The present invention claims the benefit of German Patent Application No. 10 2004 008 412.2, filed Feb. 20, 2004.
The present invention relates to a foaming die comprising a lower part, an upper part, and a foaming cavity formed therebetween. The invention further relates to a method of foaming components, particularly of providing a vehicle body panel part with a foam backing.
Vehicle body panel parts are parts that define at least portions of the outer skin of the vehicle when the vehicle is finally assembled. In particular, the invention relates to a method of manufacturing a vehicle roof module, i.e., a large-surface composite structure that is attached on the roof frame and that forms the major part of the roof skin.
High demands are made on the surface quality of the outer skin, especially in manufacturing body panel parts having a foamed backing. In this method, sheets that will later define the outer skin are usually provided with a foamed backing of polyurethane material. The chemical reaction process used to foam the polyurethane material produces a large outgassing volume. This gas volume should be able to escape from the foaming die in order to obtain good foaming results. If the escape path of the gas allows the gas to escape only partially or prevents the gas from escaping at all, air will be trapped in the foamed backing and produce surface defects on the outer skin.
There is a desire for a foaming die as well as a method of manufacturing foamed components (e.g., a vehicle body panel part with a foamed backing) method that can produce foamed components with better quality.
A foaming die according to one embodiment of the invention includes at least one membrane extending across an area to delimit a foaming cavity that is mounted on the inside of the lower and/or upper part. The outside of the membrane is adjacent to a pressure chamber.
The membrane is an integral element of the foaming die and is able to deform elastically so that the volume of the foaming cavity is variable due to the pressure chamber lying behind it. The membrane is able to yield to the foaming pressure resulting from degassing. The additional volume formed by the yielding of the membrane is used for degassing. The gas will therefore not later drift to the outer surface of the foamed component at the portion of the foaming die that is not provided with the membrane.
During this inventive process of providing sheets, in particular deep-drawn plastic or aluminum sheets for roof modules, with a foamed backing, fewer or no irregularities or sink marks are produced on the side of the sheet because the invention allows gas to be released more easily.
The inventive method of foaming components, and particularly a method of providing a vehicle body panel part with a foamed backing, uses the above-discussed foaming die according to the invention. To provide a foamed backing according to one embodiment of the invention, a sheet on which the foamed backing is to be applied is placed in the foaming die. Next, a liquid plastic material, such as liquid polyurethane, is applied onto the sheet. The die is closed to place the liquid plastic material in contact with the membrane. Thus, the sheet itself does not rest on the membrane.
As explained above, the pressure is applied to the membrane on its outside surface during the outgassing of the liquid plastic material to guide the direction of the escaping gas.
Further features and advantages of the invention will become apparent from the description given below and from the accompanying drawings to which reference is made and in which:
The invention is generally directed to a foaming die and a foaming method for applying a foamed backing to a sheet to form a foamed component. A foaming die according to one embodiment of the invention includes at least one membrane extending across an area to delimit a foaming cavity that is mounted on the inside of the lower part and/or the upper part. The outside of the membrane is adjacent to a pressure chamber.
The membrane is an integral element of the foaming die and is able to deform elastically so that the volume of the foaming cavity is variable due to the pressure chamber lying behind it. The membrane is able to yield to the foaming pressure resulting from degassing. The additional volume formed by the yielding of the membrane is used for degassing. The gas will therefore not later drift to the outer surface of the foamed component generated at the portion of the foaming die that is not provided with the membrane.
During this inventive process of providing sheets, in particular deep-drawn plastic or aluminum sheets for roof modules, with a foamed backing, fewer or no irregularities or sink marks are produced on the side of the sheet because the invention allows gas to be released more easily.
Pressure may be selectively applied to the outer chamber to produce a controllable counter pressure in a purposeful way. To this end, a pump may be coupled to the pressure chamber.
Gas outlet openings may be provided in the foaming die between the lower and the upper part. The pump allows the membrane to apply a different counter pressure during the outgassing of the incorporated plastic material. By changing the pressure in a controlled manner (e.g., periodically), the membrane itself can act as a pump to transport the gas contained in the foaming cavity to the gas outlet openings.
The inventive method of foaming components, and particularly of providing a vehicle body panel part with a foamed backing, uses the above-discussed foaming die according to the invention.
To provide a foamed backing according to one embodiment of the invention, a sheet on which the foamed backing is to be applied is placed in the foaming die. Next, a liquid plastic material, such as liquid polyurethane, is applied onto the sheet. The die is closed to place the liquid plastic material in contact with the membrane. Thus, the sheet itself does not rest on the membrane.
As explained above, the pressure is applied to the membrane on its outside surface during the outgassing of the liquid plastic material to guide the path of the escaping gas.
The roof module is manufactured in the foaming die, which is illustrated in FIGS. 2 to 4. The foaming die comprises a lower part 16 and an upper part 18, both of which can be moved together or apart. When the lower part 16 and the upper part 18 are moved together, they define the inside of a foaming cavity 20. In the illustrated embodiment, the lower part 16 comprises a trough-shaped depression while the upper part 18 is nearly flat.
A large-surface membrane 22 of a flexible material is secured in the upper part 18. The inside 24 of the membrane 22 is flush with the inside 26 of the upper part 18 at the edge of the membrane 22. At its edges, the membrane 22 is attached to the upper part 18. A pressure chamber 28 is disposed on the outside of the membrane 22 (i.e., on the side facing away from the foaming cavity 20). The pressure chamber 28 has a relatively small height and extends over almost the entire surface area of the membrane 22, with the exception of its attaching edges. This pressure chamber 28 is fluidically connected with a pump 30.
When the foaming die is closed, the pressure chamber 28 is separated from the foaming cavity 20 in a gas-tight manner by the membrane 22.
The vehicle body panel part in the form of the roof module 10 is manufactured as follows. The deep-drawn sheet 14 is first placed into the lower part 16 when the foaming die is open (
The upper part 18 of the foaming die is moved onto the lower part 16 to close the foaming die (
The method can be terminated after the degassing and the bending of the membrane 22.
Optionally, the invention may also include a control device 32 that drives the pump 30 so that the pump increases the pressure in the pressure chamber 28 until the membrane 22 bends downward against the foaming pressure (
Regardless of whether or not the pump 30 is used, the surface quality of the component provided with a foam backing is improved due to the membrane 22.
It should be understood that various alternatives to the embodiments of the invention described herein may be employed in practicing the invention. It is intended that the following claims define the scope of the invention and that the method and apparatus within the scope of these claims and their equivalents be covered thereby.
Number | Date | Country | Kind |
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10 2004 008 412.2 | Feb 2004 | DE | national |