EP2635422A1

EP2635422A1 - Powder application device and method for producing thermoplastic moldable semi-finished goods

Info

Publication number: EP2635422A1
Application number: EP11779129.3A
Authority: EP
Inventors: Emil Wilding; Michael Deilecke; Antonio Puma; Thorsten Katzenberger; Jörg WOTTAWA
Original assignee: BK Giulini GmbH
Current assignee: RHENOFLEX GmbH
Priority date: 2010-11-02
Filing date: 2011-10-25
Publication date: 2013-09-11
Also published as: US9272447B2; CN103298594A; DE102010050025A1; KR20130132831A; US20130270733A1; CN103298594B; TW201231241A; BR112013010898B1; WO2012059367A1; DE102010050025B4; BR112013010898A2; TWI529048B

Abstract

The invention relates to a powder application device P for producing blanks of thermoplastically moldable semi-finished goods for use as reinforcing elements from a powder mixture containing a fusible plastic powder, comprising a powder container B open at the bottom and a hole template L disposed below said container, spaced apart therefrom and having one or more hole cutouts, characterized in that the powder container B is rigidly connected to the hole template L and can be lowered vertically to an auxiliary carrier or to a distance of no greater than 5 mm therefrom, and can be closed at the lower end thereof by means of a horizontal closing plate L having a thickness slightly less than the distance between the powder container B and the hole template L, wherein the closing plate S is displaceable in a horizontal plane such that said plate alternately closes and exposes the lower end of the powder container B.

Description

Powder application device and process for the production of thermoplastically deformable semi-finished products

description

The invention relates to a powder application device and to a process for the production of thermoplastically deformable semifinished products for use as stiffening elements. The use of thermoplastic stiffening materials for shaping and shape retention in the footwear, garment and bag making industries has long been known.

According to an older process, they are manufactured in webs and used for application as forming stiffening material e.g. punched in the desired shape during shoe production and thinned (sharpened) at the edges to avoid signing the transition to the unreinforced "shoe upper material".

The blanks are usually ironed by means of hot punches on the shoe upper and are thermoplastically deformable under heat and after cooling for the shape retention of the shoe responsible.

The thermoplastic sheet material can be made both by impregnation of a textile fabric with an aqueous plastic dispersion, which is usually provided after drying still one or both sides with a hot melt adhesive, by extrusion and also be superficially provided with hot melt adhesive, as well as by the powder sintering method, at the melting plastic powder or powder mixtures containing melted and sintered with or without textile carrier.

A disadvantage of the web process is in particular the increased material consumption by the waste during punching, which must be disposed of or recycled. In addition, it is not possible to produce products with sharpened edges in a single operation.

From DE 26 21 195 A1 stiffening materials are known, which are made by applying, melting and sintering and then smoothing powdered mixtures of plastic, fillers with a defined particle size distribution in the range of 50 to 500 μηι and optionally other excipients on textile carrier or auxiliary carrier , By matching the particle size distribution of the powdered fillers to the particle size distribution of the plastic powder (100 to 500 μm), a powder mixture with increased filler content can be made available which correspondingly has improved rigidity and increased viscosity has, so that a penetration of the plastic melt is prevented on the textile carrier or auxiliary carrier.

DE 33 47 237 A1 describes the production of three-dimensional stiffening parts, which by applying meltable plastic powder by means of a screen printing template in the form of the desired stiffening on a receiving tape or subcarrier and subsequent melting and direct subsequent transfer to a shoe upper by means of a special pressing device. A particular disadvantage is the complicated guidance of the powder application device, which moves in a squeegee movement over the screen printing stencil and compacts the introduced powder at the edges, which is not desirable.

This in many respects insufficient method is improved or replaced by the invention described in DE 35 39 573 B.

Here, instead of the screen printing process, which is naturally limited by the sieve meshes, by the maximum powder particle sizes and results in uneven powder application due to the sieve yarns, the use of a template with one or more hole cutouts (hole template) in the form of the desired stiffening material for powder application is proposed.

The hole template is mounted directly above a receiving tape (subcarrier) and transversely to the direction of travel, as well as lowered on the same.

It is dimensioned so that a guided, filled with a thermoplastic powder mixture doctor blade moves in the lowered position on the recording tape hole pattern alternately from a left "parking position" to a right "parking position": This movement can also be as pulled or pushed describe. The hole cutouts of the hole template are each filled with the thermoplastic powder mixture.

After the powder entry, the hole template is lifted together with the doctor box in parking position until the powder applied with the recording tape in the next stop position, the heating zone is driven, and then lowered again for the next application process.

The method has the disadvantage that the doctor box wipes or rakelt over the cutouts of the hole template, ie the thermoplastic powder mixture is filled from a moving column of powder in the hole cutouts and at the edges of the hole deducted extracts. This has the disadvantage that the amount of powder applied is not exactly controllable, so that it comes to a one-sided uneven powder application, and in particular by the blade movement (shutter movement) the edges of the blanks formed in the hole cutouts of the stencil are compressed from the thermoplastic powder mixture. On the contrary, in practice, however, stiffening elements with thinned or sharpened edges are desired. In addition, the powder applicator is expensive because it has to be guided in a complex movement, in the horizontal as well as in the vertical direction. It was accordingly an object of the invention to provide an improved powder coating apparatus and an improved process for the production of thermoplastically deformable semifinished products, wherein the device should be technically easy to implement, in particular performs a simple, unidimensional translation movement, and then improved thermoplastically deformable semi-finished products are available which can be easily adapted to the changing market requirements in terms of shape, physical properties, in particular stiffness, and chemical properties.

The object is achieved by a powder applicator for producing raw blanks of thermoplastically deformable semifinished products for use as stiffening elements, starting from a powder mixture containing a meltable plastic powder, comprising a powder container B open at the bottom and a perforated template L arranged below it and spaced therefrom or more hole cutouts, which is characterized in that the powder container B with the hole template L rigidly connected and down to a subcarrier or a maximum distance of 5 mm thereto vertical lowered, and by means of a horizontal striking plate S with a thickness slightly below the distance between the Powder container B and the hole template L is closed at its lower end, wherein the striking plate S is movable in a horizontal plane, such that it closes the powder container B at the lower end thereof alternately and release again.

According to the invention, a powder coating apparatus is thus provided which comprises a powder container B and a perforated template L rigidly connected thereto. The powder applicator B, comprising the powder container B and the perforated template L rigidly connected thereto, is designed such that it performs a simple vertical translational movement to thereby lowerable to the subcarrier to which the powder mixture is applied, or to a slight distance thereto, usually of a maximum of 5 mm. The hole template L is below the powder container B and spaced therefrom, that is arranged at a distance from the powder container B.

There are basically no restrictions on the geometry and capacity of the powder container B; it is essential that it has at its lower end an opening which is sufficiently large to trickle enough material of the meltable plastic powder-containing powder mixture into the hole cutouts of the hole template L, so that they are filled in an economically appropriate time. Thus, the powder container B must have sufficient volume to provide a column of powder having sufficient static pressure to fill the hole cutouts in an economically feasible time.

The geometry of the powder container B may, for example, be cylindrical and taper downwards.

In a further preferred embodiment, the powder container B may be formed parallelepipedically and also preferably taper in a funnel shape in its lower region. The under the striking plate S in sliding contact with the same arranged, rigidly connected to the powder container B hole template L is in particular a flat plate from which the one of the several hole cutouts are recessed. The hole template L is thus a negative template comprising hole cutouts which corresponds to the geometric shape of the semi-finished products to be produced, and which are interconnected by webs. The hole template L must be so stable (stiff) that it can withstand the pressure of the powder column without deforming.

For this purpose, in particular plastics, such as PVC, or cardboard, for larger series and metal stencils can be used.

The hole template L may comprise a base or universal template, with larger hole cutouts suitable for a variety of different geometric shapes of semi-finished products to be used as a support for one or more special templates to be placed above, with smaller hole cutouts than the universal template , and which are specially tailored to the desired semi-finished product.

On the hole template, the hole cutouts can be positioned in the desired number to save space, but it should be noted that the remaining material (the webs) is still sufficiently stable to withstand the powder column, without deforming. It should also be noted that the hole cutouts still need to be sufficiently far apart from each other, so that the blanks, which are formed by the plastic powder is introduced into the individual cutouts, not connect to each other, and in particular not in the subsequent processing under Supply of heat merge together.

The hole template L has in particular a thickness in the range of 0.2 to 2.0 mm, particularly preferably in the range of 0.5 to 0.8 mm. The vertical stroke of the rigidly connected to the hole template L powder container is advantageously as low as possible and is preferably at most 5 mm.

The powder container B is closed at its open at the bottom end with a strike plate S, which is arranged movable between the lower end of the powder container B and the hole stencil L in a horizontal plane, and the powder-container B alternately closes the lower end powdered and again releases. On the one hand, the striking plate S is to be selected as thin as possible in order to largely avoid the unwanted squeegee effect when cutting off the powder column, but as thick as necessary in order to ensure sufficient rigidity thereof. For this purpose, preference is given to using stainless steel or else a plastic reinforced with carbon fiber.

Has proven to have a thickness of the closing plate S in the range between 0.5 and 5 mm, in particular a thickness of about 4 mm.

The striking plate S may preferably be formed with an upwardly bevelled cutting edge, whereby the undesired blade action and the associated undesirable compression of the plastic powder in portions of the blanks is further reduced.

In a particularly preferred embodiment, the powder applicator two or more, each rigidly connected to a hole template L powder container B, which are each closed with a horizontal striking plate S, which is movable in a horizontal plane at its lower end.

By arranging two or more powder application devices P preferably in succession, a number of improvements can be achieved and powder mixtures having different properties, in particular different hardnesses or particle sizes, can be used, whereby the structure of the manufactured thermoplastically deformable semi-finished products can be adjusted. If The different properties can be combined, in particular the stiffness of the same can be set in a targeted manner, for example semi-finished products can be made available that are harder in the middle and softer at the edge.

This preferred embodiment of a powder application device also has the advantage that in all powder container B, the same powder mixture can be filled, whereby the filling of the hole cutouts can be performed much faster, and moreover, it is also ensured that this with the least possible movement the powder column takes place so that the still fragile blanks from the plastic powder or from the meltable plastic powder containing powder mixture do not lose their shape. Moreover, in this embodiment of the powder application apparatus it is also possible to use different hole patterns in each case, so that the shape of the resulting semi-finished products can be specifically set.

The invention also provides a process for the production of thermoplastically deformable semifinished products for use as stiffening elements

starting from a powder mixture containing a meltable plastic powder, which is applied to a horizontal auxiliary support by means of a powder applicator P, comprising a perforated template L arranged below it and spaced therefrom, with one or more perforated cutouts, forming blanks; - Which are melted under the supply of heat and sintered to obtain the thermoplastically deformable semi-finished products, which is characterized in that - the blanks are obtained by the rigidly connected to the hole template L powder container B, by means of a horizontal strike plate S with a thickness slightly is closed below the distance between the powder container B and the hole template L at its lower end, except for the horizontal Sub-carrier H or a distance corresponding to the desired thickness of the stiffening material thereof is lowered, whereupon the horizontal striking plate S is displaced in a plane substantially parallel to the horizontal subcarrier, and the lower end of the powder container B releases, so that the powder mixture in the hole cutouts The hole template L trickles and fills the same, whereupon the horizontal striking plate S is again moved back to the position in which it closes the powder container B at the lower end thereof.

The powder application apparatus and the method according to the invention are not restricted with regard to the usable powder mixture containing a meltable plastic powder. The powder mixture used can be, for example, a mixture of meltable plastic powder and pulverulent filler as described in DE 26 21 195 A1, wherein the pulverulent filler has a grain size distribution of 50 to 600 μm, in particular 100 to 400 μm, comparable to the particle size distribution of the plastic powder , having. The plastic powder can be used according to the invention, however, without filler or in admixture with other plastic particles. The "other" plastic particles used in the last-mentioned embodiment are polymers which melt in a higher temperature range and thus assume the function of a filler in the undissolved state Suitable mixtures are, for example, mixtures of high-pressure and low-density polyethylene and those of an ethylene-vinyl acetate copolymer Also suitable as fillers may be wood flour, cork powder, chalk, talc, silica and other organic and inorganic substances applied to a horizontal subcarrier, which may be in particular a non-stick, preferably Teflon-coated fabric tape and the blanks, which are obtained after the application of the powder mixture in the hole cutouts, further so that they can be melted under the application of heat and sintered to obtain the shape predetermined by the hole template.

The invention will be explained in more detail below with reference to FIGS. They show in detail: Figure 1 is a schematic representation of a preferred embodiment of a powder application device P according to the invention and Figure 2 is a further schematic representation of an inventive

Powder application device P with two powder containers B and two striking plates S.

The powder container B is arranged at a distance from the hole template L and rigidly connected to it. The powder container B and the hole template L are movable in the vertical direction. In the intermediate space between the powder container B and the hole template L and a strike plate S is horizontally movable and below the powder application device P, a subcarrier H arranged, which may be an example of a circulating fabric tape.

The schematic representation in Figure 2 shows a further preferred embodiment of a powder application device according to the invention P with two parallelepiped powder containers B, which are each closed at its lower end by means of a closing plate S.

In the figure, the hole templates L are not shown.

Claims

claims

1. Powder application device P for the production of blanks of thermoplastically deformable semi-finished products for use as stiffening elements, starting from a meltable plastic powder or a meltable plastic powder containing powder mixture, comprising a bottom open powder container B and below the same and spaced therefrom arranged hole template L with one or a plurality of hole cutouts, characterized in that the powder container B rigidly connected to the hole template L and vertical down to a subcarrier H or a maximum distance of 5 mm thereto, and by means of a horizontal strike plate L with a thickness slightly below the distance between the powder container B and the hole template L is closable at its lower end, wherein the striking plate S is movable in a horizontal plane, such that it alternately closes the lower end of the powder container B and how the releases.

2. Powder application device P according to claim 1, characterized in that the hole template L has a thickness in the range of 0.2 to 2.0 mm, preferably in the range of 0.5 to 0.8 mm.

3. Powder application device P according to claim 1 or 2, characterized in that the striking plate S has a thickness in the range between 0.5 and 2 mm, preferably a thickness of about 4 mm.

4. Powder application device P according to one of claims 1 to 3, characterized in that the striking plate S has an upwardly beveled cutting edge.

5. Powder application device P according to one of claims 1 to 4, characterized in that the vertical stroke of the rigidly connected to the hole template L powder container B is 10 mm.

6. Powder application device P according to one of claims 1 to 5, characterized in that it comprises two or more, each rigidly connected to a hole template L powder container B, each having a horizontal strike plate S, which is movable in a horizontal plane and which alternately closes and releases the lower end of the powder container B again.

7. A process for the preparation of thermoplastically deformable semi-finished products for use as stiffening elements starting from a meltable plastic powder or a meltable plastic powder containing powder mixture by means of a powder applicator P, comprising a bottom open powder container B and below the same and spaced therefrom to parent hole template L. is applied with one or more hole cutouts, with formation of blanks on a horizontal subcarrier, which are melted under the supply of heat and sintered to obtain the thermoplastically deformable semifinished products, characterized in that the blanks are obtained by the rigidly connected to the hole template L. Powder container B, which closes by means of a horizontal striking plate S with a thickness slightly below the distance between the powder container B and the hole template L at its lower end n is lowered, except for the horizontal subcarrier or a distance corresponding to the desired thickness of the stiffening material thereof, whereupon the horizontal striking plate S is displaced in a plane substantially parallel to the horizontal subcarrier, and releases the lower end of the powder container B, so that Powder mixture trickles into the hole cutouts of the hole template L and fills the same, whereupon the horizontal striking plate S is again moved back into the position in which it closes the powder container B at the lower end thereof.