections.
- the volume body 16g is in particular compressed to a normal dimension of the application unit 12g.
- the volume body 16g is subsequently compressed, at least in sections, in a region of the handle unit 14g.
- the volume body 16g is completely subsequently compressed in a region of the handle unit 14g.
- the foamed material of the volume body 16g is compressed in a region of the handle unit 14g after the volume body 16g has been produced.
- the hygiene agent 10g is produced in one process.
- the volume body 16g with the recess 32g is produced by means of a particle foam method (cf. FIG. 7A).
- the volume body 16g is at least after compacted in a shaping process.
- a compression step the volume body 16g is compressed in a region of the application unit 12g and the handle unit 14g after a shaping process (cf. FIG. 7B).
- a compression takes place in particular in two steps.
- the solid 16g is placed in a negative mold.
- a stamp is placed on the volume body 16g and presses the volume body 16g into position accordingly.
- the volume body 16g is compressed in the process.
- the bristle plate 30g is then inserted into the recess 32g and, for example, welded.
- FIG. 8 shows a front side 36h of a hygiene product 10h in a schematic perspective illustration.
- the hygiene means 10h is designed as an interdental brush.
- the hygiene means 10h has at least one application unit 12h. Furthermore, the hygiene means 10h has at least one handle unit 14h.
- the at least one application unit 12h has a head area 46h.
- the head area 46h forms an interdental brush head of the hygiene product 10h.
- the head region 46h has, in particular, a base body designed as a bristle carrier.
- the hygiene means 10h also has a volume body 16h.
- the volume body 16h consists at least partially of a foamed material.
- the solid 16h consists entirely of a foamed material.
- the volume body 16h at least partially forms the application unit 12h and / or the handle unit 14h.
- the volume body 16h completely forms the handle unit 14h.
- the volume body 16h has, for example, a teardrop-shaped basic shape, with a central axis extending along a longitudinal axis 38h of the hygiene product 10h. Furthermore, the volume body 16h has indentations for fingers. However, other forms that appear sensible to a person skilled in the art are also conceivable.
- the hygiene means 10h has a base body 18h connected to the volume body 16h.
- the base body 18h consists at least partially of a hard component and / or a metal.
- the base body 18h forms at least partially the application unit 12h off.
- the base body 18h forms the base body of the head region 46h of the application unit 12h.
- the volume body 16h is molded onto the base body 18h.
- the base body 18h and the volume body 16h form a form fit.
- the base body 18h partially engages in the volume body 16h.
- FIG. 9 shows a front side 36i of a flywheel 10i in a schematic perspective illustration.
- the flygienic means 10i is designed as an electric toothbrush in the present case.
- the fly control means 10i has at least one application unit 12i. Furthermore, the fly control means 10i has at least one handle unit 14i.
- the handle unit 14i is formed by an electric brush handle.
- the at least one application unit 12i is formed by an attachment brush.
- the application unit 12i is arranged on the upper side of the flygienic means 10i.
- the application unit 12i forms an uppermost point of the flygienic means 10i.
- the flygienic means 10i also has a volume body 16i.
- the volume body 16i consists at least partially of a foamed material.
- the solid body 16i consists entirely of a foamed material.
- the volume body 16i at least partially forms the application unit 12i and / or the handle unit 14i.
- the volume body 16i partially forms the handle unit 14i.
- the volume body 16i forms an outer shell of a grip area of the grip unit 14i.
- the volume body 16i has, for example, a circular-cylindrical basic shape, with a central axis extending along a longitudinal axis 38i of the flywheel 10i.
- the volume body 16i is designed as a hollow cylinder. However, other forms that appear sensible to a person skilled in the art are also conceivable.
- the flywheel device 10i has a base body 18i connected to the volume body 16i.
- the base body 18i consists at least partially of a hard component.
- the base body 18i at least partially forms the application unit 12i and / or the handle unit 14i.
- the base body 18i partially forms the handle unit 14i.
- the base body 18i forms a housing of the handle unit 14i.
- the base body 18i has an at least approximately cylindrical basic shape.
- the main body 18i forms a cylindrical housing of the handle unit 14i.
- the housing is used to accommodate a drive and an energy store of the handle unit 14i.
- the base body 18i extends along the longitudinal axis 38i along the entire handle unit 14i.
- the base body 18i consists at least partially of a soft component.
- the soft component preferably forms the housing part 76i in the area of the on / off switch.
- the volume body 16i is molded onto the base body 18i.
- the volume body 16i is produced directly on the base body 18i in a foaming process.
- the base body 18i is produced in an injection molding process, the base body 18i being foamed with the volume body 16i.
- the volume body 16i at least partially encloses the base body 18i.
- the volume body 16i encloses the base body 18i in a region of the handle unit 14i.
- the volume body 16i completely encloses the base body 18i in at least one plane perpendicular to the longitudinal axis 38i.
- the volume body 16i forms a ring.
- the base body 18i and the volume body 16i form a form fit.
- FIG. 10 shows a front side 36j of a flygienic means 10j in a schematic perspective illustration.
- the flygienic means 10j is designed as an electric toothbrush in the present case.
- the flygienic means 10j has at least one application unit 12j. Furthermore, the fly control means 10j has at least one handle unit 14j.
- the handle unit 14j is formed by an electric brush handle.
- the at least one application unit 12j is formed by an attachment brush.
- the application unit 12j is arranged on the upper side of the flygienic means 10j.
- the application unit 12j forms an uppermost point of the flygienic means 10j.
- the flygienic means 10j also has a volume body 16j.
- the volume body 16j consists at least partially of a foamed material.
- the solid body 16j consists entirely of a foamed material.
- the volume body 16j at least partially forms the application unit 12j and / or the handle unit 14j.
- the volume body 16j partially forms the handle unit 14j.
- the volume body 16j forms an outer shell of a grip area of the grip unit 14j.
- the solid 16j is formed by a plurality of spaced apart islands.
- the islands are exemplary an oval shape. However, another shape of the islands that appears sensible to a person skilled in the art would also be conceivable.
- the flygienic means 10j has a base body 18j connected to the volume body 16j.
- the main body 18j consists at least partially of a flart component.
- the base body 18j at least partially forms the application unit 12j and / or the handle unit 14j.
- the base body 18j partially forms the handle unit 14j.
- the base body 18j forms a housing of the handle unit 14j.
- the base body 18j has an at least approximately cylindrical basic shape.
- the base body 18j forms a cylindrical housing of the handle unit 14j.
- the housing is used to accommodate a drive and an energy store of the handle unit 14j.
- the base body 18j extends along the longitudinal axis 38j along the entire handle unit 14j.
- the base body 18j consists at least partially of a soft component.
- the soft component preferably forms the housing part 76j in the area of the on / off switch.
- the volume body 16j is molded onto the base body 18j.
- the volume body 16j is produced directly on the base body 18j in a foaming process.
- the base body 18j is produced in an injection molding process, the volume body 16j being foamed onto the base body 18j.
- the base body 18j and the volume body 16j form a form fit.
- FIG. 11A shows a flygienic means 10k in a schematic side view.
- the flygienic means 10k is designed as a mascara in the present case.
- the flygienic means 10k has at least one application unit 12k. Furthermore, the fly control means 10k has at least one handle unit 14k. Furthermore, the flygienic means 10k has a tank 62k. The tank 62k is used to store a mascara liquid. Furthermore, the tank 62k is used in particular to stow the application unit 12k and to hold a fluid.
- the handle unit 14k can preferably be connected to the tank 62k via a screw cap or a plug-in cap, the application unit 12k being received in the tank 62k in a connected state.
- the at least one application unit 12k has a head area 46k.
- the head region 46k forms a mascara brush head of the flygienic means 10k.
- the Head region 46k has, in particular, a base body designed as a bristle carrier.
- the head region 46k is preferably formed at least partially by a screwed-in brush.
- the hygiene means 10k also has a volume body 16k.
- the volume body 16k consists at least partially of a foamed material.
- the volume body 16k consists entirely of a foamed material.
- the volume body 16k at least partially forms the application unit 12k and / or the handle unit 14k.
- the volume body 16k completely forms the handle unit 14k.
- the volume body 16k has, for example, a cylindrical basic shape in a region of the grip unit 14k, a central axis extending along a longitudinal axis 38k of the hygiene means 10k.
- other forms that appear sensible to a person skilled in the art are also conceivable.
- the volume body 16k completely forms the handle unit 14k.
- the volume body 16k has, for example, a hollow cylindrical basic shape in a region of the tank 62k, a central axis extending along the longitudinal axis 38k of the hygiene product 10k.
- a hollow cylindrical basic shape in a region of the tank 62k, a central axis extending along the longitudinal axis 38k of the hygiene product 10k.
- other forms that appear sensible to a person skilled in the art are also conceivable.
- the hygiene means 10k has a base body 18k connected to the volume body 16k.
- the base body 18 consists at least partially of a hard component or a metal.
- the base body 18k at least partially forms the application unit 12k.
- the base body 18k forms the base body of the head region 46k of the application unit 12k.
- the base body 18k forms an inner part of the tank 62k.
- the volume body 16k is molded onto the base body 18k.
- the base body 18k and the volume body 16k form a form fit.
- the base body 18k partially engages in the volume body 16k.
- the base body 18k is encapsulated by the volume body 16k.
- the part of the base body 18k that forms the application unit 12k projects partially into the part of the volume body 16k that forms the handle unit 14k.
- the inner part of the tank 62k which is formed by the base body 18k, is completely enclosed by the part of the volume body 16k which forms an outer shell of the tank 62k.
- a jar for a cream can be created.
- the application unit of the mascara is removed for this purpose.
- the handle unit represents a lid of the can that is placed on a container.
- the container corresponds to the tank, consisting of a base body manufactured using the injection molding process, over which a volume body is foamed.
- FIG. 12 shows a rear side 44I of a hygiene product 101 in a schematic perspective illustration.
- the hygiene means 101 is designed as a razor in the present case.
- the hygiene means 101 has at least one application unit 121. Furthermore, the hygiene means 101 has at least one handle unit 141.
- the handle unit 141 has a coupling area 641 for a releasable coupling with the application unit 121.
- the at least one application unit 121 has a head area 461.
- the application unit 121 is formed by a razor blade head.
- the hygiene means 101 also has a volume body 161.
- the volume body 161 consists at least partially of a foamed material.
- the solid 161 consists entirely of a foamed material.
- the volume body 161 at least partially forms the application unit 121 and / or the handle unit 141.
- the volume body 16I partially forms the handle unit 14I.
- the volume body 16I forms part of the outer shell of a grip area of the grip unit 141.
- the volume body 161 has, for example, a circular cylinder-like basic shape, a central axis extending at least approximately along a longitudinal axis 381 of the hygiene product 101.
- other forms that appear sensible to a person skilled in the art are also conceivable.
- the hygiene means 101 has a base body 181 connected to the volume body 161.
- the base body 181 consists at least partially of a hard component.
- the base body 181 is constructed like a shell.
- the base body 181 has a recess on which part of the volume body 161 rests.
- the base body 18I at least partially forms the application unit 12I and / or the handle unit 141.
- the main body 181 forms the application unit 121.
- the base body 181 partially forms the handle unit 141.
- the base body 181 forms a core of the handle unit 141.
- the base body 181 points in a region of the handle unit 141 has an approximately U-shaped cross section.
- the base body 181 also forms the coupling region 641.
- the volume body 161 is molded onto the base body 181.
- the volume body 161 is produced directly on the base body 181 in a foaming process.
- the base body 181 is produced in an injection molding process, the base body 181 being foamed with the volume body 161.
- the volume body 161 at least partially encloses the base body 181.
- the volume body 161 encloses the base body 181 in a region of the handle unit 141.
- FIG. 13A shows a hygiene means 10m in a schematic perspective illustration.
- the hygiene means 10m is designed as a dental floss box.
- the hygiene means 10m has at least one application unit 12m.
- the application unit 12m is formed by a knife for cutting the dental floss.
- the hygiene means 10m has at least one handle unit 14m.
- the handle unit 14m is formed by a box base body for receiving a roll of dental floss.
- the application unit 12m is firmly received in the handle unit 14m.
- the application unit 12m consists, for example, of a metal, in particular a sheet metal.
- the application unit 12m can be mounted in the handle unit 14m or it can also be foamed as an insert.
- the hygiene means 10m also has a volume body 16m.
- the volume body 16m consists at least partially of a foamed material.
- the volume body 16m consists entirely of a foamed material.
- the volume body 16m forms the handle unit 14m.
- the handle unit 14m is formed by the volume body 16m.
- the volume body 16m preferably forms two half-shells 66m, 68m and a cover 70m of the handle unit 14m.
- the volume body 16m forms a first hinge 72m which connects the first half-shell 66m to the second half-shell 68m.
- the volume body 16m forms a second hinge 74m which connects the second half-shell 68m to the cover 70m.
- the hinges 72m, 74m are each formed by a film hinge.
- first and second half-shells 66m, 68m a protruding element is formed in the later inner part.
- a hollow cylinder molded, this has two functions. On the one hand, a roll of dental floss (spool with dental floss on it) is placed on it so that it serves as the center of rotation. The second function is to accommodate the protruding cylinder of the second half-shell 68m, the two half-shells 66m, 68m are folded together and the cylinder is inserted into the hollow cylinder. This fixes the half-shells 66m, 68m to one another.
- the volume body 16m is subsequently compressed in sections in a region of the handle unit 14m.
- the volume body 16m is compressed in a region of the hinges 72m, 74m.
- the foamed material of the volume body 16m is compressed in a region of the hinges 72m, 74m of the handle unit 14m after the volume body 16m has been lowered in order to form the hinges 72m, 74m each as a film hinge.
- a dental floss box can be manufactured using an injection molding process, as is the case today, and contain individual areas made of foamed material.
- a shape similar to the housing of the electric toothbrush in FIG. 10 can be created, namely, individual islands of foamed material are created, which improve the ergonomics of the product.
- FIG. 14 shows a hygiene means 10n in a schematic perspective illustration.
- the hygiene means 10n is designed as a hand broom in the present case.
- the hygiene means 10n has at least one application unit 12n. Furthermore, the hygiene means 10n has at least one handle unit 14n.
- the at least one application unit 12n has a head area 46n.
- the head region 46n has, in particular, a base body designed as a bristle carrier, to which bundles of bristles 34n are attached.
- the hygiene means 10n also has a volume body 16n.
- the volume body 16n consists at least partially of a foamed material.
- the solid 16n consists entirely of a foamed material.
- the volume body 16n at least partially forms the application unit 12n and / or the handle unit 14n.
- the volume body 16n completely forms the handle unit 14n.
- the solid 16n has, for example, an elongated basic shape, a central axis extending along a longitudinal axis 38n of the hygiene product 10n.
- the hygiene means 10n has a base body 18n connected to the volume body 16n.
- the base body 18n consists at least partially of a hard component.
- the base body 18n at least partially forms the application unit 12n.
- the base body 18n forms the base body of the head region 46n of the application unit 12n.
- the volume body 16n is molded onto the base body 18n.
- the base body 18n and the volume body 16n form a form fit.
- the base body 18n partially engages in the volume body 16n.
- FIG. 15A shows a front side 36o of a hygiene product 10o in a schematic perspective illustration.
- the hygiene means 10o is designed as a toothbrush in the present case.
- FIGS. 15B to 15G illustrate, with exploded views and views of parts of the hygiene product 10o, the structure thereof.
- the hygiene means 10o has at least one application unit 12o. Furthermore, the hygiene means 10o has at least one handle unit 14o.
- FIGS. 15A to 15G show different views and production stages of the hygiene product 10o.
- the at least one application unit 12o has a head area 46o.
- the head region 46o forms a brush head of the hygiene product 10o.
- the head region 46o is designed as a toothbrush head.
- the head region 46o has, in particular, a base body 18o designed as a bristle carrier.
- the base body 18o of the head region 46o is formed entirely from a hard component and it extends over the entire length of the application unit 12o.
- a neck area 48o forms a transition between the application unit 12o and the handle unit 14o.
- the hygiene means 10o also has a two-part volume body 16o.
- the hygiene means 10o has a first partial volume body 16.1 o and a second partial volume body 16.2o.
- the two partial volume bodies 16.1 o, 16.2o of the volume body 16o consist of a foamed material.
- the two partial volume bodies 16.1 o, 16.2o of the volume body 16o at least partially form the handle unit 14o.
- the two partial volume bodies 16.1 o, 16.2o of the volume body 16o form at least part of the outer shell of a grip area of the grip unit 14o.
- the two partial volume bodies 16.1 o, 16.2o of the volume body 16o are designed differently, so that an ergonomic shape of the grip area is formed in the finished, assembled state of the hygiene means 10o.
- the first partial volume body 16.1 o of the volume body 16o which forms a front side 36o of the application unit 12o, is provided with a thumb rest 50o, for example. This is designed in the form of a trough or a depression on the surface.
- the second partial volume body 16.2o of the volume body 16o which forms a rear side 44o of the application unit 12o, is equipped with a curved surface which, together with the other parts, forms an ergonomic application unit 12o or handle unit 14o.
- other forms that appear sensible to a person skilled in the art are also conceivable.
- the two partial volume bodies 16.1 o, 16.2o of the volume body 16o are produced independently of a base body 18o.
- the base body 18o is preferably produced using an injection molding process, while the volume bodies 16o are produced using a foaming process.
- After the production of the individual partial volume bodies 16.1 o, 16.2o they are assembled and fixed. The fixation can take place, for example, by means of a form fit.
- the two partial volume bodies 16.1 o, 16.2o of the volume body 16o are attached to the front side 36o and the rear side 44o of the base body 18o.
- the base body 18o is not completely enclosed in the present case; it also forms part of the surface. However, an embodiment in which the base body 18o is completely enclosed is possible.
- Pedestals 78o and grooves 80o are formed on the two partial volume bodies 16.1 o, 16.2o of the volume body 16o.
- the grooves 80o serve to receive a corresponding form-locking element 82o, in particular a comb, of the base body 18o and to secure the connection of the two parts against rotation.
- the grooves 80o are formed on both partial volume bodies 16.1 o, 16.2o of the volume body 16o.
- the grooves 80o designed as longitudinal grooves lie in identical planes.
- the pedestals 78o of the two partial volume bodies 16.1 o, 16.2o of the volume body 16o are alternately designed so that they each fit into a form-fit element 84o formed as a recess of the base body 18o in the assembled state.
- the platforms 78o thus alternate in the assembled state.
- the base body 18o is provided with form-fit elements 82o designed as combs and with form-fit elements 84o designed as recesses.
- the form-fit elements 82o designed as combs serve on the one hand to fix the base body 18o and the volume bodies 16o better to one another or to absorb rotational forces.
- the form-fit elements 84o designed as recesses receive the pedestals 78o of the volume bodies 16o and thus fix the bodies to one another.
- the pedestals 78o are designed alternately, so that the pedestals 78o of the front side 36o and the pedestals 78o of the rear side 44o alternately penetrate the base body 18o.
- the pedestals 78o and the form-fit elements 84o designed as recesses are designed in such a way that a form-fit connection is created between the two.
- FIG. 15G it can be seen how the hygiene means 10o looks in the assembled state at the corresponding point at the position A-A.
- the platforms 78o of the respective partial volume bodies 16.1 o, 16.2o are introduced next to one another in the base body 18o.
- the connections of grooves 80o and form-fit elements 82o designed as combs as well as the geometry of the base body 18o, which laterally forms part of the surface of the finished product, can also be seen.
- FIGS. 16A and 16B each show, in a schematic perspective illustration, a front side 36p of a hygiene product 10p.
- the hygiene means 10p is shown in the assembled state, while in FIG. 16B an exploded view shows the structure.
- the two parts of the hygiene device 10p, a base body 18p and a volume body 16p are produced independently of one another.
- the base body 18p is preferably manufactured using an injection molding process, while the volume body 16p is manufactured using a foaming process. After the individual parts have been manufactured, they are assembled and fixed.
- the interface area between the base body 18p and the volume body 16p is shaped as a cylindrical blind hole in the volume body 16p and as a barb structure in the base body 18p.
- the base body 18p with the barb structure is pressed into the blind hole of the volume body 16p.
- the stop body on the base body 18p ensures that the base body 18p is not pressed too hard into the blind hole during assembly. This also prevents the base body 18p from being pressed further into the blind hole during use. Due to the barbed structure, the base body 18p is anchored in the blind hole and can only be removed again in a destructible manner, i.e. the structure is torn and safe assembly can no longer take place.
- Form-fit element 22
- Form-fit element 24
- Form-fit element 26
- Cage element 28
- Envelope body 30
- Small bristle plate 32
- Recess 34
- Bundle of bristles 36
- Front side 38
- Longitudinal axis 40
- Height axis 42
- Main direction of extent 44
- rear side 46
- Head area 48
- Neck area 50
- Thumb rest 52
- Part body 54
- Recess 56 Part base body 58 Longitudinal web 60
- Cross web tank 60
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Manufacturing & Machinery (AREA)
- Brushes (AREA)
Abstract
L'invention concerne un produit d'hygiène, en particulier un produit d'hygiène bucco-dentaire, comprenant au moins une unité d'application (12a ; 12b ; 12c ; 12d ; 12e ; 12h ; 12i ; 12j ; 12k ; 12l ; 12n ; 12o ; 12p), au moins une unité de préhension (14a ; 14b ; 14c ; 14d ; 14e ; 14h ; 14i ; 14j ; 14k ; 14l ; 14n ; 14o ; 14p) reliée à l'unité d'application (12a ; 12b ; 12c ; 12d ; 12e ; 12h ; 12i ; 12j ; 12k ; 12l ; 12n ; 12o ; 12p), et au moins un corps en volume (16a ; 16b ; 16c ; 16d ; 16e ; 16h ; 16i ; 16j ; 16k ; 16l ; 16n ; 16o ; 16p) qui forme au moins partiellement l'unité d'application (12a ; 12b ; 12c ; 12d ; 12e ; 12h ; 12i ; 12j ; 12k ; 12l ; 12n ; 12o ; 12p) et/ou l'unité de préhension (14a ; 14b ; 14c ; 14d ; 14e ; 14h ; 14i ; 14j ; 14k ; 14l ; 14n ; 14o ; 14p) et qui est constitué au moins partiellement d'un matériau expansé. Selon l'invention, le produit d'hygiène comprend au moins un corps de base (18a ; 18b ; 18c ; 18d ; 18e ; 18h ; 18i ; 18j ; 18k ; 18l ; 18n) relié au corps en volume (16a ; 16b ; 16c ; 16d ; 16e ; 16h ; 16i ; 16j ; 16k ; 16l ; 16n ; 16o ; 16p), lequel corps de base forme au moins partiellement l'unité d'application (12a ; 12b ; 12c ; 12d ; 12e ; 12h ; 12i ; 12j ; 12k ;12l ; 12n ; 12o ; 12p) et/ou l'unité de préhension (14a ; 14b ; 14c ; 14d ; 14e ; 14h ; 14i ; 14j ; 14k ; 14l ; 14n ; 14o ; 14p), ledit au moins un corps en volume (16a ; 16b ; 16c ; 16d ; 16e ; 16h ; 16i ; 16j ; 16k ; 16l ; 16n ; 16o ; 16p) étant formé sur ledit au moins corps de base (18a ; 18b ; 18c ; 18d ; 18e ; 18h ; 18i ; 18j ; 18k ; 18l ; 18n ; 18o ; 18p).
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP20175812.5A EP3912512A1 (fr) | 2020-05-20 | 2020-05-20 | Agent d'hygiène, en particulier agent d'hygiène buccale |
PCT/EP2021/063487 WO2021234099A1 (fr) | 2020-05-20 | 2021-05-20 | Produit d'hygiène, en particulier produit d'hygiène bucco-dentaire |
Publications (1)
Publication Number | Publication Date |
---|---|
EP4153004A1 true EP4153004A1 (fr) | 2023-03-29 |
Family
ID=70802685
Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP20175812.5A Pending EP3912512A1 (fr) | 2020-05-20 | 2020-05-20 | Agent d'hygiène, en particulier agent d'hygiène buccale |
EP21730111.8A Pending EP4153004A1 (fr) | 2020-05-20 | 2021-05-20 | Produit d'hygiène, en particulier produit d'hygiène bucco-dentaire |
Family Applications Before (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP20175812.5A Pending EP3912512A1 (fr) | 2020-05-20 | 2020-05-20 | Agent d'hygiène, en particulier agent d'hygiène buccale |
Country Status (3)
Country | Link |
---|---|
US (1) | US20230240436A1 (fr) |
EP (2) | EP3912512A1 (fr) |
WO (1) | WO2021234099A1 (fr) |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US12029311B2 (en) * | 2020-07-17 | 2024-07-09 | Sage Products, Llc | Universal oral care tool |
Family Cites Families (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3770033A (en) * | 1971-12-10 | 1973-11-06 | C Gavillet | Molded handle for impact tools |
US4283808A (en) | 1979-09-17 | 1981-08-18 | Beebe Lee M | Gripping device for tooth brushes |
DE19530057A1 (de) | 1995-08-16 | 1997-02-20 | Coronet Werke Gmbh | Bürste und Verfahren zu ihrer Herstellung |
US5862571A (en) * | 1997-01-10 | 1999-01-26 | Hp Intellectual Corp. | Comfort grip handle and process |
US20030172498A1 (en) * | 2002-03-15 | 2003-09-18 | Polzin Bruce C. | Apparatus to cushion and dampen vibration and method |
DE202004015133U1 (de) | 2004-09-27 | 2004-11-25 | C. Hilzinger-Thum Schleif- Und Poliermittelwerk Gmbh | Bürste |
DE202008008841U1 (de) * | 2008-09-18 | 2008-12-11 | Matsumoto, Keiko | Werkzeug für die Körperpflege oder Kosmetik |
US9138048B2 (en) | 2013-03-05 | 2015-09-22 | F.T.G.G., Llc | Abbreviated toothbrush handle |
CN111067240B (zh) * | 2014-12-23 | 2022-05-27 | 高露洁-棕榄公司 | 具有多部件柄部的口腔护理器具 |
DE102019204397A1 (de) | 2019-03-28 | 2020-10-01 | M+C Schiffer Gmbh | Bürste, insbesondere Zahnbürste, und Verfahren zu deren Herstellung |
-
2020
- 2020-05-20 EP EP20175812.5A patent/EP3912512A1/fr active Pending
-
2021
- 2021-05-20 WO PCT/EP2021/063487 patent/WO2021234099A1/fr unknown
- 2021-05-20 EP EP21730111.8A patent/EP4153004A1/fr active Pending
- 2021-05-20 US US17/926,830 patent/US20230240436A1/en active Pending
Also Published As
Publication number | Publication date |
---|---|
US20230240436A1 (en) | 2023-08-03 |
WO2021234099A1 (fr) | 2021-11-25 |
EP3912512A1 (fr) | 2021-11-24 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
EP4042902B1 (fr) | Produit de brosse | |
EP3248569B1 (fr) | Porte-fil dentaire | |
EP2661191B1 (fr) | Brosse à dents comportant des soies injectées | |
EP1924167B1 (fr) | Poignee de brosse, notamment de brosse a dents | |
WO2021069693A2 (fr) | Produit d'hygiène bucco-dentaire | |
WO2014005659A1 (fr) | Procédé de fabrication de brosses, notamment de brossettes interdentaires, et brosses, notamment brossettes interdentaires, et groupe de produits composés de plusieurs brosses | |
WO2014005662A1 (fr) | Brosse à usage domestique ou brosse pour soins corporels à poils moulés par injection et moule de moulage par injection utilisé pour leur production | |
WO2022049258A2 (fr) | Produit d'hygiène corporelle | |
WO2021234099A1 (fr) | Produit d'hygiène, en particulier produit d'hygiène bucco-dentaire | |
EP3902442A1 (fr) | Brosse à dents | |
WO2021165196A2 (fr) | Système de brosse à emboîtement | |
EP3420848B1 (fr) | Moyen d'hygiène buccale et capuchon de protection pour un moyen d'hygiène buccale | |
EP3833219B1 (fr) | Moyen d'hygiène buccale, en particulier brosse à dents | |
WO2023166070A1 (fr) | Produit de soins personnels | |
DE102022113751A1 (de) | Mundhygienemittel, insbesondere Zahnbürste | |
EP1764011B1 (fr) | Manche pour brosse à dent |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
STAA | Information on the status of an ep patent application or granted ep patent |
Free format text: STATUS: UNKNOWN |
|
STAA | Information on the status of an ep patent application or granted ep patent |
Free format text: STATUS: THE INTERNATIONAL PUBLICATION HAS BEEN MADE |
|
PUAI | Public reference made under article 153(3) epc to a published international application that has entered the european phase |
Free format text: ORIGINAL CODE: 0009012 |
|
STAA | Information on the status of an ep patent application or granted ep patent |
Free format text: STATUS: REQUEST FOR EXAMINATION WAS MADE |
|
17P | Request for examination filed |
Effective date: 20221215 |
|
AK | Designated contracting states |
Kind code of ref document: A1 Designated state(s): AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR |
|
DAV | Request for validation of the european patent (deleted) | ||
DAX | Request for extension of the european patent (deleted) |