Patent Description:
<CIT> discloses a system for fixing. A fixing element is inserted into an elongated hole and turned in order to fix the parts together.

<CIT> discloses a seat rail adapter comprising two mounting parts. The mounting parts are anchored into a C-shaped channel by pivoting.

<CIT> discloses a seat movement-securing device that includes a seat rail that may be fixed to an attachment member. A locking mechanism that is securely installed on the attachment member is used to secure the attachment member to the seat rail.

<CIT> discloses a system to quickly convert part of the main deck of an aircraft from a passenger transport configuration to a freight transport configuration.

<CIT> discloses a rail system for fixing fittings in a cabin of a vehicle includes a first elongate rail body with a fixing side for fixing to a vehicle structure, an opposite support side with a support surface for receiving fittings, and a rail cross-section extending between the fixing side and the support side, and several fixing inserts which can be fixed along the support surface. The rail cross-section has two mutually opposing legs which are spaced apart from each other and run perpendicularly to the support surface, and the fixing inserts are configured so as not to protrude beyond the support surface.

<CIT> discloses a fixed frame for a textile machine. <CIT> discloses a drilling fixture.

<CIT> discloses a floor panel assembly. A floor panel assembly may include a floor panel comprising a pair of opposed surfaces, wherein the floor panel includes at least one key hole slot defined in one of the opposed surfaces. The assembly also includes at least one seat track positioned between the opposed surfaces, wherein the seat track comprises at least one key hole slot defined therein that is substantially aligned with a respective key hole slot defined in the floor panel. In addition, the assembly includes at least one fastener assembly comprising a fastener configured to be positioned through a respective key hole slot defined in the floor panel and the seat track.

<CIT> discloses a mounting system for objects in a transportation means that comprises a profile rail, at least one locking device with a base body that can be brought into surface contact with a supporting surface of the profile rail and at least one locking body which is interlockable with the profile rail, as well as an actuating device with an actuating element that extends parallel to the profile rail and a clamping body that is connected to the actuating element.

<CIT> discloses function elements for fixing in seat rails of aircraft. The function element includes a fixing rail with a web running in the x-direction and a multiplicity of extensions which protrude beyond the web in a y-direction to form a T profile. The the fixing rail is formed corresponding to the seat rail such that the fixing rail can be inserted in the seat rail and moved along the x-direction into a holding position in which the extensions sit between the holes below the slots, at least one fixing peg which is arranged mobile on the fixing rail and can be brought into a blocking position in which the fixing peg engages in a hole of the seat rail so that the function element is fixed in the x-direction.

<CIT> discloses a mounting apparatus for retaining aircraft monuments, the apparatus including a first support, a second support, and a joiner connecting a first end of the first support and a first end of the second support, a stay having a first end pivotably connected to the joiner, a tie rod configured to connect the joiner to an attachment point of the aircraft, a first rail having a first base configured to connect to an upper surface of the monument and a first facing configured to connect to the first support and the second support, and a second rail having a second base configured to connect to the upper surface of the monument and a second facing configured to connect to a second end of the stay.

<CIT> discloses an aero seat attachment device that can prevent dislocation from sliding.

<CIT> discloses systems for securing fixtures to the floor of a transportation vehicle. The securing system has a simplified structure comprising a securing device with two C-profiles comprising a web extending between a top plate and a bottom plate, the profiles being joined by an omega-shape fishplate. Vertical lateral walls formed by the webs of the profiles are perforated.

<CIT> discloses a fastening arrangement for attaching a floor to a support structure. The fastening arrangement includes a cross beam, a floor panel, a forked bolt attached to the cross beam via a barrel nut, and a lug bolt rotary connected to the fork bolt. The fork bolt has a head with a slit for accommodating an end of the lug bolt, such that the lug bolt is rotary in the direction of the slit. The head of the fork bolt is rotatable in the opening of the floor panel for screwing the fork bolt into the barrel nut by rotating the lug bolt.

It is the object of the invention to allow full floor structural decoupling for monuments.

The object is achieved using the subject-matter of the independent claim.

Preferred embodiments are subject-matter of the dependent claims.

The invention provides a mounting rail arrangement for an aircraft floor, the mounting rail arrangement comprising a first mounting rail having a first bottom leg, a first top leg, and a first mounting portion that is arranged between the first bottom and top legs; a second mounting rail having a second bottom leg, a second top leg, and a second mounting portion that is arranged between the second bottom and top legs, wherein the first and second mounting portions face each other and define a gap therebetween, wherein the first mounting portion includes a first mounting hole and the second mounting portion includes a second mounting hole, the mounting holes being aligned to receive a mounting bolt.

The mounting rail arrangement further comprises the mounting bolt that is inserted in the first and second mounting holes.

The mounting bolt includes a cross hole for receiving a bolt member, e.g., the attachment bolt. The mounting bolt is arranged so that the cross hole is arranged within the gap so as to be accessible.

The mounting rail arrangement further comprises an attachment bolt that is inserted in the cross hole and fixed to the mounting bolt so as to protrude above the top legs and prevent the mounting bolt from sliding out of the mounting holes. Preferably, the first mounting rail and/or the second mounting rail is made of metal or metal alloy.

Preferably, the first mounting rail and/or the second mounting rail is made of a fiber composite material.

Preferably, the mounting rail arrangement further comprises a lower plate member attached to the bottom legs.

Preferably, the mounting rail arrangement further comprises an upper plate member attached to the top legs, the upper plate being configured for allowing protrusion of at least one bolt member.

Preferably, the mounting rail arrangement further comprises at least one floor panel that is attached to the top legs or the upper plate member.

The invention provides a floor structure for a fuselage of an aircraft, the floor structure comprising a plurality of cross beams that are configured to horizontally extend in a direction orthogonal to a flight direction, and at least one mounting rail arrangement as disclosed above, wherein the first mounting rail and the second mounting rail are aligned parallel to the flight direction.

Preferably, the floor structure further comprises a plurality of support beams that are attached to at least one of the cross beams, so as to allow support of the cross beams on the fuselage.

Preferably, at least two mounting rail arrangements are arranged in parallel and spaced apart from each other.

The invention provides a fuselage for an aircraft, the fuselage comprising the mounting rail arrangement as disclosed above and/or a floor structure as disclosed above.

Preferably, the fuselage further comprises a monument and/or cabin attendant seats that is attached to the mounting rail arrangement and/or the floor structure.

The invention provides an aircraft having a mounting rail arrangement as disclosed above and/or a floor structure as disclosed above and/or a fuselage as disclosed above.

The invention is about a full floor structural decoupling for monuments and/or cabin attendant seats. The cabin area of a single aisle aircraft needs to be rather variable in order to satisfy the customer requirements regarding installation and arrangement of monuments, such as galley, lavatory, etc..

Current designs are usually weight optimized for the respective Head of Version (hereafter: HoV). For each HoV the design is usually adapted. HoV complexity, however, has been increasing in recent years, which may delay or hinder continuous ramp-up of production.

The invention proposes a design that does not require structural changes, and allows all HoVs to be installed with a standardized floor structure. Ramp-up is secured by standardization in engineering and production.

The invention make use of the existing hard point fixation principle and provides full flexibility in x-direction by replacing the usual I-beam profile with a double C-profile. The double C-profile provides the hole pattern for all variants. All concepts are at least weight neutral compared to the currently use configurations. This is true in particular, if the C-profiles are made from CFRP. Further opportunity for weight reduction is identified by adding a plate for better load introduction from profile to plate and then from plate to cross beams. The double shell concept with its two plates leads to a stiff box design. Selected CFRP material cost may be compensated by higher automatization, reduced part count and non-recurring cost (NRC) (customization), fast ramp up and rate flexibility.

Embodiments of the invention are described in more detail making reference to the accompanying drawings:.

<FIG> depicts an aircraft <NUM>. The aircraft <NUM> comprises a fuselage <NUM> and a pair of wings <NUM> attached to the fuselage <NUM>. The wings <NUM> comprise engines <NUM>. The fuselage <NUM> further comprises a tail plane section <NUM> and an aft section <NUM> that is arranged near the tail plane section <NUM>.

As depicted in <FIG>, the aft section <NUM> includes a passenger door <NUM> and a floor structure <NUM> that is arranged within the aft section <NUM>. The floor structure <NUM> is supported by the fuselage <NUM>.

Referring to <FIG>, the floor structure <NUM> comprises a plurality of cross beams <NUM> that are laterally horizontally aligned. The cross beams <NUM> may be attached to a frame <NUM> (<FIG>). The floor structure <NUM> also comprises a plurality of support beams <NUM> that are attached to the cross beams <NUM> and vertically support the cross beams <NUM>. The support beams <NUM> are also preferably attached to the frame <NUM>.

The floor structure <NUM> comprises a plurality of mounting rail arrangements <NUM>. The mounting rail arrangements <NUM> may be supported by the cross beams <NUM>. The mounting rails <NUM> are aligned parallel to the flight direction. The mounting rail arrangements <NUM> are spaced apart so as to form a mounting grid for cabin monuments and/or cabin attendant seats.

The floor structure <NUM> comprises a floor panel <NUM> that is directly supported or indirectly supported via another member.

In a variant depicted in <FIG>, the floor structure <NUM> may be configured as a box floor structure. In this case the floor structure <NUM> comprises a lower plate member <NUM> and/or an upper plate member <NUM>. The lower plate member <NUM> is fixed to the mounting rail arrangements <NUM> and arranged between the mounting rail arrangements <NUM> and the cross beams <NUM>. The upper plate member <NUM> is fixed to the mounting rail <NUM> and arranged between the mounting rail arrangements <NUM> and the floor panel <NUM>.

Referring to <FIG> and <FIG>, the mounting rail arrangement <NUM> comprises a first mounting rail <NUM> and a second mounting rail <NUM>.

The first mounting rail <NUM> has a first bottom leg <NUM>, a first top leg <NUM>, and a first mounting portion <NUM>. The first bottom leg <NUM> and the first top leg <NUM> are spaced apart from each other by the first mounting portion <NUM>. The first mounting portion <NUM> includes a plurality of first mounting holes <NUM> that are distributed along the longitudinal direction of the first mounting rail <NUM>.

The second mounting rail <NUM> has a second bottom leg <NUM>, a second top leg <NUM>, and a second mounting portion <NUM>. The second bottom leg <NUM> and the second top leg <NUM> are spaced apart from each other by the second mounting portion <NUM>. The second mounting portion <NUM> includes a plurality of second mounting holes <NUM> that are distributed along the longitudinal direction of the second mounting rail <NUM>.

The first and second mounting rails <NUM>, <NUM> are arranged such that the first and second mounting portions <NUM>, <NUM> face each other. The first and second mounting rails <NUM>, <NUM> define a gap <NUM> between them so that the first and second mounting portions <NUM>, <NUM> are spaced apart from each other. The first and second mounting rails <NUM>, <NUM> are arranged so that corresponding first and second mounting holes <NUM>, <NUM> are aligned such that a mounting bolt (<NUM>) may pass through them.

Furthermore, the first and second bottom and top legs <NUM>, <NUM>, <NUM>, <NUM> are aligned so that they may evenly support the lower or upper plate member <NUM>, <NUM> or the floor panel <NUM>.

The mounting rail arrangement <NUM> comprises the mounting bolt <NUM> inserted into the first and second mounting holes <NUM>, <NUM>. The mounting bolt <NUM> includes a cross hole <NUM>. The cross hole <NUM> is preferably formed in the center of the mounting bolt <NUM> and configured as a through hole. The cross hole <NUM> preferably includes threads for a preferably threaded attachment bolt (<NUM>).

The mounting rail arrangement <NUM> comprises the attachment bolt <NUM> that is configured for attachment of a cabin monument and/or cabin attendant seats. The attachment bolt <NUM> may comprise a bolt head <NUM> and a bolt shaft <NUM> that is preferably threaded. The bolt head <NUM> may serve in installing the cabin monument and/or the cabin attendant seat. The bolt shaft <NUM> is inserted, preferably threaded, into the cross hole <NUM>. The attachment bolt <NUM> blocks movement of the mounting bolt <NUM> along its axis. The overall length of the attachment bolt <NUM> is chosen so that the attachment bolt <NUM> protrudes from the gap <NUM> and, if applicable, from the floor panel <NUM> and/or the upper plate member <NUM>.

Claim 1:
A mounting rail arrangement (<NUM>) for an aircraft floor, the mounting rail arrangement (<NUM>) comprising a first mounting rail (<NUM>) having a first bottom leg (<NUM>), a first top leg (<NUM>), and a first mounting portion (<NUM>) that is arranged between the first bottom and top legs (<NUM>, <NUM>); a second mounting rail (<NUM>) having a second bottom leg (<NUM>), a second top leg (<NUM>), and a second mounting portion (<NUM>) that is arranged between the second bottom and top legs (<NUM>, <NUM>), wherein the first and second mounting rails (<NUM>, <NUM>) are separate mounting rails, wherein the first and second mounting portions (<NUM>, <NUM>) face each other and define a gap (<NUM>) therebetween, wherein the first mounting portion (<NUM>) includes a first mounting hole (<NUM>) and the second mounting portion (<NUM>) includes a second mounting hole (<NUM>), the mounting holes (<NUM>, <NUM>) being aligned to receive a mounting bolt (<NUM>),
wherein the mounting rail arrangement (<NUM>) further comprises
the mounting bolt (<NUM>) and an attachment bolt (<NUM>) that is configured for attachment of a cabin monument and/or cabin attendant seats, wherein the mounting bolt (<NUM>) is inserted in the first and second mounting holes (<NUM>, <NUM>), wherein the mounting bolt (<NUM>) includes a cross hole (<NUM>) for receiving the attachment bolt (<NUM>), and wherein the mounting bolt (<NUM>) is arranged so that the cross hole (<NUM>) is arranged within the gap (<NUM>) so as to be accessible,
wherein the attachment bolt (<NUM>) is inserted in the cross hole (<NUM>) and fixed to the mounting bolt (<NUM>) so as to protrude above the top legs (<NUM>, <NUM>) and prevent the mounting bolt (<NUM>) from sliding out of the mounting holes (<NUM>, <NUM>).