CA2066791A1 - Vehicle seat cushion - Google Patents

Abstract

ABSTRACT OF THE DISCLOSURE
A seat cushion is disclosed, in particular for an aircraft seat, with a supporting body of a foamed plastic with a spring core embedded therein, and a flameproofing layer of flame-retardant plastics foam, to which a covering material is secured, preferably detachably. The supporting body is formed from a lower supporting part of foamed plastic having the spring core embedded therein and a sitting part, also of foamed plastic, preferably of a different density.

Description

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1- 20~6791 VEHICLE SEAT CUSHION

BACKGROUND OF THE INVENTION

Field of the Invention The invention relates to a seat cushion, in particular for an aircraft seat, of the type comprising a supporting body of a framed plastic having a spring core embedded therein and a flameproofing layer of flame-retardant plastic foam to which a covering material is connected, preferably detachably.
Description of the Prior Art A known seat with a cushion of foamed plastic -described for example in published PCT application WO-87/06894 application of C.A. Greiner & Sohne GmbH -comprises a foamed plastic with a support body of an open-celled, resilient plastic foam having a first density and a flameproof layer of an open-celled resilient foamed plastic, provided with a flameproofing agent, having a second density which is different from said first density.
The plastic foam and the flameproof layer are connected with each other, in particular through a foaming process, and are surrounded by a flame-resistant covering material.
In order to achieve a sufficient permeability to air on the part of such a cushion, it has also been proposed, after the completion of the cushion, to push heated needles through, so that a corresponding exchange of air is possible. These cushions have proved to be very successful in practice; however, it has been found that, especially in extreme weather conditions, or under various climatic conditions, the sitting comfort of the seats for the planned usage in vehicles was not sufficient.
In addition, seats for public transport are also known - as disclosed in German Utility model 85 06 816 - which have a seat cushion, which is covered with a seat cover, in which the seat cover and the seat cushion consist of a flame-resistant and low-smoking material. Between the flame-resistant seat cover and the seat cushion, mostly consisting of plastic foam, there is often arranged a glass fibre mat which is intended to prevent the seat cover from burning through in the direction of the seat cushion.
However, it has been found here that in many cases, the .
action of the flames arises from the direction of the floor and the plastic foam of the seat cushion tends to burn, with an intensive generation of smoke, whereby in the case of fire, the vehicle is so full of smoke in the shortest period of time that it is scarcely possible for the occupants to find their bearings. Accordingly, in the case of this known seat, provision is made that beneath the seat cushion in the supporting frame of the seat, a fire-resistant plate is arranged. This requires the use of a special section for mounting the seat padding and also requires an additional expenditure through the arrangement of the fire-resistant plate. In this embodiment, the 3 ~6791 ventilation of the seat was not satisfactory, either.
Seats with cushions of foam plastic are very widely used in modern vehicle construction. They are used above all in rail and road vehicles, but also to a predominant extent in aircraft. Whilst the regulations applicable to rail vehicles with regard to the self-extinguishing construction of the materials which are used, or respectively the generation of smoke, prescribe very strict guiding principles, the regulations applicable in the aircraft industry are even more stringent. Thus, a test is prescribed in the case of seats permitted for use in aircraft, in which the cushions~ in their composition as provided for installation, are directly exposed to a flame from a burner. This flame acts over a period of 2 minutes directly onto the cushion, after which the flame is extinguished or removed. The cushion is extinguished after 5 minutes, if the flames have not extinguished themselves by that time. After this fire test, the weight loss of the cushion must not be higher than 10%. In order to fulfil these extremely strict regulations, and at the same time also achieve a high degree of sitting comfort in the seats in the case of flights of long duration and to achieve a low weight, seat cushions of various open-celled, elastic soft foam plastics, provided with flameproofing agent and having differing densities, are stuck together.
Such a known vehicle seat - as described in ~uropean specification A1 190 064 - comprises several layers of , . : , .
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~ 4 ~ 2 a 66 79 needle fleece, which are surrounded by a flameproof covering material. Between the covering material and the individual layers of needle fleece, to reduce damage by v~ndals, reinforcement mats of metal or glass fibres are arranged. Through the sticking of the individual layers and the many intermediate layers of this vandal-proof layer, sufficient ventilation is still difficult to achieve in the known vehicle seat.
In another known seat for aircraft, in order to produce the complicated three-dimensional fashioning of the seat cushions more simply, the supporting body is formed from a part which is foamed in one piece in a mould and is mixed with flameproofing agents, the surface of which is covered with a flameproofing layer and thereafter with a flameproof covering material. With the known seats, however, the new increased safety specifications and testing regulations for aircraft seats could not be fulfilled.
SUMMARY OF THE INVENTI~N
It is an object of the present invention to provide a seat cushion which deals with the extraordinary ~tresses of seat cushions, in particular in public transport, especially aircraft seats, and with a long d~rability to facilitate maintenance, in particular keeping such seat cushions clean. It i8 a further object of the invention to provide a seat cushion which i6 comfortable to 8i ' on even over a lengthy period of use. It is a still further object - 5 - 206679~

of the invention to provide a seat cushion which exhibit~ a high resi tance to fire and also a long duration of use without destroying the material protective layer.
These objects are achieved in accordance with the invention in that, in a seat cushion of the aforementioned type the supporting body i8 formed from a ~upporting portion of a foamed plastic, having the spring core embedded therein, and a sitting portion, also of foamed plastic, the flameproofing layer being connected to the sitting portion. It is an advantage of the seat cushion in a~cordance with the invention that the components of the cushion having a long durability, and those areas which are hardly exposed to soilin~ or affected in terms of hygiene by the uæer, can be separated simply from those parts which are affected the most by the bodily perspiration of the user and, in the case of a fire, by high temperatures.
Thereby it is possible to separate the sitting part, when it has become soiled or uncomfortable, independently of the part of the seat cushion having the majority of the structural parts. Hence, the cost of such seat cushions can be reduced considerably over the working life of an aircraft or other vehicle, and it is possible, moreover, to adhere to ~tringent re~uirements with regard to the cleanliness and hygiene of the areas of the seat cushion in contact with the user. In addition to this it is now possible, for various categories of seat cushion for example to use the same basic components for business class or economy class, which can be equipped with different sitting parts in terms of ~uality and hence also in terms of price. Furthermore, it is now also possible to take into account the specific factors in the use of such aircraft, for example in short di~tances or in long-haul flights, because then seats can be used which have differing ~ualities with regard to climate, e.g. a better ventilation in long-haul flights or respectively a greater hardness, in order to offer greater resistance to wear.
In a preferred embodiment of the invention the flameproofing layer projects over the sitting part in the direction of the supporting part and overlaps at least the lateral edges of the latter. Problem-free positioning of the sitting part on the supporting part is thus achieved and hence a re-equipping of the seats for the purpose of renewing the sitting part or respectively for fitting with sitting parts having a different property, especially also in connection with cleaning work, can be carried out rapidly and at a favourable cost. Furthermore, it is thereby possible to provide only one of the two parts of the supporting body with a flameproof layer of an elastic plastic foam since, through the construction of this layer, overlapping the supporting part, in the areas of the supporting part which are affected most intensively by a fire, a sufficient protection from fire is achieved.
In an advantageous further development of the invention connecting devices such as burred closures are , arranged between the flameproofing layer and/or the ~itting portion and the supporting part, in the reqion of mutually opposed bearing faces thereof and/or in the overlapping region of the flameproofing layer. This provides an effective, rapidly detachable arrangement, requiring a low weight, for connecting the supporting part with the sitting part. Also a tight seal can be created between the flameproof layer and the sitting part or upporting part, so that the penetration of the flames between the flameproof layer and the supporting part or sitting part is reliably prevented.
To facilitate an exchange of the covering material the supporting part preferably carries connecting means such as a burred tape for securing the covering material.
The supporting part of the seat, ad~acent its bearing surface in contact with the sitting portion, is preferably covered with a flame-retardant covering material which may be secured in position by adhesive. This provides a very stable structural element which can be manufactured in quantity with a high standard of quality, and which meets the high requirements in aviation technology, and moreover is very simple to handle on assembly.
The arrangement, between the sitting and ~upporting parts of the cushion, of an intermediate layer consisting of high temperature resistant fibres and threads, facilitates control of the spread of fire since through this intermediate layer, which is arranged close to the - 8 ~ 6 7 9 1 surface, the majority of the material matter iR encased and thereby in the ca e of a fire only a relatively small ~ volume, which furthermore consists of flame-resi~tant material, i8 present and therefore as a whole the fire behaviour, and also the further spread of the fire, by dropping off a greater quantity of the volume is prevented.
Such an intermediate layer can also be provided between the flameproofing layer and the flame-retardant covering material.
It is advantageous if the fibres or threads of the intermediate layer comprise carbon, metal, aramid fibres such as ~e~lar ~, polytetrafluoroethylene (PTFE) or other high-temperature resistant plastics, because with these materials in the case of fire, a barrier layer i8 created, partially through a carbonisation but also as a whole through the inherent properties of these materials.
The spring core is preferably foamed into the supporting part, more preferably in the rear half of this portion and spaced from one edge thereof, so that the area of the seat cushion which is exposed to the heaviest load, in particular a load which alters greatly, is effectively protected from premature wear and destruction and, furthermore zones are achieved, having differences in their elasticity, distributed over the seat surface, which in addition to increasing the endurance strength, also serve to increase the sitting comfort.
The spring core preferably has, in its unstressed state, a height gr~ater than the thickness of the supporting part, and is prestressed to accommodate it within the supporting part, so that in accordance with the load characteristics for springs, already in the caæe of . small pring wire thicknesses, and hence with a low weight of the spring core, a corresponding spring action is achie~ed.
To provide the required resilient support of the spring core in the supporting part and protection of the covering ma~erial surrounding the supporting part or sitting part the spring core preferably has bearing ~ surfaces which are spaced from the upper and/or lower surfaces of the supporting part.
In order to avoid direct bearing of metal parts of the spring core on the supporting frame for the seat cushion and ensure a longer service life is achieved for the outer covering materials, recessed grooves are preferably arranged in the underside of the supporting part in the region of node points of longitudinal and transverse wires of the spring core in the direction of the bearing surface of the supporting part, and projections ~xtending over the groove base are spaced approximately by the extent of a groove depth, in the direction of the underside of the cushion from the bearing surface of the spring core.
In a preferred embodiment, openings, cavities or perforations are provided in the sitting part, running vertically to the bearing surfaces, to bring about a lO- 206~791 differentiation in the strength- and resilience in the form of weakening cross-sections to match the qualities directly in the zones ad~acent to the surface.
In addition, through the arrangement of these perforations, a better ventilation of the sitting part is achieved for the removal of moisture, as may occur in climatic changes.
Preferably the weakening cross-sections or respectively ventilation openings are arranged in a region of the least stress of the sitting part, i.e. in the region of lateral edges, running vertically to the end edges.
The flameproofing layer and/or the intermediate layer preferably overlap the underside of the supporting part to envelop its lower lateral edges.
The covering material and/or the flameproofing layer of the supporting part preferably overlap the opposed bearing surfaces of the supporting and sitting parts, whereby a substantially plate-shaped composite body of the foamed plastic and of a coating is achieved, the manufacture of which is possible in large quantities, and which therefore makes possible an exchangeable part which is very favourable in terms of C08t for the continuous maintenance of the seats.
The supporting and sitting parts of the cushion are preferably of open-celled foamed plastic, that of the supporting part having a higher density than that of the sitting part, to impart strength to the supporting part and prolong its useful life.

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:,, The supporting part and/or sitting parts are pre~erably divided into regions of differing density so as to optimise ~he weight of these components in relation to the zones having a differing load.
The flameproofing layer i8 preferably also of resilient and/or open-celled foamed plastic, having a density corresponding to that of the sitting and/or supporting part. A higher degree of sitting comfort can be achieved if this material has a low density which immediately adjoins the surface.
Surface regions of the supporting part, adjacent to the bearing surface which abuts the sitting part, are preferably coated with the flameproofing and/or intermediate layer so as to enhance protection of the supporting part in the case of fire and as a whole of the seat padding on the underside facing the cabin floor.
The plastic foam of the supporting part is preferably foamed onto the covering material or onto a fluid-tight intermediate layer connected thereto, for example a plastics, preferably polyethylene, film stuck or sealed onto the covering material. The manufacturing costs and the material weight for the manufacture of the supporting part can thus be reduced by eliminating an additional adhesive layer between the covering material and the plastic foam.
The invention also provides a seat cushion, in particular for a vehicle, with a supporting body of an :. , . :~-. . .

~ - 12 - 2~66791 open-celled, resilient plastics foam and with a flame-resistant material protective layer surrounding the latter, which are connected with each other, preferably by being stuck in places, and with a flame-resistant covering material, encasing at least partial regions of the seat cushion which covering material is connected in particular via a detachable connecting device with the supporting body and/or the material protective layer as defined above, wherein the material protective layer comprises a machine-knitted, multi-layered material, the warp threads of which are arranged so as to be staggered with respect to each other in at least two planes in the woof direction and that the warp thread in each plane are looped around in each case by three weft threads of a weft thread group of eight weft threads and wherein in each case two weft threads loop around each warp thread of the upper plane and one of these loops around the warp threads of the lower plane, in each case spaced apart by a double spacing and the other of these two weft threads loops around the warp threads of the lower plane, lying therebetween and likewise spaced apart by a double spacing. The surprising advantage of this solution, which appears to be relatively ~imple, lies in that with the utilisation of the inherent elasticity of the supporting body, comprising a foamed plastic, in combination with the specifically constructed material and its high elasticity, a high restoring capability is achieved in the case of stresses occurring through the ~- :. ,~

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- 13 - 2~667~1 action of forces or ac~ing on the seat cushion. At the same time, this prestressing existing through the foam material of the ~upporting body keeps taut the material protective layer, which in itself i8 elastic, and in connection with the processing, avoids the creasing which otherwise usually occurs in such material protective layers. Through the fact that this creasing can be eliminated, it is, however, now possible in turn to use in such covering materials high-strength fibres, which are sensitive to breaking in the case of cxeasing, such as for example polyamide fibres and preoxidised polyacrylonitrile fibres. On the other hand, however, folds are also prevented from remaining in the material protective layer through overstretching of the material protective layer at a point, because through sticking the material protective layer with the supporting body as far as possible over the whole surface or over a large part of the surface, the maximum expansions between the individual attachment sites in the sense of adhesion sites are kept small and consequently such excess stresses are likewise reliably avoided. A further advantage of the material protective layer used lies in the high density and in the high cutting resistance owing to the arrangement of the warp threads in several layers in a~ least two planes lying one over the other. Thereby, both a high mechanical resistance strength and also a high flame resistance or favourable burning properties are achieved.

- 14 - 2Q ~ 6~ 9 1 t In a preferred version of this embodiment, a first weft thread loops around each warp thread of the upper plane, a second weft thread ad~acent thereto, in the longitudinal direction of the warp thread, loops around the warp threads not looped around by the first weft thread in the lower plane, a third weft thread, adjacent thereto, only loops around the warp threads looped around by the first weft thread of the lower plane and a fourth weft thread loops around the warp threads in the upper plane, in each case spaced apart from each other by z double spacing, and a further four weft threads with a similar looping path are associated with the warp threads, in each case staggered by a spacing, in the lower or upper plane, in which the warp threads of the upper plane are staggered by a half spacing in the woof direction with respect to the warp threads in the lower plane. The required elasticity in the material protective layer can thus be achieved in that a quite rigidly interlinked layer of warp and weft threads is connected via parts of these weft threads, which are displaceable three-dimensionally, with a material layer of warp and weft threads, having a higher elasticity, in the lower plane, so that despite a high wear resistance in the upper layer, sufficient elasticity with respect to the supporting body is achieved and hence also tearing of the foam plastic out of the supporting body can be prevented through a uniform distribution of the stresses which are introduced.

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The weft threads which loop around the warp threads of the individual planes preferably run between the warp threads arranged between the two planes to gi~e a smooth knitted pattern, which prevents individual weft threads with a lower prestressing from protruding above the surface of the material and hence catching or hanging on the seat surface. Thereby the weft threads can be prevented from being torn off or worn more intensively, whereby the wear resistance and the durability of such a seat cushion is further increased.
Preferably, in the upper side of the material protective layer, facing the support body or the adhesive, the warp threads are only looped around alternately by one of the two weft threads of the group connecting together the warp threads of the two planes. This achieves a distribution of concentrated loads acting on the material protective layer over a greater area, whereby the overall loading of the supporting body is reduced in closely delimite~ areas.
At least some individual warp and/or weft threads are preferabl~ made of polyamide fibres, preferably of 1/56 metregauge, offering a considerable increase in strength, without impairing the seat or its comfort during use, or the durability of the seat cushion.
The warp and/or weft threads are preferably pro~ided with a coating of synthetic material, such as polyvinylchloride (PVC) or polyurethane (PU) so as to ':
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render the protective layer dirt-repellent, a~ is important in particular when used in long-haul aircraft wherein seats are much affected by bodily perspiration and bodily secretions.
An extremely resistant development of the seat cushion is achieved if at least a portion of the warp and weft threads comprise preoxidised polyacrylonitrile and another portion thereof comprise polyamide, the content of polyamide fibres being preferably 30% and the content of preoxidised polyacrylonitrile fibres 70%. The advantage is that such fibres have a high temperature resistance with a low gas emission and at the same time combine thi~
advantage with the advantage of a high tensile elasticity, so that such a material protective layer not only has a protective w~ll against temperature influences but also at the same time against mechanical damage and stresses.
The warp and/or weft threads preferably have a slight twist ~o that the elasticity of the individual threads from which the material protective layer i8 produced is higher and consequently damping properties are achieved.
i The warp and/or weft threads are preferably prestressed and fixed thus by means of adhe~ive in the supporting body. In this way, slack portions and excessive stretching in individual regions of the material protective layer can be prevented.
In another preferred embodiment, the supporting :: `

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- 17 - 2~ ~ 67 body i8 foamed onto the surface of an a~sociated material protective layer facing away from a surface facing the user, if necessary with the interposition of a fluid-tight film coated onto the material protective layer, and i~
connected therewith by the foaming process. In this way, manufacturing time and hence the cost of production are reduced and the handling of the individual parts is simplified.
The material protective layer provided on the surface of the cushion facing the user is preferably attached to the supporting body by a layer of adhesive which is preferably air-permeable to enhance ventilation and comfort.
A flameproofing layer is preferably arranged between the material protective layer and the supporting body, comprising an open-celled resilient foamed plastic, with a density different from that of the supporting body, to enhance the flame resistance and the fire bearing capacity of the seat. This layer is preferably coated on the surface of the material protective layer facing the supporting body, to reduce the thickness of the fireproofing layer and Lmprove comfort.
~ he invention also provides a seat cushion, in particular an aircraft seat, comprising a supporting hody of a fozmed plastic with a spring core embedded therein and a flameproofing layer of flame-retardant plastic .oam, with which a covering material is connected, in particular in a .

detachable manner, preferably as defined above, wherein in the supporting part or re~pectively supporting body in the region of the more intensely stressed zone, a supporting device, in particular a spring core, e.g. of metal wire, is foamed in, whereby the reduced strength or resistance caused by the recesses for an improved ventilation can be balanced out again and hence the foam material of the supporting part or respectivel~ of the supporting body can also maintain its shape over a longer period of use.
The spring core preferably has a base surface approximately flush with an underside of a supporting part or supporting body, so that a major proportion o the stresses acting on the spring core can be diverted into a supporting structure, and hence the shear stresses exerted on the supporting part or supporting body can be reduced by the spring core.
The spring core preferably has a covering surface spaced from an upper part of the supporting part or body, preferably by a distance of 5 to 70 mm. In this way from the outset an adverse effect on sitting comfort can be preve~ted. through the selection of the distance between the upper side of the supporting part or body and the cover surface of the spring core, moreover, the spring characteristic of the seat can be better adapted to the individual wishes of the customer.
The height of the spring core foamed into the supporting part or body is preferably smaller than the thickness of the spring when unstressed. With thi~
prestres~ing of the ~pring core and alteration to the spring characteristic, the action of the spring core only starts after a certain load. Thereby, in the case of people of low weight, the spring core scarcely comes to bear, whereas when used by people of heavier weight, it takes up a proportion of the weight and hence saves the plastic ~tructure of the supporting part or respectively of the supporting body from overloading.
The base and covering surfaces of the spring core are preferably spaced apart from one another by means of bracing elements the length of which, running vertically to the base surface, is smaller than the thickness of the spring core when unstressed. The spring characteristic of the spring core can be altered by varying this spacing.
The terminal edges of the spring core are preferably spaced from the lateral faces and the rear end face of the supporting body, so that in the case of a fire, the spring core is insulated by the plastic foam surrounding it and hence the temperature increase of the spring core is reduced. Thereby, the spring core can be prevented over a long period of time from beginning to glow. In addition, back-lighting through the glowing spring core can be avoided, when the fire extinguishes itself through the self-extinguishing properties of the supporting body or respectively of the flameproofing layer.
Recesses are preferably provided in the region in .. . .--: . .

2~66791 which the spring core i8 arranged, running vertically to the lateral and/or upper face of the cushion, to ensure that a sufficient quantity of air can be removed through the seat, so that the sitting climate of such a seat i8 not adversely affected by the spring core. These recesses are preferably spaced from the spring core or parts thereof ~o that in the case of a fire the spring core cannot heat up too rapidly through the hot fire gases, whereby the security with respect to back-lighting can be further increased. Recesses are also preferably arranged between the lateral edge of the spring core and the lateral faces of the supporting part, so that via recesses running vertically to the surface, a sufficient air exchange is achieved, whereby throuqh recesses running vertically to the lateral faces of the seat cu~hion, these rece~ses can be pressed together when the seat i8 being used, so that they act in the manner of a bellows and lead to an automatic removal of air or respectively ventilation of the seat. This is above all because through the vibrations of the vehicle or respectively movements of the user on the seat or through displacements of the body of the person using the seat, a sufficient air exchange can also take place via thi recess during use.
BRIEF DESCRIPTION QF THE DRAWINGS
Further objects and advantages of the invention will become apparent from the following detailed description when read in conjunction with the accompanying .

~6791 ~ 21 -drawings which illustrate preferred embodimen~ thereof.
In the drawings:
FIG. 1 shows a double bench seat for an aircraft, with seat cushions according to the invention and with back rests;
FIG. 2 shows a seat cushion according to a first embodiment of the invention, comprising a sitting part and supporting part, in side view, in cross section along the line II-II in Fig. 3;
FIG. 3 shows the seat cushion according to the invention in front view, in cross section, along the line III-III in Fig. 2;
FIG. 4 shows a supporting part of the seat cushion of Figs. 2 and 3, in plan view;
FIG. 5 shows a supporting part of a seat cushion of Figs. 2 to 4, in a view from below with the burred tapes of a burred closure arranged thereon;
FIG. 6 shows from the front a vertical cross section of a seat cushion according to a second embodiment of the invention ~ith parts of the fireproofing layer overlapping the supporting part;
FIG. 7 shows from the front a vertical cross section of a seat cushion according to a third embodiment of the invention, with parts of the covering material, projecting over the bearing surface of the supporting part in the direction of the sitting part, or respectively of the fireproofing and~or intermediate layer;

2~6791 _ 22 -FIG. 8 shows a seat cushion in accordance with a fourth embodiment, in a view from below, partially in section;
FIG. 9 shows a seat cushion in accordance with a fifth embodiment, in front view, partially in section;
FIG. 10 shows a bench seat, as usually used in aircraft, with a seat cushion constructed according to the invention, in simplified, schematic, diagrammatic representation;
FIG. 11 shows a seat back cushion according to a sixth embodiment of the invention, in side view, partially in section;
FIG. 12 shows the structure of the material protective layer and its integration into the overall structure of a seat cushion according to the invention in a greatly simplified~ diagrammatic representation;
FIGS. 13 to 20 show in schematic cross sectional front view, various paths of weft threads around the warp threads, arranged in several planes, of material protective layers which can be used in seat cushions according to the invention; and FIG. 21 shows a further embodiment of a seat cushion according to the invention, in simplified schematic representation.
DETAILED DES~RIPTION OF THE PREFERRED EMBODIMENTS

Referring first to Fig. 1~ a double bench seat 1 with two seats 2 is illustrated. Each of the seats 2 _ 23 - 2066791 comprises a back rest 3 and a seat cushion 4. The cushions 4 are identical in construction. The back rest 3 and the ~eat cushion 4 are placed into a supporting frame 5, which may also have any other desired shape.
As indicated schematically, the seat cushion 4 has a supporting body 6, which is formed from a supporting part 7 and a sitting part 8.
As can be seen in further detail from Figs. 2 to 4, a spring core 9 is embedded in the supporting part 7. This spring core lies in a rear half of the seat cushion 4, facing away from an end 10, and extends almost over a full thickness 11 of the supporting part 7, i.e. from an underside 12 to a bearing face 13. The underside 12, lateral edges 14 and a rear end edge 15 are encased by a covering material 16, which also extends over the front edge lO. Consequently, only the bearing surface 13 remains without covering by the covering material 16.
As can be further seen from the illustration, in particular in Fig. 2, node points 17 of longitudinal or respectively transverse wires 18, l9 are arranged in the region of grooves 20 in the underside 12 of the supporting part 7. Consequently, the pro~ections 21 lying between the grooves 20 project over a lower bearing face 22 of the spring core 9, so that when the seat cushion 4 lies on a flat-surfaced supporting frame 5, premature destruction of the covering material 16 by the node points 17 cannot occur and in these regions a longer lifespan of the covering , - 24 - 2l~ 6 67 9 material 16 i8 achieved.
In addition, it is, moreovex, also possible, for example at least between the bearing face 22 of the spring core 9 and the underside 12 or respectively the covering material 16 arranged thereon, to arrange an intermediate layer 23 of high-strength fibres or threads in the manner of a knitted fabric, net, lattice or the like, which may consist of metal, carbon, plastics, ceramics or the like and additionally or at the same time may also be resistant to high temperatures. This intermediate layer 23 furthermore may also, however, if desired, extend over the front end surface 10, the lateral edges 14 and the rear end surface 15, i.e. over the entire surface with the exception of the bearing face 13.
On the bearing face 13 of the supporting part 7, furthermore, burred tapes 24 are arranged, which cooperate with reciprocal burred tapes 25 of burred closures 26, which are arranged on the bearing face 27 of the sitting part 8, lying opposite the bearing face 13. These burred closures 26 serve to attach the sitting part 8 on the supporting part 7 in a detachable manner.
The supporting part 7 may be produced in one piece from a foamed plastic. This plastics foam may be open-celled, and may, moreover, have different elasticity values - adapted to the respective case of usage.
Of course, in a modification of this embodiment, it is also possible~ however, to compose the supporting part, - 25 - 2~ 67 91 as ~hown by dot-and-da~h lines, from several layers 28, 29, 30 of different foamed plastics 31, 32, 33.
However, an embodiment is particularly preferred, in which the spring core 9 is foamed or respectively formed into the supporting part 7. Here, it is possible to prestress the spring core 9 in the foaming mould for the supporting part 7, i.e. to give a higher elastic force in accordance with the physical properties of springs, or respectively to achieve a corresponding spring behaviour with the use of a smaller wire thickness of the springs.
Thereby, however, it is also possible to keep the weight of the spring core 9, and thus of the supporting part 7, low.
The sitting part 8 is formed from a oamed plastic 34, preferably running so as to become narrower from the end edge 10 in the direction of the end edge 15, but in an advantageous manner not imperatively with a lower density with respect to the supporting part 7. The sitting part 8 is surrounded with a flameproofing layer 36, on an llpper side 35 and in the direction of the supporting part 7 projecting over the bearing face 27 of the sitting part 8.
The sitting part 8 may also be provided with an intermediate layer 37, which is arranged between a flameproofing layer 37, formed from a flame-retardant, open-celled foamed plastic 38 and the foamed plastic 34. This intermediate layer 34 may be formed, like the intermediate layer 23, from high-strength fibres or threads in the manner of a knitted fabric, net, lattice or the like, which may ; .

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_ 26 - 2~66791 consist of metal, carbon, plastics, ceramics or the like or of any desired combinations thereof and additionally or at the same time may also be resistant to high temperatures. If the intermediate layer 37 i~ arranged, it i8 preferably formed by fibre~ or threads of carbon, metal, polyester, aramid fibre~ such as ~evlar ~ , ceramics, polytetrafluoroethylene such as Teflon ~ or other plastics resistant to high temperatures, which is arranged on the surface 39, facing the foamed plastic 34 of the sitting part 8, of the foamed plastic 38 forming the flameproofing layer 36, and preferably is stuck thereto.
The fl~meproofing layer 36 formed by the plastics foam 38 and intermediate layer 37 and if necessary the intermediate layer 37 is connected with a connecting face 40, facing the upper side 35, of the foamed plastic 34 of the supporting part 7, in particular is stuck thereto or is foamed thereon or on a fluid-tight barrier film which is connected with the flameproofing layer 36.
The regions of the flameproofing layer 36, projecting over the bearing faces 13 and/or 27, or respecti~ely of the intermediate layer 37, form an overlapping region with the end surfaces lO, 15 and the lateral edges 14 of the supporting part 7. They are preferably attached with burred tapes 41, 42 arranged in the overlapping region on the supporting part 7 or respectively on the covering material 16 of the supporting part 7 and on the flameproofing layer 36 or respectively the intermediate layer 37. Thereby, the end surfaces 10, 15 and lateral edges 14 are covered approximately up to the region of the underside 12 by the flameproofing layer 36.
On the underside 12 of the supporting part 7 or of the covering material 16 arranged on the supporting part 7, burred tape arrangements 43 are arranged for the attachment of a covering material 44, surrounding the sitting part 8 and the supporting part 7 up to the region of its underside 12 and in particular being flame-resistant. An attachment of the seat cushion 4 on a frame part 45 of the supporting frame 5 of th~ double bench seat 1 is likewise possible by means of burred tape arrangements 43.
As illustrated with dot-and-dash lines, it is possible, preferably in the sitting part 8 or in the plastics foam 34, to provide perforations 46 or cavities 47. Through these perforations 46 or cavities 47 it is possible to create in the sitting part 8 or in the supporting part 7 different zones of strength or elasticity, whereby the different loads or the sitting comfort can be taken into account through the construction of such zones. In addition, these perforations 46 or cavities 47 bring about an improved ventilation in the regions immediately adjoining the upper side of the seat 2, which has an advantageous effect in the use of these seats in the case of greatly varying conditions and also in the case of contact over a lengthy period of time, e.g. in long-haul flights.

- 28 - ~ ~6~91 In Fig. 5, the seat cushion 4 i~ Yhown with the supporting part 7 and the sitting part 8 in a view from below, in which the same reference numbers are used for the same parts. The supporting part 7 is overlapped on the end surface 10 and 15 and the lateral edges 14 by the flameproofing layer 36 in the direction of the underside 12. In the region of the rear end face 14, the flameproofing layer 36 overlaps the underside 12 of the supporting part 7 in the direction of the front end edge 10. In this region, on the covering material 16 forming the underside 12 of the supporting part 7, the burred tape 41 is arranged, e.g. through sticking, welding, etc., and forms there, with the burred tape 42 which is arranged on the flameproofing layer 36, the burred closure 26 for the attachment of the sitting part 8 in the region of the rear end face 15 on the supporting part 7. As additionally drawn with dot-and-dash lines, it is also possible to arrange burred closures 26 in the region of the lateral edges 14 between the supporting part 7 and the sitting part 8 for the fixing of the flameproofing layer 36 projecting over the supporting part 7 in the region of the lateral edges 14.
ApprGximately in the rear third of the supporting part 7, preferably in the foamed plastic 32 of the supporting part 7, the spring core 9 is foamed in. In the region of the node points 17 between the longitudinal wire 18 and the transverse wire 19 of the spring core 9, the 2~B6791 _ 29 -grooves 20 are arranged, which produce depressions in relation to the underside 12. Thereby, the regions associated with the grooves ~0 are freed with respect to a frame part 45, whereby the risk of damage or chafing of the covering material 16 is prevented.
It can be seen in addition that on the underside 12, the burred tape arrangements 43 are arranged for the attachment of the covering material 44 covering the upper side 35 of the seat cushion 4, which covering material extends into the region of the underside 12. Further burred tapes 42 serve for the fixing of the seat cushion 5 onto the frame parts 45 of the supporting frame 6.
This embodiment of the seat cushion 4 with its supporting part 7 and the sitting part 8 presents great advantages with regard to the continuous maintenance of these highly stressed seats, because the individual elements are able to be rapidly exchanged in the case of damage, and as in addition it does not represent any great expenditure to carry out cleaning in particular of the sitting part 8 at short intervals. The exchanging only requires a small expenditure of time and no specialist personnel, and in addition no tools are necessary. In addition to this, the sitting parts 8, which are subject to a higher degree of wear, can be exchanged whilst retaining the supporting part 7 and consequently the overall costs for the seat cushions can be reduced over the lifespan of an aircraft. This division of the seat cushion 4 into sitting ' ~, , ' , . ` , ~ : ' ~ ' -, 2~7gl part 8 and the supporting part 7 also bring6 advantages in that for example the supporting part 7 can be produced in very high quantities in industrial manufacture in series, and then, depending on the intended use, provided with a ~itting part 8 designed for the desired type of seat cushion 4.
In Fig. 6, another embodiment of the ~eat cushion 4 is shown, formed from the supporting part 7 and the sitting part 8, in which the same reference numbers are used for the same parts as in the preceding figures. the sittinq part 8 has the flameproofing layer 36, which overlaps the supporting part up to the region of the underside 12, in which burred tapes 41 are attached, for example stuck on, welded on, etc., on the underside 12 or on the material 16 covering the underside 12, which burred tapes 41 cooperate with burred tapes 42 which are arranged on the flameproofing layer 36. Thereby it is ensured that the flameproofing layer overlaps the supporting part 7 up to the region of the underside 12 and thereby no openings arise on the lateral edges 14 or end surfaces 10, 15, whereby also in these regions penetration of flames in the case of fire is effectively prevented. The flameproofing layer 36 is additionally covered by the covering material 44, which is attached via the burred tape arrangements 43, which are likewise arranged in an adjacent manner on the underside 12 opposite the burred tapes 41, 42 in the direction of a central axis 48.

- 31 - 206~791 In Fig. 7 another embodiment of the seat cushion 4 is qhown, in which the same reference numbers are used for the same parts as in the preceding figures. In this embodiment, the qupporting part 7 i8 provided on the underside 12 with the flameproofing layer 36, e.g. the flame retardant foamed plastic 38 and the intermediate layer 37 associated with the foamed plastic 33 of the supporting part 7, which intermediate layer projects on the lateral edges 14, but also on the end surfaces lO, lS over the supporting part 7 by a thickness 49 of the sitting part 8 in the direction of the upper side 35. The sitting part ..
8 has on its connecting face 40 facing the upper side 3~
the intermediate layer 37 and the flameproofing layer 36 formed from the flame retardant foamed plastic 38, ending at the lateral edges 14 or end surfaces 10, 15 corresponding to the external outline of the supporting part 7. The covering material arranged on the upper side 35 of the supporting part 8 overlaps the sides 14 or end surfaces 10, 15, in the direction of the underside 12 of the supporting part 7 and is attached to the supporting part 7 by means of the burred tape arrangements 43 arranged on the lateral side~ 14 or end surfaces 10, 15.
Thi~ embodiment makes possible an exchange of the sitting part, in which through the burred tape arrangements 43 in the region of the lateral sides 14 or end surfaces 10, 15 a rapid dismantling is possible. Because the regions of the underside 12, which is difficult to gain - 32 - 20~6791 access to, do not have any fixing devices or burred tape arrangements 43 for the covering material 44. Furthermore, in this embodiment, it i~ possible to di~pense with additional fixing arrangements between the supporting part 7 and the sitting part 8 and to undertake the attachment of these elements to each other through the covering material 44, overlapping into the region of the underside 12, with the burred tape arrangements 43. Thereby, a further simplification in the manufacture of the seat cushion 4 is achieved, whereby this represents a very favourable solution with regard to cost.
Finally, the arrangement of the spring core is not of course bound to the position illustrated in the figures, but the core may be provided in any desired region of the supporting part, if necessary also with different vertical or strength factors or elastic forces, distributed o~er the cross-section. Furthermore, the embodiment of the individual layers, the use of the various raw materials for the plastics foams and the like may be modified as desired, in order to match them to the various requirements.
The supporting body 6, which is formed from the supporting part 7 and the sitting part 8, may preferably be formed from the underside 12 in the direction of the upper side 35 from foamed plastics with differing density, in which, preferably, in the direction of the upper side 35, the foamed plastic has a lower density. Generally the preferred density of the foam used for the supporting body , . .. :

2~66791 6 i8 20 kg/m3 to 80 kg/m3. The flameproofing layer 36 may be formed, beyond the described embodiment with the flame-retardant foamed plastic 38 of the intermediate layer 37 and the flame-retardant covering material 16, 44, only by a flame-retardant covering material 44, or flame-retardant covering materials 36, 44 in combination, with the intermediate layer 37 comprising high temperature .
resistant fibres or threads. This flameproofing layer 36 may be arranged on the supporting part 7 and/or the sitting part 8.
In Fig. 8, with the aid of a bottom view of the seat cushion 4 - in which the same reference numbers were used in turn for the same parts - a possible distribution of recesses 50, 51, 52, 53, S4 is illustrated, in combination with a supporting device 55, which is formed by the spring core 9. From this illustration, it can be seen that in addition to the reinforcement of a central sitting surface 56, achieved by the spring core 9, which surface 56, as indicated with dot-and-dash lines, is formed by the bottom and the side of the upper thighs facing the seat cushion 4, the number of recesses 50 to 54 is greater than in the remaining regions. Thus, in these regions which are affected most strongly both by bodily perspirations and from the point of view of weight, a corresponding exchange of air i8 achieved and, through also using the supporting device 55, a long lifespan of the seat cushion 4 is achieved. At the same time, however, a reduction in weight of the seat cushion 4 is achieved, because in the region in which the spring core 9 is arranged, through the greater number of recesses 50 to 54, weight is saved in the supporting part 7 of plastics foam. If this saving on weight is not ~ufficient to take up the exce~s weight of the spring core 9, then for example recesses 58 may also be provided in lateral faces 57, which then serve principally for weight reduction and only bring immaterial improvements to the "sitting climate" of such a seat cushion 4.
Of course a spring core 9 or a correspondingly constructed supporting device 55 can also be used in those seats in which an intermediate layer 59 is formed by a moisture- or fluid-tight barrier film 60. In this case, through suitable measures it should be ensured that after the direct foaming on of the supporting part 7 onto the barrier film 60, a sufficient passage of air is brought about in the direction of the covering material 44 or of the flameproofing layer 36. This may take place by melting on or milling off the intermediate layer 59. If a barrier film of high-strength fibres is arranged in addition to this fluid- or moisture-tight barrier film 60, then this barrier film of high-strength fibres may also be removed in the region of the perforations with larger openings, for example by cutting out or separating individual springs or lattice parts, in order to achieve a greater permeability by air in the direction of the caverns , . , , .
-. ., , ~
-, . , -. .
.....

.

- 35 - 20~6791 formed in the flameproofing layer 36 consi~ting of open-celled plastics foam.
In Fig. 9 a further embodiment is illuRtrated, in which the same reference numbers are used for the same parts as in the preceding figures.
The seat cushion 4 of Fig. 9 again comprises the flameproof covering materials 16, 44, a flameproofing layer 36, an intermediate layer 49 and a supporting body 61. The flameproof covering material 16 is connected on a rear face 62 of the seat cushion 4 via an adhesive 63 with the flameproofing layer 36, whilst the part of the covering material 44 facing the sitting surface 56 is exchangeable by means of burred tapes 64.
In the interior of the supporting body 61, produced from a plastics foam mixed with solid flame retardants, a spring core 9 is foamed in as supporting device 55. Whilst in the previously described embodiments, the plastics foam of the supporting body 61 entirely penetrates the spring core 9, in ~his embodiment, the supporting device 55 is surrounded by a plastics film 65 or is encased therein.
The plastics film 65 is air-tight and i8 also secured with air-tight welds, 50 that it acts as an air cushion 66 with the supporting device 55 embedded therein. In the case of a loading of the supporting device 55 or respectively of the ~pring core 9, the air in the air cushion 66 is more highly condensed~ in which the seat, after being relieved of the load, not least returns into its original position - 36 - 2Q~791 again through the action of the spring core 9. The advantage of this embodiment lies above all in that a corresponding volume of air is created in the supporting -` body 61, 80 that the seat cushion 4 can be used to a limited extent as a float. It is only important here that the buoyancy of the seat cushion 4 is so great that a r person moving in the water receives sufficient buoyancy to keep himself above water.
The supporting device 55, arranged in the supporting body 61, for example the spring core 9, serves to increase the lifespan and to alter the spring characteristic of the seat cushion 4. In order now to be able to match the spring characteristics to particular requirements, the height 67 of the supporting device 55 between base surface 68 and cover surface 69 in a layer foamed into the supporting body 61 is smaller than the thickness 70 of the supporting device 55 or of the spring core 9 in it~ unstressed state. Thi~ prestressing is achieved in that the base surface 68 and the cover surface 69 are spaced apart from each other by means of bracing elements 71, the length of which, running vertically to the base surface 68, is smaller than the thickness 70 of the unstressed spring core 9. It is thus possible to prestress the supporting device 55 or the spring core ~ to any desired extent, so that the spring characteristics of such a seat cushion 4 can be altered in any desired manner.
In this embodiment the cover surface 69 is covered , . , ' :' 37 _ 20B6791 by an intermediate layer 72. Such an intermediate layer may be placed directly onto the cover ~urface 69. A
thicker layer can thus be achieved, and through this a uniform distribution of the load onto the entire spring core 9, without parts of the spring core 9 being felt by the user as intrusive pressure sites. Such an intermediate layer 72 may consist of a network, lattice, knitted fabric or the like, of wire or of glass fibres, preferably a lattice which has a correspondingly high inherent rigidity, so that it can span the cover surface 69 in the manner of a bridge, in order to make possible a sufficient load distribution over the entire cover surface 69 of the spring core 9.
In addition, in this embodiment, the density of the plastics foam of the supporting body 61 may be higher in the region between the cover surface 69 of the supporting device 55 and the intermediate layer 59, than in the remaining regions of the supporting body 61. This is indicated diagrammatically by denser shading of the region between the cover surface 69 and the intermediate layer 59.
The loads which act on the seat cushion 4 in the direction of load - arrow 73 - can thus be distributed uniformly over the spring core 9. Through the greater hardness of a denser foam material of the supporting body 61, a type of resilient insext plate is created, which distributes loads, acting partially in a punctiform manner, by the person sitting on the seat, uniformly onto the spring core 9.

. - . .. . :
. ; ~.
.

38 2Q6~791 Th~reby, pressure sites by individual parts of the spring core 9 are avoided.
This increase in the density of the foam material of the supporting body 61 in the region above the spring core 9 may be achieved by the intermediate layer 72 which leads to a more rapid cooling of the plastic foam and hence to a higher density. However, it is also possible, through corresponding temperature controls, to accelerate hardening in this region of the mould in the production of the supporting body 61, to achieve higher density or the formation of a thicker skin. This thicker skin has the advantage that it has a higher number of closed cells.
In Fig. 10, a bench seat 101 is shown, in particular for use in a passenger aircraft, but which is also suitable in a similar manner for example for railways, in particular for long-distance trains or the like. this bench seat 101 consists of a supporting frame 102 and two seats 103 and 104 arranged thereon. Each of the seats 103 and 104 is produced from a seat cushion 105, forming a sitting surface, and a seat cushion 106 forming a back rest. The seat cushion 106 has a surface 107 facing a user and a rear surface 108 facing away therefrom. The seat cushions 105 and 106 are usually inserted into the supporting frame 102 and are fixed thereon if necessary with burred tapes and the like.
In Fig. 11, the seat cushion 106, forming the back rest, is shown on an enlarged scale. The seat cushion consists of a supporting body 109 of plastics foam 111, mixed if necessary with flame-retardant materials 110, which is usually constructed so as to be open-celled or with a large proportion of open cells. This supporting body 109 is surrounded on all sides by a material protective layer 112. A casing of a covering material 113 may be placed directly onto this material protective layer 112, which casing of covering material 113 may be attached if necessary by means of a detachable connecting device 114, e.g. burred tapes 115, on the material protective layer 112. However, it is also possible to arrange between the material protective layer 112 and the covering material 113 a flameproofing layer 116 of an open-celled, resilient foamed plastic with a lower density than the supporting body 109. This flameproofing layer 116 is, however, not obligatory and may also be entirely oliminated depending on the case of application. The material protective layer 112, as shown diagrammatically in the upper region of the seat cushion 106, is fixed in its position on the supporting body 109 with layers 117 of adhesive 118 distributed over the surface. The material protective layer 112 may extend here in a seamless manner from the rear surface 108 into the region of a lateral edge 119 between the surface 107 and lateral faces 120. The material protecti~e layer in the region of the surface 107 may then be formed by a further material part. On the other hand, however, it is likewise also possible to , ., . ~; ,, .. , ~.:.. .

~ 40 ~ 206 6 79 arrange the material part of the material protective layer 112, forming the surface lQ7 or respectively facing the latter, over the lateral faces 120 into the region of the rear ~urface 108, and to provide the ~oint between the material parts of the material protective layer 112 between the lateral faces 120 and the rear face 108. The position of the plane of separation is preferably established as a function of the desired deformation behaviour of the seat cushion 106 and the mechanical stresses owing to the construction of the supporting frame 102 for the seat cushion 106, and can be arranged accordingly, as desired.
Of course, the embodiments described for the seat cushion 106 may also be used for the production of the seat cushion 106 and the statements made hitherto and the subsequent embodiments also apply to the seat cushion 105 in an identical manner.
In Fig. 12 the material protective layer 112 is illustrated diagrammatically in the manner of a knitted pattern, in which the individual weft threads 121, 122, 123, 124, 125, 126, 127, 128 of a group 129, each drawn only as a line, are shown in their looping path in relation to the warp threads 130 to 134, which are arranged in a plane 135 indicated diagrammatically by thin lines, and the warp threads 136 to 141, which are arranged in a plane 142 indicated diagrammatically by thin lines.
The two planes 135 and 142 are spaced apart from .:, ,, - 41 - 20~679~

each other vertically by a distance 143, which corresponds at least to the thickne~s 144 of one of the warp threads 130 to 134 and 136 to 141.
The structure of the material protective layer 112 i8 such that the weft thread groups 129 are arranged in the re~uired number one after the other in longitudinal direction of the warp threads 130 to 134 or respectively 136 to 141.
To form the material protective layer 112 the warp threads 136 to 141, arranged in a uniform distribution 145 in longitudinal direction of the weft threads 121 to 128 in the plane 142, are likewise enmeshed with the warp threads 130 to 134 arranged in the further plane 135 likewise in the uniform distribution 145. The warp threads 130 to 134 of the lower plane 135 are staggered with respect to the warp threads 136 to 141 of the upper plane 142 by a half spacing 146 in the direction of the weft threads 121 to 128.
~ `he path of the individual weft threads 121 to 128 is now as follows: The weft thread 121 loops around two warp threads 136 and 137 of the upper plane 142, which are arranged in the spacing 145 from each other, then loops around the warp thread 131 of the lower plane 135, which is arranged between the last warp thread 137 looped around in the upper plane 142 and the warp thread 138 immediately following it in the woof direction - arrow 147 -, then loops around the warp threads 138, 139 of the upper plane ' 20~79~ -142, then the warp thread 133 of the lower plane 135, then again two warp threads 140, 141 of the upper plane 142 and so on.
The following weft thread 122, in longitudinal direction of the warp threads in the meshing direction, however, merely loops around the warp threads 130, 132, 134 arranged in the lower plane 135 at a distance corresponding to twice the spacing 145.
The weft thread 123 arranged thereafter, however, in the lower plane 135 loops around the warp threads 131, 133 which have nok been looped around with the previous weft thread 122, and so on. Thereafter follows a weft thread 125, only associated with the warp threads of the upper plane 142, which weft thread 124 in turn merely loops around the warp threads 136, 138 and 140 arranged at a distance of twice the spacing 145.
The weft thread 12S then has the same type of looping, with regard to the path, as the weft thread 121, but in the lower plane 135 only the warp thread 130, 132, 134 i5 looped around, which was not looped around by the weft thread 121. An identical displacement of the warp threads 137 and 138 and also 139 and 140, connected with each other by the weft thread 125 in the upper plane 142, takes place with respect to the warp threads 136 and 137, 138 and 139 and also 140 and 141, connected with each other by the weft thread 121 in the upper plane 142, by the spacing 145.

. .

~ :: . . ..

20~679~

There follow~ on therefrom a weft thread 126, which loops around the same warp threads 131, 133 as the weft thread 123 and the subsequent weft thread 127 loops around the same warp threads 130, 132, 134 as the weft thread 122.
The conclusion of the weft thread group 129 i8 formed by the weft thread 128, which loops around those warp threads 137, 139 and 141 which are arranged in the upper plane 142 and which are not looped around by the weft thread 124.
The material protective layer 112 is stuck by means of adhesive 149 over a layer 148, in this case over the complete surface, onto the supporting body 109, in which the material protective layer 112 is illustrated diagrammatically as a block in the region adjoining the illustration of the individual threads.
Furthermore, the looping path of the weft- and warp threads 121 to 128, 130 to 134 and 136 to 141 is illustrated in end view for the weft thread 121 in Fig.
13, for the weft ~hread 122 in Fig. 14, for the weft thread 123 in Fig. 15, for the weft thread 124 in Fig. 16, for the weft thread 125 in Fig. 17, for the weft thread 126 in Fig.
18, for the weft thread 127 in Fig. 19 and for the weft thread 128 in Fig. 20, so that viewing together the loops of the weft threads 121 to 128 in Figs. 13 to 20 produces a weft thread group 129. Over the entire length of the material protective layer 112, therefore, the weft thread groups 129 are arranged recurrently.

~' , ' - 44 ~ 7~

In Fig. 21 a variant embodiment of the seat cushion 106 is shown, in which the individual layers are indicated diagrammatically by blocks.
It can be seen from this illustration, that onto a material protective layer 112,-with the interposition of a film 150, if necessary coated thereon, for example a polyethylene- or polyurethane (PU) film, which may be constructed as a melting film, the supporting body 109 is foamed on directly and is movably connected to the film 150 or to the material protective layer 112. On the surface of the supporting body 10g, facing away from the film 150, a material protective layer 112 is then stuck via layers 151 of adhesive 149, which are distributed over the surface of the supporting body 109 and spaced from each other, which material protective layer 112 forms the surface 107 of the seat cushion 106 facing the user.
The advantage of this layered structure and the connection of the individual layers with each other lies in that the manufacturing process can be simplified through the foaming on of the supporting body 109 onto the material protective layer 112, whereas the comfort of the seat cushion 106 when in use is not impaired, because the material protective layer 112, facing the user, is given a high degree of permeability by air, via attachment regions spaced from each other through the adhesive 149, in the region of the material protective layer 112, and therefore in the case of a compression of the supporting body 109 by , , :

' .' ~

2~66791 the user leaning against the seat cushion 106, the air can escape and hence the elasticity of the supporting body 109 and of the material protective layer 112 can be utilized to the full. If, in fact, the further material protective layer 112 were formed by a foaming process on the supporting body 109, then the seat cushion 106 would act as an air balloon and would be felt as a hard body, whereby the sitting comfort of the ~eat cushion 105 is lost.
Any other desired combinations of the individual features previously described may form in each case individual solutions, independent in themselves, in accordance with the invention. Furthermore, it is pointed out that in the partially diagrammatic illustrations of the seat cushions according to the invention, the individual layers and plies were illustrated in a distorted and disproportionate manner with regard to scale, in order to illustrate the construction more clearly. Above all, the thread thicknesses of the individual weft- and warp threads 121 to 128, 130 to 134 and 136 to 141 were greatly exaggerated as regards scale and the individual threads were illustrated in a distorted manner with regard to their spacing in their position in longitudinal direction of the warp threads, for the purpose of better illustration.

Claims (50)

1. A seat cushion comprising a supporting body of a foamed plastic, a spring core embedded in said supporting body, a flameproofing layer of flame-retardant plastics foam around an outer surface of said supporting body and an outer covering material attached to said flameproofing layer, wherein said supporting body comprises a lower supporting part and an upper sitting part, both of foamed plastics, and said flameproofing layer is connected to said sitting part.

2. A seat cushion according to claim 1 wherein said covering material is detachable from said flameproofing layer.

3. A seat cushion according to claim 1, wherein said flameproofing layer projects beyond said sitting part in the direction of said supporting part and overlaps said supporting part at least along lateral edges thereof.

4. A seat cushion according to claim 1, wherein said sitting and supporting parts are connected together by burred closures.

5. A seat cushion according to claim 1, wherein said outer covering material is secured around said supporting part by means of a burred tape closure.

6. A seat cushion according to claim 1, wherein said flameproofing layer is secured to said supporting body by a burred closure arrangement.

7. A seat cushion according to claim 1, wherein said supporting part has at least part of its outer surface not contacting said sitting part, coated with a flame retardant covering material.

8. A seat cushion according to claim 7 wherein said flame-retardant covering material is elastically deformable.

9. A seat cushion according to claim 7 wherein said flame-retardant covering material is bonded to said supporting part by a layer of adhesive.

10. A seat cushion according to claim 1 further comprising an intermediate layer, between said supporting body and said flameproofing layer, comprising a high temperature resistant material selected from fibres and threads.

11. A seat cushion according to claim 10 wherein said high temperature resistant material is selected from fibres and threads of carbon, metal, polyester, aramid fibres, ceramic material, polytetrafluoroethylene and other high temperature resistant plastics.

12. A seat cushion according to claim 1 wherein said supporting part has front and rear edges and said spring core is foamed therein at a position spaced further from said front edge than from said rear edge.

13. A seat cushion according to claim 1 wherein said spring core has a height when unstressed which is greater than that of said supporting part but is prestressed to a height less than that of said supporting part.

14. A seat cushion according to claim 1 wherein said spring core has upper and lower bearing surfaces spaced inwardly from respective upper and lower surfaces of said supporting part.

15. A seat cushion according to claim 14 wherein said spring core comprises intersecting longitudinal and transverse wires and wherein recessed grooves are provided in the lower surface of said supporting part, in the region of points of intersection of said wires.

16. A seat cushion according to claim 1 wherein recesses are formed in said sitting part, extending upwards from a lower surface thereof which contacts said supporting part.

17. A seat cushion according to claim 16 wherein said recesses are situated in the region of lateral edges of said sitting part.

18. A seat cushion according to claim 1 wherein said flameproofing layer covers opposite lateral sides of said supporting body.

19. A seat cushion according to claim 18, wherein said covering material covers opposite lateral sides of said supporting body and has lower edges secured to an underside of said supporting part.

20. A seat cushion according to claim 1 wherein said sitting part and said supporting part are made from open-celled foamed plastics of different densities, the density in the sitting part being less than that in the supporting part.

21. A seat cushion according to claim 1 wherein said supporting part is divided vertically into regions of differing densities.

22. A seat cushion according to claim 1 wherein said flameproofing layer comprises an open-celled foamed plastic having a density which corresponds approximately to the density of the foamed plastic of at least one of the sitting part and the supporting part.

23. A seat cushion according to claim 1 wherein the plastics foam of the supporting part is foamed onto the covering material.

24. A seat cushion according to claim 1 wherein the plastics foam of the supporting part is foamed onto a fluid-tight intermediate layer, connected to the covering material.

25. A seat cushion for a vehicle, comprising a supporting body of an open-celled, resilient plastics foam surrounded by and attached to a flame-resistant material protective layer, and with a flame-resistant covering material, encasing at least partial regions of the seat cushion which covering material is secured by detachable connecting means to at least one of said supporting body and said material protective layer, wherein the material protective layer comprise a machine-knitted, multi-layered material having warp threads which are arranged so as to be staggered with respect to each other in upper and lower planes in a woof direction, wherein the warp threads in each plane are looped around in each case by three weft threads of a group of eight weft threads and wherein in each case two weft threads loop around each warp thread of the upper plane and one of these loops around the warp threads of the lower plane, in each case spaced apart by a double spacing and the other of these two weft threads loops around the warp threads of the lower plane lying therebetween and likewise spaced apart by a double spacing.

26. A seat cushion according to claim 25, wherein a first weft thread loops around each warp thread of the upper plane, a second weft thread adjacent thereto, in the longitudinal direction of the warp thread, loops around the warp threads not looped around by the first weft thread in the lower plane, a third weft thread, adjacent thereto, only loops around the warp threads looped around by the first weft thread, of the lower plane and a fourth weft thread loops around the warp threads in the upper plane, in each case spaced apart from each other by a double spacing, and a further four weft threads with a similar looping path are associated with the warp threads, in each case staggered by a spacing, in one of said lower and upper planes, and in which the warp threads of the upper plane are staggered by a half spacing in the woof direction with respect to the warp threads in the lower plane.

27. A seat cushion according to claim 25 wherein the weft threads which loop around the warp threads of the individual planes run between the wasp threads arranged in the two planes.

28. A seat cushion according to claim 25 wherein the material protective layer has an upper side, facing the supporting body, or wherein the warp threads are only looped around alternately by one of the two weft threads of a weft thread group connecting the warp threads of the two planes with each other.

29. A seat cushion according to claim 25 wherein at least individual ones of said warp- and weft threads are formed by polyamide fibres.

30. A seat cushion according to claim 25 wherein at least some of said warp- and weft threads are provided with a coating of synthetic material.

31. A seat cushion according to claim 30 wherein said synthetic material is selected from polyvinylchloride (PVX) and polyurethane (PU).

32. A seat cushion according to claim 25 wherein at least a portion of the warp- and weft threads comprise preoxidised polyacrylonitrile and another portion thereof comprise polyamide.

33. A seat cushion according to claim 32 wherein the content of polyamide fibres is about 30% and the content of preoxidised polyacrylonitrile fibres is about 70%.

34. A seat cushion according to claim 25 wherein at least some of said warp- and weft threads have a slight twist.

35. A seat cushion according to claim 25 wherein at least some of said warp- and weft threads are prestressed in a fixed state by means of adhesive on the supporting body.

36. A seat cushion according to claim 25 wherein the supporting body is foamed onto a surface of an associated material protective layer, facing away from a surface facing the user, and is connected thereto by the foaming process.

37. A seat cushion according to claim 36 wherein a fluid-tight film is interposed between the supporting body and the material protective layer.

38. A seat cushion according to claim 25 wherein the material protective layer provided on the surface of the supporting body facing the user is attached by means of an air-permeable layer of adhesive on the supporting body.

39. A seat cushion according to claim 25 wherein between the material protective layer and the supporting body is arranged a flameproofing layer comprising an open-celled, resilient foamed plastic with a density different from that of the supporting body.

40. A seat cushion according to claim 39 wherein said flameproofing layer is coated on the surface of the material protective layer facing the supporting body.

41. A seat cushion for a vehicle seat, comprising a supporting body of a foamed plastic with a spring core embedded therein and a flameproofing layer of flame-retardant plastic foam, to which a covering material is releasably attached, wherein a supporting device is provided in the supporting body in a region subject to particular stress during use.

42. A seat cushion according to claim 41 wherein said supporting device comprises a spring core made of metal wire.

43. A seat cushion according to claim 42 wherein said spring core has a base surface positioned approximately flush with an underside of the supporting body.

44. A seat cushion according to claim 42 wherein a covering surface of the spring core is arranged spaced from an upper side of the supporting part by a distance of 5 to 70 mm.

45. A seat cushion according to claim 42 wherein the spring core has a height when foamed into the supporting part which is smaller than its thickness when unstressed.

46. A seat cushion according to claim 42 wherein said spring core has a base surface and a covering surface spaced apart from each other by means of bracing elements having a length running vertically to the base surface smaller than the height of the spring core when unstressed.

47. A seat cushion according to claim 42 wherein the spring core has lateral edges spaced from the lateral faces and from a rear surface of the supporting part.

48. A seat cushion according to claim 42 wherein recesses are arranged in the region of the spring core, running vertically to at least one face of the seat cushion.

49. A seat cushion according to claim 48 wherein the recesses have surfaces spaced from the spring core.

50. A seat cushion according to claim 42 wherein in the supporting body, between lateral edges thereof and lateral edges of the spring core, recesses are arranged, running vertically to at least one face of the seat cushion.