GB1594481A - Vehicle body structures and panels therefor - Google Patents

Description

(54) IMPROVEMENTS RELATING TO VEHICLE BODY STRUCTURES AND PANELS THEREFOR (71) We, NATIONAL RESEARCH DEVELOPMENT CORPORATION, a British Corporation established by Staalte, of Kingsgate House, 66-74 Victoria Street, London,.

S.W.1, do hereby declare the invention for which we pray that a patent may be granted to us, and the method by which it is to be performed, to be particularly described in and by the following statement: This invention relates to the structure of vehicle bodies and of parts for them, and to panels for use in such structures. It relates in particular to the bodies of vehicles such as buses. Buses are usually constructed by building an accurately-jigged frame, comprising a series of hoops joined by longitudinal stringers, on to a manufacturer's standard chassis. Facing panels are then attached to the frame. The frame is a large component, occupying nearly the same superficial volume as the finished bus itself, and must be very accurately made; this requires expensive jigs and tooling. Expensive skilled labour is also required to make the frame and to fit the panels to it. Thus bus bodies made in this way are expensive. They also tend to lack rigidity unless the components of the frame are quite massive, thus adding to weight and expense.

A modification of the above construction system, known sometimes as "integral" or "semi-integral" construction, has been used for some buses. In this system chassis and frame are designed together, with the intention that each should only be used with the other.

Weight for weight, the resulting body is usually more rigid than one constructed by the more customary system already described. The requirement for skilled labour to assemble the frame and fit the panels to it is also often reduced. However, the tooling cost is even higher, and because the chassis is no longer a standard item such methods of construction are usually only profitable when very long production runs can be assured.

The present invention arises from appreciating the advantages of making a vehicle body, ready to fit to a typical chassis, from panels of relatively few different shapes that can be mass-produced to high standards of accuracy, and from appreciating that it is possible to make such panels so that they themselves, when assembled to make up the body, can provide it with at least a substantial part of the structural strength that it will require.

The present invention is defined by the claims at the end of this specification and will now be described, by way of example, with reference to the accompanying drawings in which: Figure 1 is a perspective view of a bus, during assembly of a body structure according to this invention; Figure 2 is a perspective view of assembled reinforcement, ready for moulding into a panel; Figure 3 is a diagrammatic section through part of a mould for forming panels; Figure 4 is a broken perspective view through parts of an assembled vehicle; Figure 5 is a section through the joint between two panels in adjacent arches; Figure 6 is a section through another form of joint, between two panels in the same arch; Figure 7 is a diagrammatic section through part of another vehicle; Figure 8 is a detailed section through a joint between another type of panel and the chassis, and Figure 9 is a diagrammatic side elevation of another bus, in which adjacent panels are jointed as in Figure 5.

Figure 1 demonstrates the simple modular construction of bus that is possible with this invention. Side panels 1 and roof panels 2 are assembled together in arch-like formations 3 spanning from opposite sides of the chassis 4.

Each panel 1, 2 is joined not only to adjacent panels in the same arch, or to the chassis, but to the corresponding panels in adjacent arches.

The vehicle body shell is completed by a front panel 5 and a rear panel 6.

Figure 2 shows the reinforcement for one panel according to this invention. This com prises first a primary reinforcement, which ensures in the finished panel sufficient strength for that panel, when assembled with like panels, to play a substantial part in resisting the structural loads of the vehicle. Secondary reinforcement enhances the rigidity of the panels and their resistance to vibration, impact etc., without so substantially adding to their structural strength. The primary reinforcement shown in Figure 2 is in the form of reinforcement mem bers comprising two long side members 10, two short side members 11 and a cross member 12, all of rigid metal angle and secured to each other by riveting, bolting, welding or the like.

The secondary reinforcement comprises metal mesh 13, covering substantially the whole area of the finished panel and spot-welded to the members 10, 11 and 12. Members 10 and 11 are formed with holes 14 to receive bolts by which the finished panels may be joined to adjacent panels or other parts of the vehicle.

Figure - 3 diagrammatically shows a mould in which a panel containing the reinforcement of Figure 2 may be formed. The two parts of the split mould are shown at 20 and 21, and part 21 is formed with bushed apertures 22 to admit pins 23 which may engage with the holes 14 to hold the assembled reinforcement at the correct location within the mould cavity during moulding. Figure 3 plainly shows that the edge region of the panel, formed within region 24 of the mould cavity and containing the primary reinforcement members 10 and 11, will be of comparatively deep section, tapering to a shallower section inboard of the edge; this shallower section will be formed by region 25 of the mould cavity and will contain the secon dary mesh reinforcement 13. The mould will also form a thicker moulded section across the panel to contain the cross member 12. The invention applies particularly to panels, and vehicle bodies made up of them, in which the reinforcement is embedded in a self-skinning, reaction-injection-moulded mass of plastics, for instance of polyurethane base. In a typical case using a mould as just described with reference to Figure 3, the mould is positioned such that the cavity lies approximately horizontal. Part 20 of the mould, which forms the outer surface of the panel, is then removed and the cavity surfaces are coated with a separating agent. The reinforcement is then lowered into the cavity in part 21. Pins 23 are then pushed into the cavity from the outside of the mould, these pins passing through bushes in apertures 22. The pins pass through pre-drilled holes 14 in the reinforcement, and tubular spacers may be placed between the reinforcement and the cavity walls. The reinforcement may thus be located at a predetermined position within the mould cavity.

Part 20 of the mould is then lowered into contact with part 21 and the two parts are clamped together by means of bolts or hydraulic clamps. The mould is then oriented such as to minimise air entrapment in the cavity and a polyolisocyanate mix is pumped into the cavity via a suitably placed gate. Air vents are provided in part 20, a foaming reaction then takes place and after a suitable curing period the mould is returned to the horizontal position and part 20 is removed. The locating pins are then withdrawn and the composite moulding is extracted.

Figure 4 shows part of an assembled vehicle body, comprising assembled side panels 1 and roof panels 2 each containing reinforcement substantially as already described with reference to Figure 2. In Figure 4, however, the secondary reinforcement 13 has been omitted for clarity and the side members 10 are of channel-section, while the shorter side members 11 are still of angle. Recesses 30 are formed in the deepened edge sections 31 of the moulded plastics of each panel to receive bolts 32 by which corresponding panels in adjacent arches 3 are fastened together, and bolts 33 by which the roof and side panels of the same arch are similarly fastened. To improve the rigidity and load bearing capacity of the finished body shell yet further, hoops comprising metal strips 34 joined by welded corner plates 35 are sandwiched in the joints between adjacent arches of panels, and long strips 36 running a substantial part of the length of the body are similarly sandwiched in the joints between corresponding pairs of panels down the length of the vehicle, corner plates 35 being notched at 37 to make clearance for the strips. Figure 5 shows a joint between two side panels 1, in adjacent arches 3, in section and in detail. The joint is sealed by mastic packing 38 and additional sealing and strengthening is provided by strips 39 which fit into suitable recesses in the inner and outer rims of the deep edges 31 of panels 1 and may be fastened by means of adhesive or mechanical fasteners (not shown). Tapered packings 40 may be used to ensure the correct alignment of the two panels before nut 41 is tightened upon bolt 32, and Figure 5 shows clearly that recesses 30 are so deep that the nut and the head of the bolt both engage directly with the metal channel sections. For yet further rigidity, angle section strips 42 are bolted on to hoop members 34 from the inside face of the assembled panels. Figure 4 shows a longitudinal member 43 and cross member 44 of the chassis, and shows how the side panels 1 are fastened to the cross members 44 by bolted connections between the lower ends of hoop members 34 and plates 45,which are in turn bolted at 46 to members 44.

Figure 6 shows an alternative to the method of joining roof panels 1 and side panels 2 shown in Figure 4. Again both panels are formed with deepened edge sections (70), in which long reinforcement members 71, 72 are embedded during moulding. Threaded inserts 73 are attached to the members 71 prior to moulding, and are thus embedded in the roof panels 1 like the members 71 themselves.

These inserts then act as the prelocated nuts for bolts 74 which are inserted from underneath through holes 75 formed in side panels 1. Better alignment and sealing between panels may result from this prefixing of parts of the connections, and the sealing may be further improved by interposing a resilient sealing strip 76 between the two edges 70. Figure 6 also illustrates the possibility of the roof panel 1 being made in two halves joined along the roof centre line. Alternatively the roof assembly could include roof lights, separate panels being used for the roof light and outer areas.

Figure 7 shows part of a cross-section through a bus body made up of panels to yet another design according to this invention.

Here the side panel 50 is shaped with a step 51, which may give clearance for the wheel 52 of the vehicle, thus making possible a reduction in the width of the vehicle. The step 51 may also provide a convenient mounting for a seat 53. In this panel also, as Figure 8 shows most plainly, strong steel wire 54 takes the place of the rigid side frame members 10 of previous Figures. H-section strip reinforcement 55 is moulded into the enlarged section (56) of plastics at the lower rim of the panel, and the wires 54 are clamped to the lower edge reinforcement 55 by means of clamping pieces 57 and.bolts 58, which also make the joint between the side panels 50 and the chassis cross member 59, a packing piece 60 being interposed.

Figure 9 shows another bus of the general kind already described with reference to Figures 4 and 5,. showing in particular the cover strips 39 and a correspondingly longitudinal cover strip 61. It also shows that one of the side panels 1 in the foremost "arch" 3 has been omitted and doors substituted. These doors could also be of panel construction according to the present invention.

One part of a vehicle body, as distinct from a whole body, to which the invention may be applied with particular advantage is a lorry cab. Here there may be just a single arch, or only two or three arches of panels, spanning from one side of the vehicle to the other, joined to end panel sections making up the cab front (including the windscreen) and the rear of the cab. The bottom of the arch panels and of the end panel sections may be anchored direct to the chassis as in constructions previously described. Alternatively, they may be anchored to some frame that gives the neces sary independent rigidity to the assembled panel sections and which will itself, in use, be connected to the chassis. This form of construction, in which the assembled sections are indirectly connected to the chassis in use instead of directly, is of general application to this invention.

WHAT WE CLAIM IS:- 1. A body panel for a vehicle, formed from plastics by moulding and containing reinforcement members adapted to serve as parts of both a transverse and a longitudinal loadbearing frame structure for such a vehicle and to lie in both longitudinal and transverse directions relative to said vehicle when in use, and in which such members include attachment points whereby the panel may be joined in use to transversely adjacent panels so that the transversely-lying members then unite with similar members in such adjacent panels to form part of the transverse load-bearing frame structure of the vehicle, and such that the panel may be joined in use to longitudinally-adjacent panels so that the longitudinally-arranged members in the panel unite with similar members in such adjacent panels to form part of the longitudinal load-bearing frame structure of the vehicle.

2. A vehicle body panel according to Claim 1, formed by reaction-injection moulding and in which the plastics material is of self-skinning type.

3. A vehicle body panel, according to Claim 1, which is of deeper section at least around its edges than it is elsewhere, the reinforcement members being located in the parts of deeper section.

4. A vehicle body panel, according to Claim 3, in which the reinforcement members includes flexible members strong in tension, for instance metal wire.

5. A vehicle body panel, according to Claim 3, in which the reinforcement members include strong rigid members, for instance metal rod of channel-section or angle-section.

6. A vehicle body panel, according to any of the preceding claims, in which the means to join the panel to adjacent panels or other parts of the vehicle comprise holes for riyets, bolts or the like formed in the reinforcing members mounted into the edge of the panel.

7. A vehicle body panel, according to any of the preceding claims, containing secondary reinforcement -- for instance, metal mesh included within the panel during moulding.

8. A vehicle body panel, according to Claim 7, in which the secondary reinforcement is of sheet-like form and is preesnt over a substantial proportion of the panel area.

9. A vehicle body panel according to any of the preceding claims, shaped so as to provide some facility in addition to service as part of the load-bearing structure of the vehicle, for instance to present a seat or to contain an orifice for a window.

10. A vehicle body structure for association in use with a vehicle chassis, comprising: a body shell including a plurality of interconnected, reinforced, moulded plastic body panels containing reinforcing members; in which those body panels are arranged in a lengthwise succession of arch-like structures

**WARNING** end of DESC field may overlap start of CLMS **.

Claims (17)

**WARNING** start of CLMS field may overlap end of DESC **. moulding, and are thus embedded in the roof panels 1 like the members 71 themselves. These inserts then act as the prelocated nuts for bolts 74 which are inserted from underneath through holes 75 formed in side panels 1. Better alignment and sealing between panels may result from this prefixing of parts of the connections, and the sealing may be further improved by interposing a resilient sealing strip 76 between the two edges 70. Figure 6 also illustrates the possibility of the roof panel 1 being made in two halves joined along the roof centre line. Alternatively the roof assembly could include roof lights, separate panels being used for the roof light and outer areas. Figure 7 shows part of a cross-section through a bus body made up of panels to yet another design according to this invention. Here the side panel 50 is shaped with a step 51, which may give clearance for the wheel 52 of the vehicle, thus making possible a reduction in the width of the vehicle. The step 51 may also provide a convenient mounting for a seat 53. In this panel also, as Figure 8 shows most plainly, strong steel wire 54 takes the place of the rigid side frame members 10 of previous Figures. H-section strip reinforcement 55 is moulded into the enlarged section (56) of plastics at the lower rim of the panel, and the wires 54 are clamped to the lower edge reinforcement 55 by means of clamping pieces 57 and.bolts 58, which also make the joint between the side panels 50 and the chassis cross member 59, a packing piece 60 being interposed. Figure 9 shows another bus of the general kind already described with reference to Figures 4 and 5,. showing in particular the cover strips 39 and a correspondingly longitudinal cover strip 61. It also shows that one of the side panels 1 in the foremost "arch" 3 has been omitted and doors substituted. These doors could also be of panel construction according to the present invention. One part of a vehicle body, as distinct from a whole body, to which the invention may be applied with particular advantage is a lorry cab. Here there may be just a single arch, or only two or three arches of panels, spanning from one side of the vehicle to the other, joined to end panel sections making up the cab front (including the windscreen) and the rear of the cab. The bottom of the arch panels and of the end panel sections may be anchored direct to the chassis as in constructions previously described. Alternatively, they may be anchored to some frame that gives the neces sary independent rigidity to the assembled panel sections and which will itself, in use, be connected to the chassis. This form of construction, in which the assembled sections are indirectly connected to the chassis in use instead of directly, is of general application to this invention. WHAT WE CLAIM IS:-

1. A body panel for a vehicle, formed from plastics by moulding and containing reinforcement members adapted to serve as parts of both a transverse and a longitudinal loadbearing frame structure for such a vehicle and to lie in both longitudinal and transverse directions relative to said vehicle when in use, and in which such members include attachment points whereby the panel may be joined in use to transversely adjacent panels so that the transversely-lying members then unite with similar members in such adjacent panels to form part of the transverse load-bearing frame structure of the vehicle, and such that the panel may be joined in use to longitudinally-adjacent panels so that the longitudinally-arranged members in the panel unite with similar members in such adjacent panels to form part of the longitudinal load-bearing frame structure of the vehicle.

2. A vehicle body panel according to Claim 1, formed by reaction-injection moulding and in which the plastics material is of self-skinning type.

3. A vehicle body panel, according to Claim 1, which is of deeper section at least around its edges than it is elsewhere, the reinforcement members being located in the parts of deeper section.

4. A vehicle body panel, according to Claim 3, in which the reinforcement members includes flexible members strong in tension, for instance metal wire.

5. A vehicle body panel, according to Claim 3, in which the reinforcement members include strong rigid members, for instance metal rod of channel-section or angle-section.

6. A vehicle body panel, according to any of the preceding claims, in which the means to join the panel to adjacent panels or other parts of the vehicle comprise holes for riyets, bolts or the like formed in the reinforcing members mounted into the edge of the panel.

7. A vehicle body panel, according to any of the preceding claims, containing secondary reinforcement -- for instance, metal mesh included within the panel during moulding.

8. A vehicle body panel, according to Claim 7, in which the secondary reinforcement is of sheet-like form and is preesnt over a substantial proportion of the panel area.

9. A vehicle body panel according to any of the preceding claims, shaped so as to provide some facility in addition to service as part of the load-bearing structure of the vehicle, for instance to present a seat or to contain an orifice for a window.

10. A vehicle body structure for association in use with a vehicle chassis, comprising: a body shell including a plurality of interconnected, reinforced, moulded plastic body panels containing reinforcing members; in which those body panels are arranged in a lengthwise succession of arch-like structures

down the length of the body of the said vehicle; in which each of the arch-like structures is adapted to span from one side of the vehicle chassis to the other side; in which each of the body panels is joined rigidly to a transversely adjacent panel in one of the arch-like structures, so that reinforcing members within the panels of the arch are also joined to each other to form transverse hoop-like load-bearing members for the vehicle, and in which each of the panels is also joined rigidly to a longitudinally-adjacent panel so that the reinforcing members of joined and longitudinally-aligned panels are also joined to form part of the longitudinal load-bearing frame structure of the vehicle.

11. A vehicle body structure according to Claim 10 in which some of the panels include customary vehicle features such as windows and doors.

12. A vehicle body structure according to Claim 10 in which the body shell of the vehicle is completed by further panels, for instance for the front and rear ends of the vehicle.

13. A vehicle body structure according to Claim 10, in which further arch-like structural members -- for instance, metal rings - are included in the joints between adjacent arches.

14. A vehicle body structure, according to Claim 10, in which further longitudinal structural Supports - for instance, metal rods or strips - are included in the joints between corresponding pairs of panels in adjacent arches along the length of the vehicle body.

15. A vehicle body structure, according to any of Claims 10 to 14, in which the body panels are as claimed in any of Claims 1 to 9.

16. A body panel for a vehicle, according to Claim 1 and substantially as described with reference to the accompanying drawings.

17. A vehicle body structure, according to Claim 10 and substantially as described with reference to the accompanying drawings.