DE19537498A1 - Segmented shell construction with floating inner lining - Google Patents

Abstract

The shell segments (18) are connected from the outside to a supporting skeleton structure consisting of floor assembly, pillars or ribs and end walls. The shell segments, in the load bearing combination, absorb the shear stresses. A floating inner shell (10) is connected to the load bearing outer shell (9) by shear-resistant and flexurally or compressively yielding angle pieces (12). The shell segments may be interconnected by reinforcing edges undertaking the function of a supporting skeleton structure.

Description

The invention relates to a segmented shells construction with floating inner lining, esp especially for rail vehicles.

It is known that the car bodies predominantly from the Large sub-frame assemblies, two side walls, roof shell and put two end walls together. Because of the size These assemblies are large and expensive to manufacture Manufacturing facilities required. To reduce these costs it has long been common to ver car bodies in similar ver to divide tically divided segments (EP 0 360 585; DE 16 30 595 A1; Forecast on structural behavior for a composite city bus in GRFP ", I. Crivelli et al, Composite Manufacturing Vol. 1 No 1 March 1990). Furthermore, the Interior of the well-known body shells due to the lack of accessibility of the interior from the outside problema table. The interior fittings are done in a known manner the door openings, at best through roof openings and Openings made in the end wall area. The assembly of completed assemblies with attached Interior fittings have so far failed due to the necessary joints technology. Hot joining techniques such as welding are eliminated because of the risk of damage to the interior and the Accessibility.

In EP 0489 294 A1, a car body is included the floor and side rails described, in which the Long girders each successive ring frame and U-shaped shells in the form of the car body profile below the window parapet and U-shaped shells in the shape of the Car body profile above the upper window parapet to be brought. The supporting structure is made from the going side members and the ring connecting them  frames formed, with no previous installation of off armor components is provided in these segments. At this known construction is no side wall in the original sense. The ring frame and the windows connect the roof and floor group. As a disadvantage found that the sidewall construction did not meet the requirements complies with the UIC regarding noise and sound insulation of Rail vehicles completely fulfilled. It is necessary, to provide a separate inner shell and insulation. Equipment components can not in the sidewall and Roof segments are integrated.

EP 0260 200 describes a car body with longitudinally running continuous floor and roof rails and with it ver bound floor and roof cross members as well as vertical columns profiles that describe the load-bearing structure form. Similar segmented sidewall, roof, and Floor shell elements are as (aluminum) sandwich construction parts formed with honeycomb core and frame profiles. On the Fastening of the side wall and roof segments is in the this publication was not discussed in detail. The down demountable segmented floor assembly is form-fitting educated. With this body construction too UIC guidelines regarding sound and heat insulation are not met without a separate inner shell and insulation. In There are no references to this document, equipment components in the side wall and roof segments in front of the Integrate assembly of the car body.

The object of the invention is a segmented shell construction wise with floating inner lining of the to create the type mentioned above, in which the manufacturing and assembly effort is reduced, buildings and others Investment costs for manufacturing and assembly saved , a variable "modular" design of the car bodies to create by the number of segments, one Her Positioning the segments with oversize from one tool, one "open" structure and a high accessibility of the Vehicle interior is possible and floor, seats, units in front Assembly of the side walls can be assembled, a  variable material selection for the segments is possible, Outer and inner shells, insulation and fittings and possibly Windows can be made from only one material a simple disassembly or a simple joining process Component replacement and a recycling-friendly construction becomes possible.

The object is achieved by the features of Claims resolved, d. that is, shell segments such as Sidewall shell segments, roof shell segments and sides wall- roof shell segments with a floating interior shell as complete parts from the outside on a supporting structure rib are mounted, the shell segments by their com compact structure and through their connections with each other and their connections with the supporting association are mainly those Shear loads take over, with the floating interior shell by shear-resistant, flexible or pressure switch Thrust angle is formed and the connections of the shells segments with each other by stiffening and covering pro file are used and in further training the Connections of the side wall roof shell segments with one Roof center longitudinal beams are formed from upwards or connecting folds directed below, each with their vertical and horizontal folding surfaces on the parallel contact the surfaces of the central roof rail and with known means such as welding, riveting, gluing are put together.

An embodiment of the invention is based on the Drawings are explained in more detail. The drawings show in:

Fig. 1 shows a schematic exploded view of a car body, with prefabricated flat roof grate structure (flat roof), consisting of a timber frame and shell segments

Fig. 2 shows a schematic exploded view of a car body, consisting of a truss framework formers and and shell segments,

Fig. 3 is a side wall shell segment with bendable thrust angles,

Fig. 4 is a side wall of the outer shell with Aussteifungsbord,

Fig. 5 is a form of Aussteifungsbordes and the connection of the side wall outer shell with a terminal part and pillar trim,

Fig. 6 shows a further form of the compound as Aussteifungsbordes and Fig. 5,

Fig. 7 shows a further form of the compound as Aussteifungsbordes and Fig. 5,

Fig. 8 section AA according to FIG. 1,

Fig. 9 detail Z in Fig. 8,

Fig. 10 shows a further form of the compound of two shells segments in a sandwich structure,

Fig. 11 shows a further form of the compound as shown in FIG. 9,

Fig. 12 detail Z in Fig. 11,

Fig. 13 is a schematic representation of a U-shaped car body segment separated in the center of the roof

Fig. 14 detail Y of FIG. 13,

Fig. 15 shows the connection of the outer shell to the inner shell via a connection structure,

Fig. 16 L-shaped side wall roof shell segment with inwardly directed roof ditch,

Fig. 17 L-shaped side wall roof shell segment with outwardly directed roof ditch,

Fig. 18 L-shaped side wall segment with a continuous roof shell roof middle longitudinal beam,

Fig. 19 a, b, c detail Y of FIG. 18 different roof variants longitudinal beam,

Fig. 19 d, e, f detail X of FIG. 17 different roof variants longitudinal beam.

According to Fig. 1 and 2, the coach body of the rail vehicle set up of a supporting, accessible from all sides truss framework, group on a base 1 and from the associated with this carcass saddle lensegmenten 18 as sidewall shell segment 5, roof saddle lensegment 8 or sidewall Roof shell segment 23 according to FIG. 13. The shell segments 18 are primarily loaded under thrust. In detail, the car body from the precompleted underbody 1 in Stahlprofildifferential- or aluminum integral construction, the associated end walls 2, the possible equidistantly arranged in between columns 3, a set thereon vorkomplet oriented roof frame 4 in steel or aluminum profile integral construction or fiber-composite shell elements and the side wall shell segments connected to this spatial skeleton 5 and roof shell segments 8 according to FIG. 2, which are placed on frames 6 with longitudinal roof beams 7 .

The side wall shell segments 5 shown in FIG. 3 consist of an outer shell 9 absorbing shear loads in monolithic shell construction or sandwich construction and a floating by means of thrust angle 12 with this inner shell 10 , as well as an intermediate heat and sound insulation 11th All necessary equipment parts not shown in the drawings such as windows, ashtrays, folding tables, convection or foil heaters etc. are pre-completed outside of the vehicle with the outer shells 9 and inner shells 10 to form an assembly. Materials such as aluminum, steel, but preferably fiber composite materials, can be used as the material for the side wall shell segments 5 and possibly roof shell segments 8 , depending on the mechanical stress and further boundary conditions. The function of the structural framework can be partially or completely integrated in the side wall shell segments 5 and roof shell segments 8 . According to Fig. 4 are edges as stiffening rims 15 of the shell segments 18 in the forms shown in FIG. 5 to 7 designed. In this embodiment, a separate structure as shown in Fig. 1 and 2 Darge is no longer necessary.

The bracing board 15 according to FIG. 5 consists of a closed pillar and bow cross section in sandwich construction with a bracing board core 16 .

The Aussteifungsbord 15 of FIG. 6 is designed as an open A-för miger column and Spriegelquerschnitt.

A Z-shaped design of the column and cross-section is shown in FIG. 7.

The side wall shell segments 5 and, if applicable, roof shell segments 8 are fastened to the supporting substructure by means of cold joining methods such as gluing, riveting, screwing, toxing or clamping. The selected known connection type is dependent on the load and the materials used of the shell segments 18 and the structure of the frame.

Mounting the shell segments 18 from the outside is made possible by designing the shell segments 18 in the column area in accordance with FIGS. 5 to 11.

The width and height of the inner shell 10 is selected so that it fits between the columns 3 when mounted from the outside.

As a column profile 17 in Fig. 9 an open hat profile shown, with the possibility of from the interior access, covered by a pillar garnish 14 cable duct or a closed box-shaped or trapezoidal column profile 17 of Fig. 10. Here, the shell segment 18 as a sandwich shell segment 13 designed with an integrated inner shell.

FIGS. 11 and 12 show a clamping profile 20, the interim rule the outer shells 9 and the column profile 17 is arranged. A locking and cover profile 19 clamps in the clamping profile 20 , stabilizes and locks the outer shells 9 and the clamping profile 20 is connected to the column profile 17 , so that the outer shells 9 are locked to the column profile 17 and kept at a distance.

Referring to FIG. 13, the side wall-roof shell segment is provided with mold elements 24 23, which are designed in mirror image and can be used so that the part of a complete cup 21 for both vehicle.

In the Fig. 15 is a known compound shape of the outer shell 9 is shown with the inner cup 10 via a cup-shaped or wave-shaped connecting structure 22.

FIGS. 16 and 17 show further possibilities, the upper junction of the side wall-roof shell segments form 23rd

Referring to FIG. 18 is between the side wall Dachschalenseg elements 23 are provided in the manner shown in FIG. 16, a center of the roof cross support 25. This roof center longitudinal beam 25 can be carried out in three preferred variants, as shown in FIGS . 19 a) to c): as a vertically standing T-beam, as a double-T beam and as a box profile with horizontal horizontal webs on the outside.

The roof center longitudinal beam 25 can be designed in a further three preferred variants, as shown in FIGS . 19 d) to f). In this embodiment, the roof rebate is formed on the outside and the central roof longitudinal beam 25 is designed as a T-beam standing vertically on the head, as a double-T beam and as a box profile with horizontal, right-hand webs below.

Reference list

1 floor assembly
2 end walls
3 pillars
4 skeletons
5 side wall shell segments
6 frames
7 roof rails
8 roof shell segment
9 outer shell
10 inner shell
11 Heat and sound insulation
12 thrust angles
13 sandwich shell segment (with integrated inner shell)
14 pillar cladding
15 stiffening board
16 stiffening curb
17 column profile
18 shell segments consisting of:
Sidewall shell segment 5
Roof shell segment 8
Sidewall roof shell segment 23
19 Locking and cover profile
20 clamping profile
21 bowl
22 Cup-shaped or wavy connection structure
24 shaped element
25 central roof beams

Claims (10)

1.Segmented shell construction with floating inner lining and as far as possible pre-assembled, possibly provided with an elastically embedded inner shell, optionally provided with equipment components, possibly similar side wall and / or roof shell segments, which are mounted from the outside and fastened to a supporting structure, characterized by net in that the shell segments (18) factory skeleton from the outside with a support consisting of floor pan (1), columns (3) and ribs (6) and end walls (2) are connected, and the shell segments (18) in the supporting Association CARDINAL Lich the thrust loads take over and a floating inner shell ( 10 ), which is connected by means of shear-resistant and flexible or pressure-soft thrust angle ( 12 ) with the load-bearing outer shell ( 9 ). 2.Segmented shell construction with floating inner cladding and largely pre-assembled, if necessary provided with an elastically embedded inner shell, possibly similar side wall and / or roof shell segments, which are mounted from the outside, as characterized in that the shell segments ( 18 ) take over structural framework function stiffening ribs ( 15 ) are interconnected. 3. Segmented shell construction according to claim 1 and 2, characterized in that the side wall shell segments ( 5 ) and the roof shell segments ( 8 ) are joined together L-shaped and an overlap by means of shaped elements ( 24 ) is designed in mirror image, so that a complete shell ( 21 ) can be used for both sides of the vehicle. 4. Segmented shell construction according to claim 1 and 2, characterized in that the side wall shell segments ( 5 ) and the associated roof shell segment ( 8 ) form a U-shaped segment. 5. Segmented shell construction according to claim 1 to 4, characterized in that the shell elements ( 18 ) made of thermoplastic materials and / or additionally made of transparent thermoplastics, window panes being inte grated in the side wall shell segments ( 5 ). 6. Segmented shell construction according to claim 1 to 5, characterized in that the materials of the shell segments ( 18 ) consist of a base material. 7. Segmented shell construction according to claim 1, characterized in that the connection of the shell segments ( 18 ) by clamping in elastic clamping profiles ( 20 ), and the clamping profiles ( 20 ) with the load-bearing frame, the column profile ( 17 ) and outer shell ( 9 ) ge jammed or undetachable and connected to the outside with a locking or cover profile ( 19 ). 8. Segmented shell construction according to claim 1, characterized in that empty channels run in the column profiles ( 17 ). 9. Segmented shell construction according to claim 1, characterized in that the column profiles ( 17 ) have a trapezoidal cross-section, the shell segments ( 18 ) are attached from the outside and are connected over a large area to the outer belt and, if necessary, to the web and, if necessary, to the inner belt . 10. Segmented shell construction according to claim 1 and 2, characterized in that L-shaped side wall Dachscha lensegmente ( 23 ) are fixed in the vehicle roof center to a continuous roof center longitudinal beam ( 25 ), the connecting folds on the side wall roof shell segments ( 23 ) are directed upwards or downwards and the roof center longitudinal beam ( 25 ) is designed as a T-beam, double-T beam or box section with lateral webs.