METHOD FOR THE PRODUCTION OF INDIVIDUAL COMPONENTS

Abstract

The invention relates to a method for the production of individual components made from materials which change state from a liquid to solid or a particulate to bonded state during the method. A mold and elastic balloons, which may be placed in the mold under pressure, are used for the method. Either gas or liquid or the liquid material of the component for production, which may later be hardened, are filled in the balloons.

Description

FIELD OF THE INVENTION

The present invention relates to a method for the production of individual components made from materials which change their state from a liquid to a solid state or from a particulate to a bonded state during the method, or by the use of gases and liquids, which result in products by resorting to the use of a mold and elastic balloons, which are held in the cavity of the mold under the effect of pressure.

BACKGROUND OF THE INVENTION

DE/19504782C2 discloses the use of a flexible form in the manufacture of components, in particular in areas involving molding. These forms are easily removed from the model by undercutting. This method is used for surface copying.

Another known method for forming components is the lost wax technique. A plastic and wax mixture is made for the purpose of producing the positive form of the part to be cast. The part to be cast is surrounded by a casting envelope, and the plastic and wax mixture contained therein is evaporated by heat or is able to drain away via a channel. The casting envelope is subsequently irretrievably destroyed to permit the further processing of the casting.

When individual elements with recurring dimensions, surfaces and structures are selected in conjunction with the production of component parts, it is frequently necessary to adapt such elements locally to an existing design. A surface structure assembled from individual elements, of which one is not identical with the other, is only possible with considerable manual and technical effort when employing these known techniques.

SUMMARY OF THE INVENTION

Individual elements are made possible by the method of the present invention, which involves the use of materials which change their state from a liquid to a solid state or from a particulate to a bonded state, or by the use of gases and liquids, by resorting to the use of elastic balloons positioned in a mold having a mold cover. These balloons can be formed into individual elements according to their material composition, their filler, their filling quantity, the pressure exerted by the cover of the mold, the rigid or flexible nature of the mold, in conjunction with which one element influences the neighboring element in the course of deformation. These balloons function as an elastic skin that are influenced by internal and external forces to create the shapes of the elements.

BRIEF DESCRIPTION OF THE DRAWING

For a fuller understanding of the nature and objects of the invention, reference should be made to the following detailed description of a preferred mode of practicing the invention, read in connection with the accompanying drawings, in which:

FIG. 1 shows a mold and mold cover for housing a plurality of closeable elastic balloons;

FIG. 2 shows the mold and mold cover held in a closed state via a clamping device; and

FIG. 3 shows a facade formed according to the method of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

EXAMPLE 1

Production of a Facade

• 1. A mold (FIG. 1/Item 1) with the desired dimensions is produced.
• 2. A mold cover (FIG. 1/Item 2) with the necessary dimensions is produced.
• 3. Elastic balloons (FIG. 1/Item 4) are filled with air, closed, and the outer skin is provided with a parting agent. The balloons are then positioned in the cavity of the mold.
• 4. The mold cover is laid on the mold to close the mold cavity and is secured to the mold with a clamping device (FIG. 2/Item 5).
• 5. The clamping device applies the desired pressure to the elastic balloons that are present in the mold cavity of the mold.
• 6. A tacky flexible filler is injected into the gaps between the compressed elastic balloons through feeders passing through the mold cover (FIG. 1/Item 3).
• 7. Following hardening of the filler, the clamping device is released and the mold cover is removed.
• 8. The elastic balloons are deflated and are removed from the mold cavity.
• 9. The mold is cleaned, and any filler adhering to the mold is removed, as appropriate.
• 10. The mold is provided with a parting agent.
• 11. The mold is filled with a desired material, and depending on the nature of the material, can be reinforced with woven mats, as appropriate.
• 12. Following hardening of the desired material, the mold is removed and the resulting facade (FIG. 3/Item 6) is cleaned.

EXAMPLE 2

Production of Floor Panels

• 1. A mold with the desired dimensions is produced.
• 2. A mold cover with necessary dimensions is produced.
• 3. The inner skin of the elastic balloons is provided with a parting agent.
• 4. The elastic balloons are positioned in the mold cavity of the mold and are filled with the desired material by injection and then closed.
• 5. The filled balloons are aligned.
• 6. The mold cover is laid on the mold to close the mold cavity and is secured to the mold with a clamping device.
• 7. The clamping device applies the desired pressure to the elastic balloons that are present in the mold cavity of the mold.
• 8. Following hardening of the desired material filler to form a plurality of elements, the mold cover is taken off and the mold is removed.
• 9. The elastic balloons are deflated and are separated from each respective element.
• 10. The individual elements are cleaned and can then be laid on a floor, for example.

EXAMPLE 3

Production of a Grip

• 1. An elastic balloon is filled with a thermosetting material.
• 2. The balloon is closed,
• 3. The balloon is now taken in the hand and molded to the desired form by muscle power.
• 4. After hardening of the thermosetting material, the pressure on the elastic balloon is released.
• 5. The elastic balloon is now removed from the hardened thermosetting material.
• 6. The resulting form can undergo further processing as required.

While the present invention has been particularly shown and described with reference to the preferred mode as illustrated in the drawing, it will be understood by one skilled in the art that various changes in detail may be effected therein without departing from the spirit and scope of the invention as defined by the claims.

Claims

1. A method for the production of a product made from materials which change their state from a liquid to a solid state or from a particulate to a bonded state, said method comprising the steps of: providing a mold having a mold cavity in the shape of the product; positioning a plurality of elastic, closeable balloons in the mold cavity; filling the elastic balloons through their respective openings with a desired liquid or gas; closing the openings of the balloons; closing the mold cavity to compress the elastic balloons within the mold cavity; injecting a liquid thermosetting material into cavities between the mold and the elastic balloons; hardening the thermosetting material; emptying and removing the elastic balloons from the mold while allowing the hardened thermosetting material to remain in the mold, wherein the hardened thermosetting material includes interstices created by the presence of the balloons; adding a desired material to fill or line the interstices of the hardened thermosetting material; hardening the desired material to form the product; and removing the product from the mold.

2. A method for the production of individual elements made from materials which change their state from a liquid to a solid state or from a particulate to a bonded state, said method comprising the steps of: providing a mold having a mold cavity; positioning a plurality of elastic, closeable balloons in the mold cavity; filling the elastic balloons through their respective openings with a desired material; closing the openings of the balloons; closing the mold cavity to compress the elastic balloons within the mold cavity; hardening the desired material within each compressed balloon to form a plurality of individual components; removing the balloons from the mold; and separating the balloons from the individual components.

3. The method of claim 2, wherein the individual elements are assembled once more and attached to one another.

4. The method of claim 2, wherein the individual elements are assembled once more and laid down as a floor covering.