DE202004005680U1 - Domed closure for fluid pressure vessel has thermoplastic body reinforved by fibres with radial and circular external ribs - Google Patents

Abstract

A cylindrical vessel for the transport of fluid media under pressure has a domed closure. The domed closure is made from fibre-reinforced thermoplastic incorporating more than 10 % wt. fibre, with fibres of length greater than 5 mm. The closure has a number of external reinforcement ribs which stand 5 mm or more above the remainder.

Description

The The present invention relates to a lid for pressure vessels, the lid being made of a fiber reinforced thermoplastic material. The lid is used for this To close the pipe creating a cavity for storing a medium.

The fiber reinforced thermoplastic, consists of more than ten percent by weight Fibers with a fiber length of over 5 millimeters.

festivals, liquid and / or gaseous Media are common in pressure vessels transported, the appropriate diffusion tightness against volatilization of the medium and the mechanical stresses Internal or external pressure as well as the other mechanical, physical and chemical loads withstand.

The increasing demands on functionality and performance modern pressure vessels often lead to the limits of the potential of conventional materials. In these Open areas new, more powerful Materials opportunities product development and optimization. When looking for light, high-strength and rigid materials are encountered in the fiber-plastic composites. By suitable combination of a plastic as a matrix with high-strength Fibers as reinforcement one arrives at a versatile material, the fiber-plastic composite. By choosing a suitable reinforcement structure, Tailored material properties according to the requirements to adjust. pressure vessel conventional steel or aluminum containers are made of fiber-plastic composites in terms of printing technology suitability, but offer beyond that decisive advantages such as low weight and complete corrosion resistance.

Pressure vessel Fiber plastic composites with thermoset matrix systems are known and there are many patents.

As An example is the European patent EP0810081 A1 "Pressure Vessel and Method of Manufacturing Same ". This describes how a closed shell layer made of a plastic exists, in the bevel winding process with a fiber plastic composite wrapped becomes. A similar container principle is described in the European patent EP0333013 A1 "Pressure Vessels". Also in this case, an envelope surrounded with fibers so that the Reinforcing sleeve withstands mechanical loads.

The international patent WO 92/20954 "glass-fiber-reinforced plastic Container, method and apparatus for manufacturing such container "describes one glass fiber reinforced container and a method of manufacturing the same, wherein the container is made composed of two half-shells that pass through in the cylindrical area Gluing together. The half shells are in Resin injection process made using molds thermosetting plastics are used. Because of the half-shell technology is a variation of the container lengths only possible with great effort (new tool).

Other Known designs see the use of sleeves made of fiber plastic composite before, which are arranged in partial areas on a cladding layer the fiber orientation of the sleeve mainly in the circumferential direction. The shell layer takes the resulting personnel in the longitudinal axis of the container on during the sleeve the forces in the circumferential direction of the container receives.

All previously known designs and manufacturing methods of plastic pressure vessels are either too complex and therefore too expensive to manufacture the requirements regarding Tightness or mechanical stress are not too heavy or have optically inadequate outer surfaces. For manufacturing reasons are also the connections to most pressure vessels Loading and / or unloading centered on the bottom of the container.

The The invention is therefore based on the object of such covers for pressure vessels to train that disadvantages mentioned in the prior art can be avoided. In particular is supposed to be a lid with low weight and complete corrosion resistance be created, which still withstands the mechanical stresses and inexpensive to manufacture is, as well as a visually appealing outer surface and the possibility the attachment of connections enables almost any point.

The Task is performed according to a first aspect of the invention in the lid mentioned above solved, that the lid is reinforced with ribs on the inside of the lid. The lid is made of a fiber-reinforced thermoplastic, with more than ten percent by weight of fibers with a fiber length of over 5 millimeters available. The reinforcing effect the ribs only become significant if the ribs are in the course of the ribs a rib height of five Millimeters. The rib height results from the distance between the base of the rib and the top edge of the rib, measured perpendicular to the base of the rib.

The plastic that is between the fiber reinforcement is called a matrix. The MA The lid's trix is based on a thermoplastic, for example - but not exclusively - made of polyethylene (PE), polypropylene (PP), polyamide (PA), polyketone (PK), polyvinyl chloride (PVC), poly-4-methylpentene-1 (PMP) ), Polyacetal (polyoxymethylene, POM), polymethyl methacrylate (PMMA), polystyrene (PS), styrene / acrylonitrile copolymer (SAN), polycarbonate (PC) and / or acrynitrile butadiene styrene (ABS). The matrix can of course also consist of other or a mixture of thermoplastic-based plastics. The matrix material can also have organic and / or inorganic filler materials.

As reinforcing fibers can for example - however not exclusively - glass fibers, Aramid fibers, carbon fibers, polymer fibers, organic fibers, metallic fibers and / or other types of fibers are used.

In In another aspect of the invention, the ribs are on the outside of the lid. The reinforcing effect the ribs on the outside of the lid is only significant if the ribs have a rib height of three in the course of the ribs Millimeters. The rib height results from the distance between the base of the rib and the top edge of the rib, measured perpendicular to the base of the rib.

In Another aspect of the invention are parts of the ribs, with continuous fiber reinforced thermoplastic Reinforced plastic. These partial reinforcements consist of more than ten percent by weight of fibers with a fiber length of over 20 millimeters. Preferably the fibers are in the main loading directions of the individual ribs aligned.

In In another aspect of the invention, the lid is shaped such that he has a cylindrical pipe end on both the inside and the pipe on the outside of the pipe includes. As a result, the cover in the connection area to the pipe can be considerable shorter accomplished as if the cover only covers the tube on one side of the tube. When joining of the thus formed cover with the tube, the tube end is in the The lid is pushed and the air can no longer escape unhindered escape the resulting cavity. In another aspect of For this reason, the invention is at least one opening between the volume, which is between the inside and outside of the pipe comprehensive area of the lid and the lid outside appropriate.

In In another aspect of the invention, the lid is shaped such that the lid is connected to cylindrical tube ends on both sides of the lid can be. In this way, double-chamber or multi-chamber containers can be manufactured. The lid serves as a separation between the two chambers.

In In another aspect of the invention, a drain opening is integrated in the lid. This drain hole serves for almost complete Emptying the containers with horizontal installation. The drain opening can also be in lids be integrated, which are shaped so that the lid on both Cover sides can be connected with cylindrical tube ends.

In a further aspect of the invention are within the scope of the lids that be connected with cylindrical tube ends on both sides of the cover can, radial one or more connections integrated. These connections can serve for emptying or for loading and unloading the respective container chamber.

Especially The described lids can advantageously be used in conjunction with Pipes made of fiber plastic composite with a thermoplastic matrix use long aligned fibers. This ensures that the container only has a low weight. The container then still exists from a combination of materials. In addition to gluing and mechanical Can connect the covers are then welded to the pipe.

The Lid can with good outer surfaces and optically very attractive.

There thermoplastic matrix systems can be used cover according to the invention, for example, very well by shredding and remelting be recycled.

In a further embodiment, the lid with openings for loading and unloading of the container his.

The described covers can typically be used for operating pressures in the container stored media below 25 Mpa (250 bar), preferably 0.1 to Use 12 MPa (1 to 120 bar). The corresponding burst pressure corresponds the value of the respective operating pressure multiplied by 1.1 to 5.

The media to be saved Air, oxygen, nitrogen, carbon dioxide, propane, natural gas, hydrogen or other technical gases or liquids or the like his. The invention is in no special way of storage gases and / or liquids limited.

Possible uses are in an exemplary and non-exhaustive list Use as a lid on pressure vessels for compressed air storage in passenger cars, trucks, buses and trains, as a lid for pressure vessels for fire extinguishers, for rescue systems (e.g. airbags), for fuel gases, for water, for filters etc.

The In the following, the invention is illustrated by means of exemplary embodiments described in more detail on the accompanying drawings.

It shows:

1 a schematic plan view of the lid according to the invention ( 1 ) according to a first embodiment with ribs ( 2 ) and exhaust or inlet openings ( 3 ).

2 a schematic cross-sectional view of the lid according to the invention ( 1 ) according to a second embodiment with external ribs ( 2 ).

3 a schematic cross-sectional view of the lid according to the invention ( 1 ) according to a third embodiment with additional reinforcement ( 4 ) in areas of the ribs ( 2 ).

4 schematic cross-sectional views of the lid according to the invention ( 1 ) where the lid ( 1 ) is shaped in such a way that it encompasses a cylindrical pipe end on both the inside and outside of the pipe. Furthermore, an opening ( 5 ) between the volume that results between the inside and outside of the pipe area of the cover and the outside of the cover.

5 schematic cross-sectional views of the lid according to the invention ( 1 ) where the lid ( 1 ) is shaped in such a way that it encompasses a cylindrical pipe end on both the inside and outside of the pipe. Here, the part that includes the inside of the tube is shorter than the part that includes the outside of the tube. Furthermore, an opening ( 5 ) between the volume that results between the inside and outside of the pipe area of the cover and the outside of the cover.

6 schematic cross-sectional views of the lid according to the invention ( 1 ) where the lid ( 1 ) is shaped in such a way that it encompasses a cylindrical pipe end on both the inside and outside of the pipe. Here, the part that includes the inside of the tube is longer than the part that includes the outside of the tube. Furthermore, an opening ( 5 ) between the volume that results between the inside and outside of the pipe area of the cover and the outside of the cover.

7 a schematic cross-sectional view of the lid according to the invention ( 1 ) according to a further embodiment, the cover being shaped such that it can be connected to cylindrical pipe ends on both cover sides. Furthermore, an opening ( 5 ) between the volume that results between the inside and outside of the pipe area of the cover and the outside of the cover.

8th a schematic cross-sectional view of the lid according to the invention ( 1 ) according to a further embodiment, the lid being shaped such that an outlet opening ( 6 ) is integrated.

9 a schematic cross-sectional view of the lid according to the invention ( 1 ) according to a further embodiment, the cover being shaped such that it can be connected to cylindrical tube ends on both cover sides and one or more openings in the cover ( 6 ) are integrated in the radial direction. These opening (s) can serve both as a discharge opening and as a loading and / or unloading opening.

Claims (7)

1) Lid made of a fiber-reinforced thermoplastic, consisting of more than ten percent by weight of fibers with a fiber length of over 5 millimeters, for pressure vessels characterized in that there are ribs on the inside of the lid and the rib height exceeds five millimeters.  Lid according to claim 1, characterized in that on the outside of the lid Ribs are located and the rib height Exceeds 3 millimeters. Lid according to claim 1 and / or 2, characterized in that parts of the ribs, with continuously fiber-reinforced thermoplastic Plastic consisting of more than ten percent by weight of fibers a fiber length over 20 millimeters, reinforced are.  Lid according to claim 1 to 3, characterized in that the lid is shaped to have a cylindrical tube end both on the inside and outside of the pipe includes.  Lid according to claim 1 to 4, characterized in that at least one openings between the volume that is between the pipe inside and the Pipe outside, comprehensive area of the lid and the lid outside consists.  Lid according to claim 1 to 5, characterized in that the cover on both sides of the cover with cylindrical tube ends can be connected.  Lid according to claim 1 to 6, characterized in that in the lid one or more openings in the radial direction are integrated.