EP3908410A1 - Apparatus for applying portions of a melt mass and method for generating a fixing region in a lightweight construction element - Google Patents

Abstract

The invention relates to an apparatus for applying portions of a melt mass. The apparatus comprises a tank for providing a melt mass, which tank has at least one outlet opening which can be regulated by a valve; an application head having an inlet opening and an application opening; a channel which is fluidically connected to the outlet opening of the tank and the inlet opening of the application head; a pressure source for conveying melt mass out of the tank through the outlet opening thereof, via the channel to the application opening of the application head; and a heating block. The tank is arranged on the heating block so as to be thermally coupled, and the channel extends, thermally coupled, through the heating block. The invention further relates to an application attachment for the apparatus, a tank for the apparatus, and a filler mixture for producing a melt mass. The invention furthermore relates to a method for generating a fixing region in a lightweight component and a lightweight component having a fixing region.

Description

Device for applying portions of a melt mass and method for producing a

Fixing area in a lightweight element

The present invention relates to a device for applying portions of a melt mass, a tank for such a device and an application attachment for such a device. Further concerns the

The present invention relates to a filler mixture for producing a melt mass, a method for producing a

Fixing area in a lightweight element and a

Light construction element with fixing area.

In the course of the lifestyle change of the past decades and the associated change in consumer behavior, a trend can be observed in the living area, which shows away from expensive solid wood furniture towards less expensive lightweight construction furniture. These no longer have to last for generations, but can go with fashion and

to be replaced regularly. To such

However, to be able to produce inexpensive furniture profitably, the individual components of the furniture must be inexpensive, but still for the intended one

Lifetime stable, can be manufactured. Common individual components are, for example, lightweight components, such as lightweight panels, which usually have a core made of wood wool and binder or even a core made of a kind of bound cardboard. But also clamping plates of different quality are in the sense of this invention counted among the lightweight panels. Commercial lightweight panels include panels made of, for example

Corrugated cardboard, panels with honeycomb structures made of cardboard, panels with a foamed PU middle layer and panels with a honeycomb reinforcement in the middle layer and cover layers made of all-plastic. In order to look more like a solid wood component, lightweight building boards are often glued or pressed on at least two sides with a laminate, so that the core of the board is "sand-weighted" between the laminates. Such lightweight panels, some of which also under the

The term wood fiber boards are known

decisive disadvantage. If they are used for furniture construction, it is hardly possible to use anchors, e.g. Attach dowels or screws in such a way that they hold well in the non-solid structure of the lightweight component. A previously known solution to this problem is to attach additional fittings to the points provided for fastening in order to ensure that dowels, screws and the like are held securely. However, this known solution causes additional costs, on the one hand in the form of material costs, on the other hand in the form of additional work steps.

This in turn has a negative impact on the price of the

End product or the associated profit margin.

The object of the present invention is to provide a more economical way of amplifying

To provide lightweight components. In essence, this object is achieved by applying a melt mass into a recess in a

Lightweight component. On the one hand, the melt mass at least partially fills the recess, on the other hand it also penetrates into regions of the lightweight component that are adjacent to the recess. By cooling the hardens

Enamel mass and ultimately forms a local

Reinforcement in the area of the recess

Lightweight component. This so-called fixing area is strong enough to hold screws, dowels etc. securely.

One aspect of the invention relates to a device for applying portions of a melt mass,

for example in a recess of a lightweight component.

The device comprises a tank for providing melt mass, which tank has at least one outlet opening that can be regulated via a valve. Furthermore, the device comprises an application head with a

Inlet opening and an application opening and one

Channel which is in fluid communication with the outlet opening of the tank and the inlet opening of the application head. The device also includes a pressure source for conveying melt mass from the tank through its outlet opening via the channel to the application opening of the application head. In addition, the device comprises a heating block. The tank is thermally coupled

arranged on the heating block and the channel runs thermally coupled through the heating block. Such a device is particularly compact and therefore easy to use. Such a compact device is particularly suitable for automated work processes and thus also for robotics or CNC use. Previous devices with a comparable suitability led the melt mass continuously over one with one

Application head connected hose to which hose had to be heated separately. The device can clearly become obsolete

operate more energy-efficiently. In addition, the hose does not need to be cleaned when changing the type of enamel (e.g. a different color). Continuous operation is also no longer imperative since the

Melting mass can be fed from the tank via the valve so that it can be regulated in portions

Application and thus an interval operation is possible. Because the duct runs at least partially through the heating block in a thermally coupled manner, the duct becomes clogged with melt mass hardened by a drop in temperature

prevented. The canal should be kept as short as possible. The thermal coupling between the heating block and the tank enables the melt mass to be generated by melting a filler mixture in the tank. The tank can only rest on the heating block or can be partially or completely embedded in the heating block. So the size of the area over which

Heat transfer should take place, be modified. The heating block is therefore a central element for that

Deploy and transport the enamel mass. Accordingly, the heating block is preferably made of a good heat-conducting material, such as a metal, for example of brass, aluminum or stainless steel

Steel. The heating block is heated, for example, by means of one, two or more heating rods, which can be introduced into recesses in the heating block and can thus be quickly replaced in the event of a defect.

In one embodiment of the device, which can be combined with any of the previously mentioned and still to be mentioned embodiment, if not in contradiction, the application head is arranged thermally coupled to the heating block.

In this embodiment, the tank, channel and

Application head a unit thermally coupled by means of the heating block. By also thermally coupling the application head, it is prevented from clogging with hardening enamel or an extra

Heating element for the application head is required. The application head can, for example, be in direct contact with the heating block or partially or completely embedded in it.

In one embodiment of the device, which can be combined with any of the previously mentioned and still to be mentioned embodiment, if not in contradiction, the tank is an exchangeable tank which is designed to be detachable from the heating block and re-attachable to the heating block. In this embodiment, the tank comprises the valve regulating the outlet opening. With such a tank, it is possible to take the tank off the heating block and fill it with another type of filler at another location. It is also possible to provide several such tanks filled with different types of filler mixture and to mount the tank with the desired filler mixture on the heating block as required.

In one embodiment of the device, which can be combined with any of the previously mentioned and still to be mentioned embodiments, if not in contradiction, the valve arranged on the tank is configured such that it closes automatically when the tank is not in a desired position Regarding the heating block. With the help of such a valve it is prevented that residual melt mass still in the tank at one

Tank changes can drip out. A target position can be defined, for example, by a recess in the heating block which is tailored to the tank bottom or the lower area of the tank, in which recess the tank bottom or the lower area of the tank can be positioned precisely. The recess is then e.g. with an agent

equipped, which is able to open the valve when the tank is correctly installed. This can be, for example, a protrusion, which one by means of a spring

pre-tensioned locking pin of the valve is displaced and thus the outlet opening of the tank opens (comparable to, for example, the water tank of a coffee machine). If, on the other hand, the tank is not correctly positioned, the protrusion can Do not move the locking pin against the spring force, the outlet opening remains closed.

In one embodiment of the device, which can be combined with any of the previously mentioned and still to be mentioned embodiment, if not in contradiction, the pressure source is a piston pump.

Alternatively, e.g. a gear pump can also be used. However, this has various disadvantages compared to the piston pump, in particular it requires an extra servo motor to drive what the device

designed more complicated than necessary.

In one embodiment of the device, which can be combined with any of the previously mentioned and still to be mentioned embodiments, if not in contradiction, the pressure source is operatively connected to the tank in such a way that it transports molten mass into the channel when the outlet opening is open. The pressure source is also such

operatively connected to the channel that they melt mass from the channel to the

Application head, in particular to the application opening, transported.

E.g. The pressure source can be a piston pump, which is able to draw a portion of melt mass from the tank into the channel when the valve is open. On the other hand, with the valve of the tank closed, the portion of melt mass from the tank can be passed through Press out the application head and thus inject it into a recess in a lightweight component located below the application head. The piston pump itself ensures that the portion of melt mass is transported by means of an overpressure and a negative pressure, but is not itself added with melt mass and therefore does not have to be cleaned even when changing the filler mixture.

In one embodiment of the device, which can be combined with any of the embodiments already mentioned and still to be mentioned, if not in contradiction, the application head is designed to be pivotable.

In the event that one with a fixing area too

lightweight construction element has a recess, e.g. Bore, whose central axis is not parallel to the central axis of the application head, is a

Swiveling application head is advantageous because it can then be aligned parallel to the central axis of the recess and thus ensures a uniform, symmetrical distribution of the melt mass in the recess and the areas of the lightweight component surrounding the recess. The application head can preferably be swiveled slightly above 0 ° up to and including 2 °, since it is so typical

Tolerances which apply when drilling holes from

Lightweight elements occur, can be compensated. A pivotability is preferably given in two spatial directions and can be fixed, for example, on an axis leading centrally through the channel. In one embodiment of the device, which can be combined with any of the previously mentioned and yet to be named embodiment, if not in contradiction, the device comprises a first plate with a

Through opening, in which through opening the

Application head is at least partially arranged.

The through opening allows application of the

Melt mass through the first plate. The plate itself makes it possible, for example, to fix the position of a lightweight component, in the recess of which enamel is to be applied. Furthermore, the first plate can cool the lightweight component and thus lead to faster solidification of the applied melt mass. Optionally, the first plate can also be actively cooled and not only used as passive cooling. In addition, the first plate can have a sealing effect and prevent us from melting material escaping to the side of the application opening and not being applied exclusively into the recess of the lightweight component. In order to optimize the sealing, cooling and / or fixing effect, the first plate, in particular the surface of the first plate to be brought into contact with the lightweight component, can be modified accordingly. For example elastomeric coatings and / or particularly good heat-conducting

Layers are applied or the entire first plate made of such an elastomeric and / or highly conductive

Material. Also e.g. a

Coating, especially only partial coating, made of rubber or another material with a high

Stiction coefficients are used to produce a to achieve optimal fixation. The through opening is preferably at right angles through the center of the upper and lower large surface of the plate and is arranged so that the central axis through the

Through opening is parallel to the central axis of the application head and / or to the central axis of the

Channel.

In one embodiment of the device, which can be combined with any of the previously mentioned and still to be mentioned embodiment, if not in contradiction, the first plate is arranged such that it is the

Application opening surrounds.

Accordingly, the application opening comes to lie within the through opening of the first plate. The first plate thus protrudes through the application opening.

In one embodiment of the device, which can be combined with any of the previously mentioned and still to be mentioned embodiments, if not in contradiction, the first plate is arranged such that it is flush with the application opening.

Accordingly, the application opening extends exactly to that surface of the first plate which points away from the remaining elements of the device, that is to say which in use is brought into contact with the lightweight component. In one embodiment of the device, which can be combined with any of the previously mentioned and still to be mentioned embodiment, if not in contradiction, the first plate is arranged such that the

Application opening protrudes over the first plate.

Accordingly, only a part, in particular a middle part, of the application head runs inside the

Through opening of the first plate. The

Application opening does not count towards this part or

middle part.

In one embodiment of the device, which can be combined with any of the embodiments already mentioned and yet to be mentioned, if not in contradiction, the first plate is arranged interchangeably.

Depending on requirements, a first panel can have different sizes, thicknesses, coatings, etc., so that there are first panels which are particularly preferred in combination with certain lightweight construction elements. The interchangeable arrangement means that the first plate can be replaced quickly, and so is the application process

be optimized.

In one embodiment of the device, which can be combined with any of the embodiments already mentioned and yet to be mentioned, if not in contradiction, the first plate is arranged to be movable. Movable can mean on the one hand that the height of the plate can be changed relative to the application opening, on the other hand the plate can also be pivoted

be arranged. Thus, the position of the application opening relative to the through opening in the plate remains the same, but the position of the central axis of the through opening relative to the central axis of the application head and / or to the central axis of the channel changes. Especially for lightweight components, the surface of which does not have a normal that is parallel to the central axis of the through opening in the (immovable)

Standard orientation of the first plate or for that

Processing of various lightweight components, e.g. Lightweight panels of different thickness, this movable embodiment is preferred. In particular, a pivotability of somewhat larger 0 ° (e.g. 0.1 °) up to and including 2 ° is preferred. The pivotability can be related here to the central axis of the channel and / or to the central axis of the application head.

In one embodiment of the device, which can be combined with any of the embodiments already mentioned and still to be mentioned, if not in contradiction, the first plate is over springs, in particular over four

Springs, arranged.

The springs serve in particular for a movable arrangement of the first plate and make it easier to attach it, for example to the heating block. On this is the first plate preferably arranged in a non-thermally coupled manner.

In one embodiment of the device, which can be combined with any of the previously mentioned and yet to be named embodiment, if not in contradiction, the device comprises a second plate, which, in the application direction defined by the application opening, below the first plate, essentially parallel to the first Plate and is spaced from the application opening.

With the aid of this embodiment, a lightweight component can be "sanded" between the first and the second plate and thereby fixed. Furthermore, the second plate can provide additional passive or active cooling (ie the second plate is cooled). In the event that the recess in the Light component is a through hole or the like, the second plate can also serve as a seal and prevent melt in the direction of application from the recess of the

Light construction element drips. The second plate can also be arranged directly on at least one of the other components (e.g. heating block) of the device, or it can be structurally separate from these.

In one embodiment of the device, which can be combined with any of the previously mentioned and still to be mentioned embodiments, if not in contradiction, the second plate has one in the direction of the application opening facing surface, which comprises silicone and / or is at least partially elastic.

With a surface designed in this way, a

optimized sealing effect but also an optimized one

Fixing effect can be achieved, as already explained in connection with the first plate. All of the design variants described for the first plate can be transferred analogously to the second plate and vice versa.

In one embodiment of the device, which can be combined with any of the embodiments already mentioned and to be mentioned, if not in contradiction, the distance between the first plate and the second plate can be changed, in particular in that the second plate is arranged to be movable.

With the help of such an embodiment, the device can be used for lightweight components of different dimensions. As already described, the first plate can be arranged to be movable and / or it is the second plate which is designed to be movable,

for example by being arranged on a height-adjustable and / or pivotable base.

In one embodiment of the device, which can be combined with any of the embodiments already mentioned and yet to be mentioned, if not in contradiction, the first plate has a surface pointing into the through the application opening defines the application direction, which surface is smooth or has a profile.

Such surface designs allow the first plate, but also the second plate, to be adapted to the surface design of the lightweight components, so that

Heat dissipation, fixation and / or sealing effect can be optimized.

In one embodiment of the device, which can be combined with any of the previously mentioned and still to be mentioned embodiment, if not in contradiction, the device comprises a mixing valve which is arranged along the channel.

Additives such as Catalysts for

accelerated curing of the enamel, which should not already be part of the filler mixture, is added before the actual application of the enamel. If such a mixing valve is available, it can be useful for better mixing, e.g. to be provided with a stirrer or mixer or to form the channel at least partially in a spiral shape or as a mixing tube.

In one embodiment of the device, which can be combined with any of the previously mentioned and still to be mentioned embodiment, if not in contradiction, the device comprises a lifting and lowering device which is designed to remove the tank, the Application head, the channel, the pressure source and the

Raise and lower the heating block.

Furthermore, the lifting and lowering device depending on

Execution also raise and lower the first plate and / or the second plate. Especially with a permanently installed device, the lifting and

Lowering device the ability to process a maximum range of different lightweight components.

It was a not permanently installed

Device, the lifting and lowering can also be carried out manually by a worker.

It should be noted that the device

is particularly suitable for applying a portion of enamel to produce a fixing area in one

Lightweight component, but is not limited to such an application.

One aspect of the invention relates to an application attachment for a device according to the invention. In a

preferred embodiment of the device, its application head comprises an application attachment as described below.

The application attachment comprises at least one

Application opening that defines an application direction. This application opening is preferred

identical to the application opening of the application head. Furthermore, the application attachment comprises a projection which protrudes in the direction of application and is adjacent to the at least one application opening.

The projection has a dimension smaller than the recess of the lightweight component, so that the projection can be at least partially or completely positioned in the recess. For this purpose, the lightweight component and the application head are aligned with one another comprehensively before the injection of the melt mass. If the enamel is now applied and hardens, a melt mass vacancy remains

Recess back. This can then be used to later attach dowels, screws or other fasteners and, for example, to connect several lightweight components to each other, e.g. to create a piece of furniture.

The application attachment can be designed as a separate part which can be connected to the rest of the application head (two-part or even multi-part design).

The application attachment can also be exchanged

can be designed so that depending on the application, the appropriate attachment (e.g. different design of the projection in terms of length, diameter, material, shape, etc.).

The attachment can also be an integral part of the application head (one-piece design). Of the

The projection can be made of the same material as the

rest of the essay, but it can also be made of a different material, for example a material on which the

Enamel mass adheres poorly, but of course it still has to be temperature-resistant (e.g. Teflon). The protrusion can be designed to be exchangeable, so that it is not the application attachment but only the protrusion that has to be exchanged for specific applications.

In one embodiment of the application attachment, which can be combined with any of the embodiments already mentioned and to be mentioned, if not in contradiction, the application attachment comprises at least two, in particular three, four or five,

Application openings, wherein the application openings are preferably arranged symmetrically around the projection.

Such an application head ensures a particularly uniform introduction of the melt mass into the

Recess of the lightweight component, so that the fixing area formed by the hardened enamel is particularly stable and stable.

In one embodiment of the application attachment, which can be combined with any of the embodiments already mentioned and to be mentioned, if not in contradiction, the projection tapers in

Application direction considered.

As a result of this shape, the projection, for example in the form of a pin, can be removed particularly well from the recess after the melt has been applied. In one embodiment of the application attachment, which with each of those already mentioned and yet to be named

Embodiment can be combined, if not in contradiction, the projection has a diameter of 0.1 cm to 1.0 cm inclusive,

preferably from including 0.45 cm to including 0.55 cm.

Such dimensioning allows that

commercially available screws and dowels can be attached directly to the lightweight component without further processing after the fixing area has been created.

Another aspect of the invention relates to a tank for a device according to the invention. In a preferred embodiment of the device, it comprises a tank as described below.

The tank has a tank wall which is divided into at least a first area of a first thermal conductivity and a second area of a second thermal conductivity. The first thermal conductivity is higher than the second thermal conductivity. The first area comprises at least one inwardly projecting rib which is thermally coupled to the first area. Furthermore, the first area tapers at least partially towards an outlet opening.

A tank designed in this way is particularly suitable for melting the portions in the tank in portions To achieve filler mixture, so as to serve portions

To provide melt mass. The tank is preferably installed in the device such that the first

The area is thermally coupled to the heating block. The first area is heated particularly strongly, whereas the second area is only supplied with heat via the first area and because of the poorer area

Thermal conductivity less well heated. The filler mixture in the second area is not yet melted in this way. The first area shows e.g. a good thermal conductivity of, for example, greater than or equal to 50 W / (m * K), in particular greater than or equal to 100 W / (m * K), preferably greater than or equal to 200 W / (m * K). Aluminum e.g. has a thermal conductivity of approx. 236 W / (m * K) and is therefore suitable. The second area e.g. a less good thermal conductivity of, for example, less than 50 W / (m * K), in particular less than or equal to 20 W / (m * K), preferably less than or equal to 10 W / (m * K). e.g. PEEK or PTFE have a thermal conductivity of less than 0.25 W / (m * K) and are therefore well suited. The at least one rib projecting inwards ensures a larger one

Surface and thus for a faster melting of the filler mixture. If several ribs are present, these are preferably arranged symmetrically with respect to the outlet opening, so that the latter is evenly supplied with melt mass. For example, the ribs can be arranged in two rows, the rows each being on different sides with respect to the outlet opening. One row in particular has between four and ten ribs. The ribs can be made in one piece with the be formed in the first area and accordingly be of the same material. However, the ribs can also be formed separately and then screwed to the first area or otherwise on the inside thereof

have been attached. Again, the ribs can be made of the same material as the first area, but they can also be made of a different material or one

Be material mixture, in particular from one or one, which has a different heat conduction (larger or smaller) than the first region. This makes it possible to modify the melting process. The ribs can also be interchangeable in order to adapt the tank to specific melting requirements (more ribs, fewer ribs, different distribution of the ribs, ribs made of a different material, etc.). The taper ensures that melt mass collects at the outlet opening due to gravity and can enter the channel from there when the valve is open.

In one embodiment of the tank, which can be combined with any of the previously mentioned and still to be mentioned embodiments, unless the conflicting, the first region of the tank forms a cone.

This will make collecting and subsequent

Further transport of the melt mass further optimized.

In one embodiment of the tank, which can be combined with any of the previously mentioned and still to be mentioned embodiment, if not in contradiction, the second area is an isolation area which is on adjoins the first area and is preferably continuous, that is, a continuous one

Isolation area.

By making the second area such a bad one

Has thermal conductivity that it is already a

Insulation area, the second area does not heat up at all, so that it is in this area

existing filler mixture does not begin to melt. Such poor thermal conductivity is, for example, less than or equal to 5 W / (m * K), in particular less than or equal to 2

W / (m * K), preferably less than or equal to 1.0 W / (m * K) or even less than or equal to 0.5 W / (m * K). For example, PEEK, PTFE, Teflon or thermosets such as bakelite are suitable. In addition to the low thermal conductivity is a

Heat resistance of the material advantageous.

In one embodiment of the tank, which can be combined with any of the embodiments already mentioned and still to be mentioned, if not in contradiction, the second area adjoins a third area. This third area has a third thermal conductivity that is greater than the thermal conductivity of the second area. The third thermal conductivity can, for example, be the same size as the thermal conductivity of the first area.

Such an embodiment can be advantageous, for example, if a particularly high-quality and therefore expensive material is provided for the second area. For example, the first and third areas can do well from a cheaper one

be made of heat conductive material and only be completely separated from one another by a narrow second region.

A supplementary aspect of the invention relates to a method for producing a fixing area in one

Lightweight element. This method can be operated, for example, using a device according to the invention.

In addition to melting a filler mixture a little at a time in order to provide a portion of melted mass, the method also comprises providing one

Lightweight construction element with at least one recess and an injection of the portion of melt mass using a

Pressure source in the recess of the lightweight component.

With the aid of the method, a fixing area can be created in the area of the recess of the lightweight component. By melting in portions, a quick and

uncomplicated change to filler mixture forming the melt mass in the molten state.

A filler mixture according to the invention, which is described in more detail below, is preferably used.

In one embodiment of the method, which can be combined with any of the embodiments already mentioned and yet to be mentioned, if not in contradiction, the injection of the portion of melt comprises Suck in the portion of enamel followed by one

Squeeze out the portion of enamel.

In this way, the melt can be applied in portions in a particularly preferred manner.

In one embodiment of the method, which can be combined with any of the previously mentioned and still to be mentioned embodiment, if not in contradiction, the method comprises one-sided contacting of the lightweight component using a first plate for

Positioning the lightweight component and / or for sealing the area of the lightweight component around the at least one recess and / or for cooling at least a part of the lightweight component, preferably the area of the

Light structural element around the at least one recess.

By creating a contact between the

Lightweight element and the first panel can do that

Lightweight construction element positioned, but also fixed in its position. Furthermore, the lightweight component can be sealed, preferably around the area of the recess, so that enamel can be applied in a targeted manner and does not occur at undesired points. The lightweight component can also be cooled by means of the first plate (passively or also actively), so that the melt mass can harden faster due to a decrease in temperature and is also more quickly available for further processing. In one embodiment of the method, which can be combined with any of the embodiments already mentioned and yet to be mentioned, if not in contradiction, the method comprises two-way contacting of the lightweight component. On the one hand using a first plate for positioning the lightweight component and / or

Sealing a region of the lightweight component around the at least one recess and / or for cooling at least a part of the lightweight component. On the other hand, using a second plate to position the

Lightweight component and / or for sealing an area of the lightweight component around the at least one recess

and / or for cooling at least part of the

Lightweight component. The lightweight component is sandwiched between the first plate and the second plate.

In this way, the lightweight component can be cooled and / or fixed or positioned and / or sealed particularly efficiently. In particular, contacting by means of a second plate is useful for recesses in the

Lightweight components that are completely continuous, otherwise melt could run out of this recess.

An additional aspect of the invention relates to a

polymer-based thermoplastic filler mixture for

Provision of the melt mass, which can be used to create a fixing area in a lightweight component. The filler mixture can be melted and applied by the device according to the invention. The filler mixture according to the invention can also

Procedures are used.

The filler mixture is based on a basic mixture of a polymer component, a wax component and one

Resin content.

The polymer portion can include homopolymers and / or copolymers. According to the invention, the use of copolymers is preferred. Copolymers are polymers that are made up of

assemble different monomers, which

regular statistical or stochastic in the

Polymer molecule are built. Homopolymers, on the other hand, are polymers that only consist of the same monomers

put together .

The polymer portion, which serves, inter alia, as a binder in the filler mixture according to the invention, can be polycondensates, e.g. Polyester or polyadducts, e.g. B. polyurethanes or preferably polymers which are obtainable by free-radical or ionic polymerization of ethylenically unsaturated monomers (in short: polymers).

The following copolymers are particularly suitable:

Vinyl acetate copolymer (VAc copolymer), ethene-ethyl acrylate copolymer (E / EA), ethene-vinyl acetate copolymer (E / VA),

Ethyl methacrylate (EMA), ethylene butyl acrylate (EBA),

Ethylene acrylic acid (EAA). The use of E / VA is particularly preferred. One or more of the following waxes are used as the wax component: polyolefin wax (polyethylene wax or polypropylene wax), amide wax, montan wax,

Hydrocarbon wax, E / VA wax and mixtures or modifications of these waxes. The wax content can be as

Granules, powder or flake form. Liquid waxes can also be used. Both homopolymeric and copolymeric waxes are suitable. Waxes made with the help of so-called

Metallocene catalysts are produced (hereinafter called metallocene waxes). Preference is given to the use of so-called base waxes, i.e. low-viscosity (max. 10 mPa.s at 130 ° C) pure hydrocarbon waxes in

Combination with at least one metallocene wax,

modified in particular a polyethylene wax with maleic anhydride, a polypropylene wax with

Maleic anhydride modified, or a propylene-ethylene copolymer wax. This is particularly preferred

Use of base wax in combination with all three of the explicitly mentioned metallocene waxes.

In one embodiment, the total share settles

(Mass fraction) of wax in the filler mixture together from approx. 3 parts base wax, approx. 4 parts polyethylene wax modified with maleic anhydride, approx. 2 parts

Polypropylene wax modified with maleic anhydride and approx. 3 parts propylene-ethylene copolymer wax.

Relative to the total mass of the filler mass, the wax content makes up almost half, i.e. around 40 - 50%. Natural resins and modified natural resins can be used as the resin component. Unmodified hydrocarbon resins or aromatic hydrocarbon resins (eg resin esters) are particularly suitable. The

Hydrocarbon resins can be in liquid or solid form. Hydrogenated aliphatic hydrocarbon resins, such as e.g. Polymethylstyrene co-indene.

The basic mixture of hydrocarbon resin, wax and polymer becomes at least one functional additive

added. Such additives are referred to herein as

Modifier called.

Modifiers are added to the base mix to add certain properties to the filling task

to adapt, such as:

Reduction of water and moisture resistance Optimization of flow properties Improvement of filler and pigment wetting Adjustment of elasticity,

Color adjustment,

Reduction of brittleness

Improvement of thermal and UV stability,

Reduction of shrinkage,

Reduction of abrasiveness, i.e. the blunt

Effect on machining and processing tools. The filler mixture may include other modifiers, such as plasticizers, leveling agents, thickeners, or dyes, to name a few examples.

To fulfill this purpose, lightweight fillers which have a granularity and can be distributed well and homogeneously in the base mixture are particularly suitable as modifiers. Microspheres and microcapsules are particularly advantageous. For example, metal or

Metal oxide microspheres (A1203, Zr02, Hf02, Ti02, Ce04,

Si02, mixed oxides etc.) can be used. Hollow silicate spheres in particular are preferred. By adding such a granular modifier, pores can be defined in the filler mixture and a customized specific surface of the

Filler mixture can be achieved. It can too

Microspheres or capsules made of metal alloys or polymers and used as modifiers

be used. Oxide ceramic microspheres or capsules, resin-bound graphite spheres,

Metal balls.

Dyes (color pigments) can be added to the base mixture as modifiers. Depending on the type and amount of dyes, different colors from white to black can be set. So that can

Filler mixture be designed so that it corresponds to the color of the carrier material to be filled. Fibers can be added as modifiers to achieve better strength. In the

The choice of fibers should be taken to ensure that the abrasiveness of the filler mixture does not achieve the desired values

exceeds. Soft fibers, especially natural fibers, are therefore more suitable than hard fibers. Depending on the length of the

Networking, or the inner one, can make fibers

Cohesion of the filler mixture can be improved. The use of cotton fibers, in particular short-cut cotton fibers, is preferred.

The filler mixture can be produced in a simple manner by mixing the components. It is

It is advantageous to first prepare a base mixture from the polymer, the wax and the hydrocarbon resin and then to mix these with further modifiers.

The following tables are examples of the

Given the composition of the filler mixture according to the invention.

Part of the share in the concrete example

Weight percent in weight percent hydrogenated ali- 18 - 25% 22%

phatic coals

hydrogen resin

E / VA copolymer 25 - 35% 29%

Base wax 10 15% 12%

Polyethylene wax 10 20% 14% MΆH modified

Propylene-ethylene 5 - 15% 11%

Copolymer wax

Polypropylene wax 4 - 10% 7%

MAH modified

Fibers 0.1 - 2% 1%

Light filler 1 - 5% 3%

Color pigments 0.5 - 10% 2%

The filler mixture according to the invention is hot-melting. It is processed by melting it. The filler mixture can preferably by means of a

device according to the invention can be applied.

The filler mixture is preferably designed such that it can be processed in a temperature range between 120 degrees and 180 degrees. Fillers that can be processed between 130 degrees and 150 degrees are particularly preferred.

The filler mixture is preferably produced by melting a polymer component, a wax component and a resin component. The additives are then added simultaneously or in succession using a disolver (stirrer). The filler mixture is preferred for use in the device according to the invention as

Made of granules or flakes.

Another additional aspect of the invention relates to the use of a filler mixture according to the invention for Creation of at least one fixing area in one

Lightweight element.

The fixing area is defined by that area of the lightweight component which, after application of the

Filler mixture (note: in the form of enamel)

Enamel comprises. E.g. by parts of the

Light-weight element penetrated with enamel or

Defects (e.g. in the form of the recess) of enamel were at least partially filled.

Yet another additional aspect of the invention relates to the use of an inventive one

Filler mixture for filling or mending

Wooden elements, especially for fixing branches in

Wooden elements.

Such an application is ideal, for example, for coffins made of fir wood. When drying out the wooden elements

Fir wood but also from other woods, which for

Example used in coffin construction, the branches or branch attachments contained in it like to loosen. In the state of the

Technology, these are fixed by injecting hot glue. The problem here, however, is that the

Hot glue likes in pores and cracks in branches and wood

penetrates, but then there is no longer enough glue available to fix the branch. The inventive

Filler mix generally has better bonding properties than hot glue. Next has one

Application using a device according to the invention the advantage that the melt mass under pressure by means of is applied to a pressure source, thereby reliably filling the space between the branch and the remaining wooden element, which has arisen due to the change in volume due to drying, so that the branch or branch attachment is reliably fixed.

Another aspect of the invention relates to a

Light construction element with at least one fixing area.

In one embodiment of the lightweight component, which with each of those already mentioned and yet to be named

Embodiment can be combined, if not in contradiction, the fixing area comprises a melt mass made from a filler mixture according to the invention.

In one embodiment of the lightweight component, which with each of those already mentioned and yet to be named

Embodiment can be combined, if not in contradiction, the fixing area comprises at least one recess in the lightweight component.

The recess can either be completely or only partially in the fixing area. A fixing area can be a

But also several such as include two, three or four recesses.

In one embodiment of the lightweight component, which with each of those already mentioned and yet to be named

Embodiment can be combined, unless in Contradiction, the fixing area comprises a recess or through opening.

This is suitable, for example, for screwing in a screw and / or pressing in an anchor.

In one embodiment of the lightweight component, which with each of those already mentioned and yet to be named

Embodiment can be combined, if not in contradiction, the melt mass of the fixing area has been applied by a device according to the invention.

In one embodiment of the lightweight component, which with each of those already mentioned and yet to be named

Embodiment can be combined, if not in contradiction, the fixing area was generated by a method according to the invention.

In one embodiment of the lightweight component, which with each of those already mentioned and yet to be named

Embodiment can be combined, if not in contradiction, the fixing area was generated by an application according to the invention.

Exemplary embodiments of the present invention are explained in more detail below with reference to figures. Show it Fig. 1 is a schematic representation of a

device according to the invention;

Fig. 2 is a schematic cross section through a

Embodiment of a device according to the invention, shown in two different types of characters;

Fig. 3 is an enlarged view of the area comprising the heating block of the inventive

2;

Fig. 4a is a schematic side view of a tank, a heating block and an application head of an embodiment of an inventive

Contraption;

Fig. 4b is a schematic perspective view of a tank, a heating block and one

Application head of an embodiment of a

device according to the invention;

4c shows a further schematic perspective illustration of a tank, a heating block and an application head of an embodiment of a

device according to the invention;

5a shows a schematic perspective view of an embodiment of a tank according to the invention;

5b shows a section through an embodiment of a tank according to the invention;

5c shows a schematic perspective view of a first region of an embodiment of a tank according to the invention; Fig. 5d is a schematic plan view of a

Embodiment of a tank according to the invention;

Fig. 6a is a schematic representation of a

Embodiment of a tank according to the invention;

Fig. 6b is a schematic representation of a

Embodiment of a tank according to the invention;

Fig. 7 is a schematic representation of a

application head according to the invention;

8 shows a schematic representation of the area around the application opening of an embodiment of an application head according to the invention;

9a shows a schematic plan view of an application attachment according to the invention;

Fig. 9b is a schematic side view of the

Application attachment from Fig. 8a;

Fig. 9c is a schematic section through the

Application attachment from Fig. 8a;

Fig. 10 is a schematic representation of a

Lightweight construction element with and without fixing area;

Fig. 11 is a schematic representation of an application of an embodiment of an inventive

Device comprising a first plate; and

Fig. 12 is a schematic representation of an application of an embodiment of an inventive

Device comprising a first plate and a second plate. In Figure 1 is a schematic representation of a

device 1 according to the invention. This includes a tank 10, a channel 20, a heating block 30, a pressure source 40 and an application head 50. The tank 10 is fluidly connected to the via the channel 20

Application head 50. The pressure source 40 is capable of using an operative connection (shown by means of the lower cross connection between the pressure source 40 and the channel 20) material, such as e.g. Melting mass to announce from the tank and so to convey into channel 20. By means of a further active connection (represented by means of the upper one

Cross connection between pressure source 40 and channel 20) material located in the channel can then via the

Application head 50 are pressed out of the channel 20. The channel 20 comes to lie completely in the heating block 30 and is thermally coupled to it. The tank 10 comes to lie in a bulge in the heating block 30 and is

also thermally coupled to the heating block.

Pressure source 40 and application head 50 are connected to heating block 30, but are not thermally coupled to it in the example shown.

FIG. 2 shows a schematic cross section through an embodiment of a device 1 according to the invention, shown on two different types of characters.

You can see next to the tank 10, the channel 20, the

Heating block 30, the pressure source 40, which here

Piston pump, and the application head 50 also a lifting and lowering device 70, which is capable of to raise and lower the aforementioned components of the device 1 relative to the two structural beams running parallel to the piston of the piston pump 40. The lifting and lowering device 70 can for example

be controlled by compressed air (see compressed air connection at

Cylinder). A third piston (note: first piston belongs to piston pump and second piston belongs to lifting and

Lowering device 70) serves to regulate the valve which opens and closes the tank 10. Also visible is a first plate 60, which partially surrounds the application head 50 and is attached to the heating block 30 in a non-thermally coupled manner.

Fig. 3 shows an enlarged view of the

Area of the heating block 30 of the device 1 according to the invention from FIG. 2. The dashed line indicates where the heating block 30 runs. One can also see one of the two heating rods 31, which are responsible for heating the heating block 30. The tank 10, the channel 20, part of the piston pump 40, the application head 50 and the first plate 60, which is arranged over the suspensions 61, for example in the form of spiral springs, can also be seen.

Also shown is the axis XI, which is the

corresponds to the central axis through the channel 20. In the illustration shown here, this is congruent to the central axis X2 of the application head, to the central axis X3 of the through opening of the first plate, and to the central axis X4 of the recess of the lightweight component. 4a shows a schematic side view of a tank 10, a heating block 30 (for better

Distinctness shown in black) and one

Application head 50 of an embodiment of a

Apparatus according to the invention 1. The tank 10 is flush with the heating block 30, lies on it, so to speak (comparable to the stove and saucepan), and is thermally coupled to it. In this embodiment, the tank 10 is therefore not partially let into the heating block 30 by means of a recess. The application head 50 is partially surrounded by the heating block 30 and also thermally coupled to it (application head 50 extends into the heating block 30, which, however, cannot be clearly seen due to the lateral representation). The first plate 60 is not thermally coupled to the heating block 30.

4b and 4c each show a schematic perspective view of a first region 11 (with the ribs) of a tank, a heating block 30 and an application head 50 of an embodiment of a device 1 according to the invention. The first plate 60 is attached to the heating block by means of four suspensions 61 specially provided fittings on

Heating block 30 detachably attached. In Fig. 4b are the

Easy to recognize active connections to the piston pump

whereas in Fig. 4c the two recesses for the

Heaters are nice to see. 5a shows a schematic perspective view of an embodiment of a tank 10 according to the invention. This comprises a first (lower) area 11 with ribs 14 on the inside and a second (upper) area 12 with a large (essentially rectangular here)

) opening for filling the filler mixture and a small (shown here round) opening for the valve control.

5b shows a section through an embodiment of a tank 10 according to the invention. One of two rows of ribs with its ten ribs 14 can be seen. The first area 11 and the one on it can also be seen

Adjacent second area 12. Also shown is the outlet opening 15 and the valve 16 regulating it.

5c shows a schematic perspective view of a first region 11 of an embodiment of a tank according to the invention, for example comparable to that shown in FIG. 5b. The two rows, each with ten ribs 14 and the taper towards the outlet opening 15, can be clearly seen.

FIG. 5d shows a schematic plan view of the first region 11 of an embodiment of a tank according to the invention shown in FIG. 5c. The two rows of ribs 14 line a type of flow path which leads to the outlet opening 15. This is preferably at the lowest point of the tank. The flow path is preferably lower than that part of the first region 11 on which the ribs 14 are arranged. Further, the flow path preferably slopes down to the outlet opening 15.

6a and 6b each show a schematic illustration of an embodiment of a tank 10 according to the invention.

The tank 10 of FIG. 6a has a first area 11 and a second area 12, which is a smaller one

Has thermal conductivity than the first region 11.

The first area 11 has a total of four ribs 14, which are distributed symmetrically with respect to the outlet opening 15, towards which the first area 11 tapers.

The tank 10 of FIG. 6b has a first region 11, a second region 12 designed as an insulation region and a third region 13. The first area 11 and third area 13 are made of aluminum, for example, and therefore have an identical and high thermal conductivity coefficient. The insulation region 12, on the other hand, thermally separates the aforementioned regions 11, 13 and consists, for example, of one

temperature-stable rubber compound or Teflon. The first area has a total of six ribs 14, which

identify different dimensions and are designed to be interchangeable. The ribs 14 are arranged symmetrically in two rows with respect to the outlet opening 15, but the ribs of one row are not arranged equidistantly. FIG. 7 shows an enlarged schematic illustration of an application head 50 according to the invention together with a first plate 60 and its suspension 61. At the top of the application head 50 there is its inlet opening 51, whereas the application opening 52 is below. The step-like configuration of the first plate 60 can be clearly seen , wherein the application head 50 is a complementary

has a step-like configuration, which, however, is dimensioned somewhat smaller than the step-like configuration of the first plate 60, so that there is a certain amount of play between the first plate 60 and the application head 50. This play allows the first plate 60 and the application head 50 to be pivoted relative to one another. Furthermore, the application head 50 has four springs 61 for flexible mounting of the channel (not shown here; see FIG. 3).

FIG. 8 shows an enlarged schematic illustration of the area around the application opening 52

Embodiment of an application head 50 according to the invention. As already described in FIG. 7, the plate 60 and the application head 50 have a complementary step-like design. A hemispherical section can also be seen, which makes the first plate 60 and application head 50 with nozzle 55 pivotable relative to one another in the manner of a ball joint.

FIG. 9a shows a schematic top view of an application attachment 53 according to the invention, FIG. 9b shows a schematic side view of this Application attachment 53 and FIG. 9c shows a schematic section through said application attachment 53 along the section line AA drawn from FIG. 9a.

The application attachment 53 is of stepped design (two-stage) and has a peg-shaped projection 54. This is arranged centrally and surrounded symmetrically by three equidistant application openings 52. These are adjacent to the projection 53 or even directly adjoin it. It can be understood that the distance between an application opening and the projection is smaller than the distance between

Application opening and external border of the

Application attachment, for example the outer boundary of the step at which the projection is arranged. However, the application opening is preferably located right next to the projection and is at most 1 cm, in particular at most 0.5 cm, particularly preferably at most 0.2 cm from it. The application openings 52 are formed by three nozzles 55, which taper towards the application opening 52 in order to be able to inject the melt mass with particularly high pressure.

Fig. 10 shows a schematic representation of a

Lightweight component 100 without (left side) and with

Fixing area 110 (right side). The lightweight component 100 has a recess 101, into which melt mass is injected in order to form a fixing region 110. The enamel does not only come to lie within the recess 101, but also penetrates into it Areas of the lightweight component 100, so that the

resulting fixing area 110 encompasses the contour of the recess 100 at least partially or, as shown here, completely. By a placeholder, e.g. a pin, a vacancy, for example in the form of a depression 111, can be formed in the fixing area, which e.g. allows screwing in a screw. Alternatively, such a vacancy can also be carried out in a separate work step by subsequently removing the melting mass of the

Fixing area 110 are generated.

The central axis X4 of the is also shown

Recess of the lightweight component.

11 shows a schematic illustration of an application of an embodiment of a device according to the invention, which comprises a first plate 60. For the sake of clarity, only the application head 50 with a projection 54 and two outlet openings 52 adjacent to it are shown of the device, in addition to the first plate 60. The first plate 60 lies flush on the lightweight component 100 so that it can contact it over a large area and cool it accordingly. However, the first plate 60 also prevents melt mass from escaping to the sides of the recess 101 by sealing the edge of the recess 101. The application openings 52 protrude slightly beyond the first plate 60 and protrude as well

Projection 54, into the recess 101 of the lightweight component 100. The recess 101 is accordingly not until a flush conclusion with the Light-weight element filled with melt mass, but instead be provided with a depression similar to that from FIG. 10.

The central axis X3 of the through opening of the first plate 60 is also shown greatly reduced on the right in the image.

12 shows a schematic illustration of an application of an embodiment of a device according to the invention comprising a first plate 60 and a second plate 65. For the sake of clarity, only the application head 50 with a, besides the first plate 60 and the second plate 65, are of the device Projection 54 and two outlet openings 52 adjacent to this are shown. The first plate 60 and the application head 50 are designed as already explained in connection with FIG. 11. The

However, recess 101 is designed to be continuous here, that is, it goes completely through the lightweight component 100. The lightweight component 100 is arranged between the first plate 60 and the second plate 65. The second plate 65 is not used for more efficient cooling, but additionally seals the recess 101 downward (in

Application direction Z seen), but also from the side. This prevents it from running out or dripping

Enamel. The first plate 60 and the second plate 65 have the same dimensions. However, this is not necessary. Both the thickness and area of the two plates can be designed differently from one another. The plates 60, 65 can also be larger, smaller or the same be as large as or like the lightweight component 100. If, in particular, the area (meaning not only the absolute area, but in particular the length of the side lengths) of at least one of the plates 60, 65 is the same size or even slightly larger, this can

Lightweight component 100 are completely contacted on both sides, so that optimal heat dissipation is achieved.

The central axis X2 of the application head is also shown.

Reference character list

1 device

10 tank

11 First area

12 Second area

13 Third area

14 rib

15 outlet opening

16 valve

20 channel

30 heating block

31 heating element

40 pressure source

50 application heads

51 inlet opening

52 Application opening

53 Application attachment

54 head start

55 nozzle

56 spring

60 First plate

61 suspension

65 Second plate

70 lowering device

100 lightweight element

101 recess

110 fixing area

111 deepening

Claims

Claims

A device (1) for applying portions of a melt, comprising:

- A tank (10) for providing molten mass, which via at least one via a valve (16)

adjustable outlet opening (15);

an application head (50) with an inlet opening (51) and an application opening (52);

- A channel (20) in fluid communication with the

Outlet opening (15) of the tank (10) and the inlet opening (51) of the application head (50) standing;

a pressure source (40) for conveying melt mass from the tank (10) through its outlet opening (15) via the channel (20) to the application opening (52) of the

Application head (50); and

a heater block (30);

wherein the tank (10) is arranged thermally coupled to the heating block (30) and the channel (20) runs thermally coupled through the heating block (30).

2. Device (1) according to claim 1, wherein the

Application head (50) is arranged thermally coupled on the heating block (30).

3. Device (1) according to claim 1 or 2, wherein the tank (10) is a replaceable tank which is detachable from

Heating block (30) and re-attachable to the heating block (30), and wherein the tank (30) is the

Exhaust opening (15) comprises regulating valve (16).

4. The device (1) according to claim 3, wherein the valve (16) is configured such that it is automatic

closes when the tank (10) is not in one

Desired position in relation to the heating block (30).

5. Device (1) according to one of claims 1 to 4, wherein the pressure source (40) is a piston pump.

6. The device (1) according to one of claims 1 to 5, wherein:

the pressure source (40) is operatively connected to the tank (10) such that it transports melt mass into the channel (20) when the outlet opening (15) is open, and is operatively connected to the channel (20) in such a way that it

closed outlet opening (15), melt mass is conveyed from the channel (20) to the application head (50), in particular to the application opening (52).

7. Device (1) according to one of claims 1 to 6, wherein the application head (50) is pivotable.

8. The device (1) according to claim 7, wherein the application head (50) by 0 ° up to and including 2 °

is pivotable.

9. Device (1) according to one of claims 1 to 8, comprising a first plate (60) with a

Through opening, in which through opening the

Application head (50) is at least partially arranged.

10. The device (1) according to claim 9, wherein the first plate (60) is arranged such that it

Application opening (52) surrounds.

11. The device (1) according to claim 9, wherein the first plate (60) is arranged such that it is flush with the application opening (52).

12. The device (1) according to claim 9, wherein the first plate (60) is arranged such that the

Application opening (52) protrudes over the first plate (60).

13. The device (1) according to any one of claims 9 to 12, wherein the first plate (60) is movable and / or

is interchangeably arranged.

14. The device (1) according to claim 13, wherein the first plate (60) is pivotable, in particular by 0 ° to

including 2 °.

15. The device (1) according to claim 13 or 14, wherein the first plate (60) via springs, in particular four

Springs, is arranged.

16. The device (1) according to any one of claims 9 to 15, wherein the first plate (60) is arranged on the heating block (30), in particular is not arranged thermally coupled.

17. The device (1) according to any one of claims 9 to 16, comprising a second plate (65), which in the application direction defined by the application opening (52) below the first plate (60), substantially parallel to the first plate (60) and spaced from

Application opening (52) is arranged.

18. The device (1) according to claim 17, wherein the second plate (65) has a surface in the direction of the application opening (52), which comprises silicone and / or is at least partially elastic.

19. The device (1) according to claim 17 or 18, wherein the second plate (65) is cooled.

20. The device (1) according to any one of claims 17 to 19, wherein the distance between the first plate (60) and the second plate (65) is variable, in particular by the second plate (65) being movably arranged.

21. The device (1) according to one of claims 9 to 20, wherein the first plate (60) has a surface pointing into the through the application opening (52)

Defined application direction, which surface is smooth or has a profile.

22. The device (1) according to any one of claims 1 to 21, comprising a mixing valve which is arranged along the channel (20).

23. Device (1) according to one of claims 1 to 22, comprising a lifting and lowering device (70), which is designed to the tank (10), the application head (50), the channel (20), the pressure source ( 40) and to raise and lower the heating block (30).

24. Application attachment (53) for an application head (50) of a device (1) according to one of claims 1 to 23, comprising: at least one application opening (52) which defines an application direction; and a projection (54) which projects in the application direction and is adjacent to the at least one application opening (52).

25. Application attachment (53) according to claim 24, comprising at least two, in particular three, four or five,

Application openings (52), the application openings (52) preferably being arranged symmetrically around the projection (53).

26. Application attachment (53) according to claim 24 or 25, wherein the projection (54) tapers when viewed in the direction of application and in particular a diameter of 0.1 cm to 1.0 cm inclusive,

preferably from including 0.45 cm to including 0.55 cm.

27. A tank (10) for use in a device according to any one of claims 1 to 23, wherein:

the tank (10) has a tank wall, which in at least a first region (11) of a first

Thermal conductivity and a second region (12) of a second thermal conductivity is divided;

the first thermal conductivity is higher than the second thermal conductivity; the first region (11) comprises at least one inwardly projecting rib (14) which is thermally coupled to the first region (11);

the first region (11) tapers at least partially towards an outlet opening (15).

28. The tank (10) according to claim 27, wherein the first region (11) of the tank (10) forms a cone.

29. Tank (10) according to claim 27 or 28, wherein the second

Area (12) is a continuous insulation area which is adjacent to the first area (11).

30. The tank (10) according to claim 29, wherein the second region (12) adjoins a third region (13), which third

Area (13) comprises a third thermal conductivity, which is greater than the thermal conductivity of the second area (12) and in particular is the same size as that

Thermal conductivity of the first area (11).

31. A filler mixture for producing a melt mass, comprising:

a polymer part from the group vinyl acetate copolymer (VAc copolymer), ethene-ethyl acrylate copolymer (E / EA), ethene-vinyl acetate copolymer (E / VA),

Ethyl methacrylate (EMA), ethylene butyl acrylate (EBA),

Ethylene acrylic acid (EAA); a wax component from the group of polyolefin wax, amide wax, montan wax, hydrocarbon wax, E / VA wax, metallocene wax;

a hydrocarbon resin portion; a proportion of modifiers from the group of color pigments, fibers, light filler; where the wax component is composed of a

Wax mixture which hydrocarbon wax and

at least polyethylene wax with maleic anhydride

modified, polypropylene wax modified with maleic anhydride, or comprises propylene-ethylene copolymer wax.

32. filler mixture according to claim 31, wherein the

Wax blend of hydrocarbon wax, polyethylene wax modified with maleic anhydride, polypropylene wax modified with maleic anhydride, and comprising propylene-ethylene copolymer wax.

33. filler mixture according to claim 32, wherein the

Mass in the wax mixture approx. 3 parts base wax, approx. 4 parts polyethylene wax modified with maleic anhydride, approx. 2 parts polypropylene wax with

Maleic anhydride modified and is about 3 parts of propylene-ethylene copolymer wax.

34. filler mixture according to one of claims 31 to 33, wherein the total mass fraction of wax in the Filler mixture is approx. 41% to approx. 50%,

especially including 43% up to and including 47%.

35. Filler mixture according to one of claims 31 to 34, comprising as a modifier cotton fibers, the total mass fraction of which is between 0.5% and 1.5%.

36. Use of a filler mixture according to one of claims 31 to 35 for generating a fixing area in a lightweight component.

37. Use of a filler mixture according to one of claims 31 to 35 for filling or mending

Wooden elements.

38. Use of a filler mixture according to one of claims 31 to 35 for fixing branches in

Wooden elements.

39. A method for creating a fixing area in a lightweight component, comprising:

Melting a filler mixture portion by portion to provide a portion of melt mass; Providing a lightweight component with at least one recess;

Inject the portion of melt mass into the recess of the lightweight component using a pressure source.

40. The method of claim 39, wherein injecting the portion of enamel comprises aspirating the portion of enamel followed by pushing out the portion of enamel.

41. The method according to claim 39 or 40, comprising a one-sided contacting of the lightweight component using a first plate for positioning the lightweight component and / or for sealing an area of the lightweight component around the at least one recess and / or for cooling at least a part of the lightweight component, preferably the Area of the lightweight component around the at least one

Recess.

42. The method according to claim 39 or 40, comprising a two-sided contacting of the lightweight component using a first plate for positioning the lightweight component and / or for sealing an area of the lightweight component around the at least one recess and / or for cooling at least a part of the lightweight component and using one second plate for positioning the

Lightweight component and / or for sealing an area of the lightweight component around the at least one recess and / or for cooling at least part of the lightweight component,

wherein the lightweight component is sandwiched between the first plate and the second plate.

43. lightweight component (100) with at least one

Fixing area (110) comprising a melt mass produced from a filler mixture according to one of claims 31 to 35.

44. The lightweight component (100) according to claim 43, wherein the fixing area (110) comprises at least one recess (101) present in the lightweight component.

45. Light construction element (100) according to claim 43 or 44, wherein the fixing area (110) has at least one depression (111) or through opening.

46. Light-weight component (100) according to one of claims 43 to 45, wherein the melt mass of the fixing area (110) by a device according to one of claims 1 to 23

has been applied.