SIDE GUIDE ADAPTER, SIDE GUIDE SYSTEM, CARGO DECK, AND METHOD FOR CONVERTING A CARGO DECK

Abstract

The present invention relates to a side guide adapter (10) for guiding and/or retaining a cargo item (51), in particular a pallet (52), in an aircraft, comprising: at least one fastening element (11) for fastening to a rail section, in particular a perforated rail section, of a side guide (41); at least one spacer element (12) for bridging a distance to the cargo item (51), wherein the spacer element (12) and the fastening element (11) are hingedly connected to each other; and at least one retaining section (13) for the cargo item (51), which is arranged on an end face (14) of the spacer element (12) and comprises at least one retaining contour (15) for guiding and/or retaining the cargo item (51).

Furthermore, the invention relates to a side guide system, a cargo deck, and a method for converting a cargo deck.

Claims

1. A side guide adapter for guiding and/or retaining a cargo item in an aircraft, comprising: at least one fastening element for fastening to a rail section of a side guide; at least one spacer element for bridging a distance to the cargo item, wherein the spacer element and the fastening element are hingedly connected to each other; and at least one retaining section for the cargo item, which is arranged on an end face of the spacer element and comprises at least one retaining contour for guiding and/or retaining the cargo item.

2. The side guide adapter of claim 1, wherein the cargo item is a pallet.

3. The side guide adapter of claim 1, wherein the rail section is a perforated rail section.

4. The side guide adapter of claim 1, wherein at least one of the spacer element and/or the fastening element is rotatably mounted about at least one hinge axis which extends parallel to the end face of the spacer element.

5. The side guide adapter of claim 4, wherein at least one of the fastening element is rotatably mounted about a first hinge axis and/or the spacer element is rotatably mounted about a second hinge axis, wherein the first and second hinge axes are at least one of arranged at a distance from one another and/or parallel to one another.

6. The side guide adapter of claim 5, further comprising at least one connector, which comprises the first and second hinge axes, and hingedly connects the spacer element to the fastening element.

7. The side guide adapter of claim 6, wherein the connector is arranged transversely to the end face of the spacer element, and extends between the spacer element and the fastening element.

8. The side guide adapter of claim 6, wherein the spacer element defines at least one receiving opening into which at least one of the fastening element and/or the connector can be pivoted for storage.

9. The side guide adapter of claim 8, wherein the spacer element has at least one support surface which at least partially bounds the receiving opening, so that in a pivoted state at least one of the connector and/or the fastening element rests on the support surface.

10. The side guide adapter of claim 8, wherein the spacer element comprises at least one surface with which the fastening element is at least flush in the pivoted state.

11. The side guide adapter of claim 1, wherein at least one of the spacer element, the fastening element, and/or the connector is of plate-shaped design.

12. The side guide adapter of claim 1, wherein the retaining contour of the side guide adapter comprises two oppositely arranged retaining lugs which are formed so as to protrude from the spacer element and are spaced apart from one another for accommodating the cargo item.

13. The side guide adapter of claim 1, wherein the retaining section of the side guide adapter, which has the retaining contour, is hingedly or fixedly arranged on the end face of the spacer element.

14. The side guide adapter of claim 1, wherein the fastening element has at least two spaced-apart pins for engaging the rail section, wherein at least one of the two pins is displaceably arranged.

15. The side guide system of claim 1, wherein the side guide comprises at least one stop element arranged above the spacer element in the installed position.

16. A cargo deck comprising at least one side guide adapter of claim 1.

17. The cargo deck of claim 16, wherein a plurality of side guide adapters are arranged in a folded state for storage in a plane that lies below a loading plane of the cargo deck.

18. A method for converting a cargo deck of an aircraft by means of at least one side guide adapter of claim 1, comprising: attaching the side guide adapter to the rail section via the fastening element; and folding the spacer element down in such a way that the spacer element abuts an abutment surface of a side guide of the cargo deck.

19. A side guide system, comprising: a side guide, which has at least one rail section; at least one abutment surface; and at least one side guide adapter of claim 1, wherein, in an unfolded state, the fastening element of the side guide adapter is fastened to the rail section and the spacer element of the side guide adapter abuts the abutment surface of the side guide.

Description

[0061] The Drawings Show as Follows:

[0062] FIG. 1 shows a top view of a cargo deck according to a preferred exemplary embodiment according to the invention;

[0063] FIG. 2 shows a detailed perspective view of the cargo deck according to FIG. 1 in a door area;

[0064] FIG. 3 shows a perspective view of a side guide adapter in the installed state according to an exemplary embodiment of the invention;

[0065] FIG. 4 shows a perspective view of a side guide adapter in the installed state according to a further exemplary embodiment according to the invention;

[0066] FIG. 5 shows a side view in the X-direction of the cargo deck according to FIG. 1;

[0067] FIG. 6 shows a perspective view of the side guide adapter according to FIG. 3 in the storage state;

[0068] FIG. 7 shows a perspective view of a fastening device for the side guide adapter according to FIG. 3;

[0069] FIG. 8 shows a perspective view of several side guide adapters according to FIG. 4 in the storage state; and

[0070] FIG. 9 shows a perspective view of a further fastening device for the side guide adapter according to FIG. 4.

[0071] In the following, the same reference numerals are used for identical and identically acting parts.

[0072] Usually, a Cartesian coordinate system is used to provide individual directional information within an aircraft. Here, the X-axis extends from the tail to the nose, the Y-axis extends transversely to the X-axis and lies essentially in the plane spanned by the wings. The Z-axis is perpendicular to the X- and Y-axes. This can be seen in FIGS. 1 and 2.

[0073] FIG. 1 and FIG. 2 show a cargo deck 50 according to an exemplary embodiment according to the invention. The cargo deck 50 has a longitudinal extension, the longitudinal direction of which is substantially parallel to the X-axis of the aircraft. In the cargo deck 50, a plurality of cargo items 51 are arranged in longitudinal alignment and spaced apart from each other. The cargo items 51 are pallets 52, which are preferably used in the military sector. In total, exactly six cargo items 51 are arranged in a row.

[0074] A side guide system 40 is arranged on each of the cargo hold sides in the transverse direction of the cargo deck 50. The transverse direction is substantially parallel to the Y-axis of the aircraft. Specifically, two side guide systems 40 are spaced apart from each other in the cargo deck 50 in the transverse direction and are arranged opposite each other. The side guide systems 40 thereby limit the pallets 52 in the transverse direction on both sides, with a door area 53 being excluded. On the cargo hold side with the door area 53, the side guide system 40 is interrupted in the door area 53.

[0075] The two side guide systems 40 have a plurality of side guide adapters 10 that laterally guide and hold the pallets 52. In addition to the guiding and retaining function of the side guide adapters 10, these serve to transfer transverse forces occurring from the cargo items to a side guide 41 of the respective side guide system 40. The side guide adapters 10 will be discussed in more detail later.

[0076] The respective side guide system 40 comprises the aforementioned side guide 41. The side guide 41 comprises a guide rail 44 extending in the longitudinal direction of the cargo deck 50. The guide rail 44 comprises at least one abutment surface 42 against which at least one of the side guide adapters 10 abuts in the unfolded and installed state. This is clearly visible in FIGS. 3 and 4. Furthermore, FIGS. 3 and 4 show that the guide rail 44 of the side guide 41 has two stop elements 43 in the region of a respective side guide adapter 10, which hold the respective side guide adapter 10 against the guide rail 44 in the vertical direction of the cargo deck 50. The vertical direction of the cargo deck 50 is substantially parallel to the Z-axis of the aircraft. The stop elements 43 will be discussed in more detail below.

[0077] Furthermore, the side guide 41 comprises at least one rail section (not shown) for mounting at least one side guide adapter 10 in each case. The rail section is preferably oriented in the longitudinal direction of the cargo deck 50. The rail section is preferably formed by a subsection of a perforated rail. The subsection may have at least a single hole, preferably at least two holes, for fastening. The rail section is arranged in vertical direction above the guide rail 44 or the abutment surface 42.

[0078] As can be readily seen in FIGS. 1 and 2, the two side guide systems 40 are spaced apart from each other in the transverse direction, with the pallets 52 being disposed between the side guide systems 40. In order to bridge a distance between the respective side guide 41, the side guide systems 40 each have the aforementioned side guide adapters 10.

[0079] According to FIGS. 3 and 4, an exemplary embodiment of a side guide adapter 10 according to the invention is shown. Specifically, FIG. 3 exemplarily shows a first type of one of the side guide adapters 10′ which are arranged in the transverse direction on the cargo hold side of the cargo deck 50 with the door area 53. FIG. 4 shows, by way of example, a second type of one of the side guide adapters 10″ arranged in the transverse direction on the cargo space side of the cargo deck 50 opposite the door area 53.

[0080] The side guide adapters 10′, 10″ according to FIGS. 3 and 4 each have a fastening element 11 for fastening to the rail section of the side guide 41, which is not shown. The fastening element 11 is of elongated design. The fastening element 11 has a first connection region 24, which comprises a first hinge part 25. The first hinge part 25 forms, with a second hinge part 26 of a connector 17, a first hinge 57 having a first hinge axis 16′. The first hinge axis 16′ forms an axis of rotation about which the fastening element 11 is rotatably mounted. The connector 17 will be discussed in more detail later.

[0081] The connection region 24 is arranged in the longitudinal direction of the fastening element 11 between two fastening regions 26′, 26″. In this case, a first fastening region 26′ comprises a first stationary pin 23. The first pin 23 is fixedly arranged at a longitudinal end of the fastening element 11. The second fastening region 26″ is arranged at the connecting region 24 longitudinally opposite the first fastening region 26′. The second fastening region 26″ comprises an elongated hole in the longitudinal direction, in which a second pin 23 is movably guided. The second pin 23 is movable relative to the first pin 23. The two pins 23 are spaced apart from one another in the longitudinal direction. The two pins 23 serve to fasten the fastening element 11 to the rail section (not shown), which is preferably a perforated rail section. Thereby, the two pins 23 are in engagement with the rail section.

[0082] Furthermore, the side guide adapters 10′, 10″ comprise a spacer element 12 for bridging a gap between the side guide 41 and the pallet 52. Specifically, the spacer element 12 bridges a lateral gap 45 between the guide rail 44 and an edge of the pallet 52 in the unfolded and installed state.

[0083] The spacer element 12 is of plate-shaped design. In other words, the spacer element 12 forms a spacer plate. The spacer element 12 has two parallel longitudinal sides 27 and two parallel broadsides 28, wherein the longitudinal sides 27 are larger than the broadsides 28. The longitudinal sides 27 and the broadsides 28 are oriented substantially orthogonally to each other. Furthermore, the spacer element 12 has a thickness that is less than the longitudinal sides 27 and the broadsides 28 of the spacer element 12. In other words, the spacer element 12 is cuboidal in shape.

[0084] The spacer element 12 has an end face 14 formed by a first of the longitudinal sides 27. The end face 14 of the spacer element 12 extends in the longitudinal direction of the cargo deck 50. The end face 14 faces a cargo item 51 in use. A second of the two longitudinal sides 27 is disposed opposite the end face 14. The second of the two longitudinal sides 27 forms a stop side 29 through which the spacer element 12 abuts the abutment surface 42 of the side guide 41.

[0085] In the side guide adapter 10′ according to FIG. 3, two retaining sections 13 are hingedly arranged on the end face 14 of the spacer element 12. Specifically, the retaining sections 13 are arranged at corner regions 31 of the end face 14 so as to be laterally pivotable. For this purpose, the spacer element 12 has a hinge in each corner region 31 by means of which the respective retaining section 13 is pivotably arranged.

[0086] As shown in FIG. 3, the two retaining sections 13 are spaced apart from each other along the end face 14. The retaining sections 13 each comprise a retaining contour 15 for guiding or retaining the respective pallet 52. The retaining contour 15 is formed by two oppositely disposed retaining lugs 22 spaced from each other in the vertical direction. In other words, the retaining contour 15 is of U-shaped design. The retaining contour 15 provides a free space which, in the installed position, is bounded at the top and bottom by a retaining lug 22. In the unfolded and installed state of the side guide adapter 10, the retaining contour 15 is open towards the pallet 52. As can be seen in FIG. 3, the retaining contour 15 is formed to be continuous in the longitudinal direction at the respective retaining section 13. Alternatively, it is possible that the retaining contour 15 is partially or sectionally formed in the longitudinal direction at the respective retaining section 13.

[0087] In contrast to the side guide adapter 10″ according to FIG. 3, the side guide adapter 10″ according to FIG. 4 has a single retaining section 13 which is firmly formed on the end face 14 of the spacer element 12. This retaining section 13 comprises a retaining contour 15 with a continuous retaining lug 22′ and a split retaining lug 22″. The continuous retaining lug 22′ and the split retaining lug 22″ are arranged opposite each other. In the installed position, the continuous retaining lug 22′ is arranged on top and the split retaining lug 22″ is arranged on the bottom of the end face 14. The continuous retaining lug 22′ is formed closed along the end face 14 in the longitudinal direction. The split retaining lug 22″ is interrupted in the longitudinal direction.

[0088] In the side guide adapter 10′, 10″ according to FIGS. 3 and 4, the spacer element 12 further comprises a receiving opening 18 and a surface 21. The receiving opening 18 completely penetrates the spacer element 12 starting from the surface 21. In other words, the receiving opening 18 forms a free passage through the spacer element 12 starting from the surface 21. The surface 21 of the spacer element 12 is formed orthogonally to the end face 14. In the unfolded and installed state of the side guide adapter 10, the surface 21 is arranged at the top in the vertical direction.

[0089] The receiving opening 18 of the spacer element 12 according to FIG. 3 is T-shaped. The receiving opening 18 has a limited circumferential design in the spacer element 12. In contrast, the receiving opening 18 of the spacer element 12 according to FIG. 4 is open towards the stop side 29. In the unfolded and installed state, the receiving opening 18 is open towards the abutment surface 42. The receiving opening 18 according to FIG. 4 is C-shaped.

[0090] The spacer element 12 of the side guide adapter 10′ shown in FIG. 3 further includes a support surface 19 that forms a boundary on the side opposite the surface 21 for the receiving opening 18. As can be seen in FIG. 3, the support surface 19 is part of a transverse web that spans the receiving opening 18 in the transverse direction.

[0091] The spacer element 12 of the two side guide adapters 10′, 10″ has a second connection region 32 comprising a third hinge part 33. The third hinge part 33 forms with a fourth hinge part 34 of the connector 17 a second hinge 35 with a second hinge axis 16″. The second hinge axis 16″ forms a further axis of rotation about which the spacer element 12 is rotatably mounted.

[0092] The second connection region 32 is arranged in the receiving opening 18. The third hinge part 33 is part of the spacer element 12. The second hinge axis 16″ is embedded in the receiving opening 18. The first hinge axis 16′ is embedded in the fastening element 11. The two hinge axes 16′, 16″ are arranged in parallel. The two hinge axes 16′, 16″ are spaced apart from each other. Furthermore, the two hinge axes 16′, 16″ are arranged parallel with the end face 14 of the spacer element 12.

[0093] As described above, the side guide adapter 10 has a connector 17. The connector 17 interconnects the spacer element 12 and the fastening element 11. The connector 17 extends between the spacer element 12 and the fastening element 11. The connector 17 forms a web element. The connector 17 is arranged transversely to the end face 14 of the spacer element 12.

[0094] As can be readily seen in FIG. 3, the connector 17 comprises first and second hinge axes 16′, 16″, with one of the hinge axes 16′, 16″ being disposed at each longitudinal end of the connector 17. The connector 17 forms the first and second hinges 57, 35 with the fastening element 11 and the spacer element 12. The connector 17 thus forms a double hinge. In other words, the fastening element 11 and the spacer element 12 are connected to each other in a double-hinged manner by the connector 17.

[0095] In the side guide adapter 10′ according to FIG. 3, the fastening element 11 can be pivoted into the receiving opening 18 by means of the connector 17. The first hinge axis 16′ is arranged in such a way that the fastening element 11 together with the connector 17 can be pivoted into the receiving opening 18. This corresponds to the folded state of the side guide adapter 10′ according to FIG. 3, in which the fastening element 11 and the connector 17 are recessed in the receiving opening 18. The fastening element 11 and the connector 17 may be flush with at least the surface 21 in the folded state. In other words, the fastening element 11 and the connector 17 may be recessed in the folded state in such a way that they do not protrude beyond the surface 21.

[0096] In the folded state, it is provided that the fastening element 11 and the connector 17 rest on the support surface 19. The connector 17 has a groove 36 that corresponds to the shape of the support surface 19.

[0097] In the case of the side guide adapter 10″ according to FIG. 4, only the connector 17 can be pivoted into the receiving opening 18. The first hinge axis 16′ is arranged in such a way that the connector 17 can be pivoted into the receiving opening 18. This corresponds to the folded state of the side guide adapter 10″ according to FIG. 4, in which the connector 17 is recessed in the receiving opening 18. In the folded state, the connector 17 may be at least flush with the surface 21. In other words, the connector 17 may be recessed in the folded state such that it does not protrude above the surface 21.

[0098] As shown in FIGS. 3 and 4, the fastening element 11 and the spacer element 12 have an offset in the vertical direction in the unfolded state. Specifically, in the unfolded state, the fastening element 11 and the spacer element 12 are arranged in different planes that are spaced apart in the vertical direction. This can also be seen clearly in FIG. 5.

[0099] In order to hold the side guide adapter 10′, 10″ according to FIGS. 3 and 4 in the unfolded and installed state on the guide rail 44 of the side guide 41 in the vertical direction, the guide rail 44 has two stop elements 43. The stop elements 43 extend from the abutment surface 42 in the transverse direction (Y-axis) towards the cargo space of the cargo deck 50. The stop elements 43 project beyond the spacer element 12 in the transverse direction. In other words, the stop elements 43 are arranged above a partial area of the spacer element 12 in the installed state. The stop elements 43 form a vertical stop, i.e. a vertical limit. The stop elements 43 limit a vertical movement of the spacer element 12. The stop elements 43 are arranged opposite each other in the longitudinal direction on the connector 17. In other words, one of the stop elements 43 is formed on each side of the connector 17 in the longitudinal direction.

[0100] The spacer element 12 of the side guide adapter 10′ according to FIG. 3 has two counter-stop elements 38, which are arranged opposite the stop elements 43 of the guide rail 44 in the installed position. The counter-stop elements 38 can cooperate with the stop elements 43 for vertical limitation. The side guide adapter 10″ according to FIG. 4 lacks such counter-stop elements.

[0101] In the cargo deck 50 according to the invention, a plurality of roller conveyors 54 are arranged in the longitudinal direction of the cargo deck 50 for loading and unloading the cargo space. As can be seen in FIG. 5, the side guide adapters 10′, 10″ have roller contours 37 on their underside to correspond with the rollers of the roller conveyors 54.

[0102] FIG. 5 further shows a pallet 52 that is guided and retained between the side guide adapters 10′, 10″. The side guide adapters 10′, 10″ are designed to absorb forces occurring in the transverse direction of the cargo deck 50 and to introduce them into the respective guide rail 44 of the side guide 41. Additional locking devices 55, which are clearly visible in FIG. 2, are used to absorb forces in the longitudinal and vertical directions of the cargo deck 50.

[0103] FIGS. 6 and 8 show side guide adapters 10′, 10″ in the folded state. FIG. 6 shows an example of a single side guide adapter 10′ as shown in FIG. 3, which is arranged in the folded state between two roller conveyors 54 below a loading level of the cargo deck 50. Here, the two retaining sections 13 are folded laterally against the broadsides 28 of the spacer element 12 and the fastening element 11 and the connector 17 are recessed in the receiving opening 18. The loading plane is an imaginary plane which, when stretched out, rests with its plane surface on the rollers of the roller conveyors 54.

[0104] In order to fix the side guide adapter 10′ in its storage plane, fastening devices 39 are provided (cf. FIG. 7), which are arranged on cross struts of the aircraft structure that are not shown. Preferably, two fastening devices 39 are arranged on two adjacent cross struts each. The distance between the cross struts can be approximately 535 mm. This corresponds to a standardized frame spacing of the aircraft structure.

[0105] Preferably, a side guide adapter 10′ according to FIG. 3 can be attached to each of the two fastening devices 39 by means of a quick-release fastener system.

[0106] FIG. 8 shows several side guide adapters 10″ as shown in FIG. 4, which are arranged in a row in the longitudinal direction and alternately in the transverse direction and which, in the folded state, are arranged between two roller conveyors 54 below the loading level of the cargo deck 50. In the folded state, the fastening element 11 and the connector 17 are folded down towards the stop side 29 of the spacer element 12 in such a way that they lie in a common plane. In order to be able to store or keep the folded side guide adapters 10″ in an improved manner, a frame 56 is preferably provided (cf. FIG. 9), in which the side guide adapters 10″ are accommodated in their arrangement described above. The vertical position of the two side guide adapters 10′, 10″ in the storage plane below the loading plane is clearly visible in FIG. 5.

[0107] The connection between the fastening element 11 and the rail section, in particular the perforated rail section, can be produced in different ways. A reversible connection option is described in DE 42 16 413 A1. In a further exemplary embodiment according to the invention, at least two pins are provided which project into the corresponding holes of the perforated rail section. A twistable T-anchor is located between the pins. After insertion of the fastening element 11, this T-anchor is twisted in such a way that the fastening element 11 is held at the sections between the holes in such a way that it cannot be removed in the Z-direction. In the inserted state, the pins then prevent the fastening element from moving in the X direction.

LIST OF REFERENCE SIGNS

[0108] 10 Side guide adapter [0109] 10′ Side guide adapter of first type [0110] 10″ Side guide adapter of second type [0111] 11 Fastening element [0112] 12 Spacer element [0113] 13 Retaining section [0114] 14 End face [0115] 15 Retaining contour [0116] 16 Hinge axis [0117] 16′ First hinge axis [0118] 16″ Second hinge axis [0119] 17 Connector [0120] 18 Receiving opening [0121] 19 Support surface [0122] 21 Surface [0123] 22 Retaining lug [0124] 22′ Continuous retaining lug [0125] 22″ Split retaining lug [0126] 23 Pin [0127] 24 First connection region [0128] 25 First hinge part [0129] 26 Second hinge part [0130] 26′ First fastening region [0131] 26″ Second fastening region [0132] 27 Longitudinal side [0133] 28 Broadside [0134] 29 Stop side [0135] 31 Corner region [0136] 32 Second connection region [0137] 33 Third hinge part [0138] 34 Fourth hinge part [0139] 35 Second hinge [0140] 36 Groove [0141] 37 Roller contours [0142] 38 Counter-stop element [0143] 39 Fastening device [0144] 40 Side guide system [0145] 41 Side guide [0146] 42 Abutment surface [0147] 43 Stop element [0148] 44 Guide rail [0149] 45 Lateral gap [0150] 50 Cargo deck [0151] 51 Cargo item [0152] 52 Pallet [0153] 53 Door area [0154] 54 Roller conveyor [0155] 55 Locking devices [0156] 56 Frame [0157] 57 First hinge