Material-optimized connection node

Abstract

The present invention relates to a system consisting of a connection node and at least one first connection body, wherein: the connection node comprises a connection node central body, a first connection element for joining with the connection body, and at least one second connection element for joining with a second connection body; the first connection element and the second connection element are connected or may be connected to the connection node central body; and at least one portion of the connection node central body and/or of the first connection element and/or of the second connection element is manufactured by means of an additive process, for example 3D printing, or by means of a casting process.

Claims

1-15. (canceled)

16. A system, comprising: a first connection body, which is formed as a multi-chamber hollow profile, at least one second connection body; and a connection node comprising a connection node central body, which is at least partly manufactured by means of an additive process, or by means of a casting process, a first connection element connected to the connection node central body for joining to the connection body and at least one second connection element connected to the connection node central body for joining to a second connection body; wherein the first connection element on an end face facing the first connection body comprises a plurality of engagement elements which are configured to engage in chambers of the first connection body formed as a multi-chamber hollow profile, wherein each of the engagement elements has a pocket at least on one of the sides facing an inner side of an outer wall of the connection node central body or the connection body, and wherein the pockets can be filled with adhesive for bonding the first connection body and the first connection element.

17. The system according to claim 16, wherein the additive process includes 3D printing.

18. The system according to claim 16, wherein at least one of the first connection element and the second connection element are at least partly manufactured by means of an additive process or by means of a casting process.

19. The system according to claim 16, wherein the first connection element comprises a frame and a honeycomb-like stiffening structure which extends into the connection node central body, wherein the frame comprises slot-like grooves which are arranged to receive a profile inner wall of the first connection body.

20. The system according to claim 19, wherein the connection node central body or the first connection body have, near at least one of the peripheral outer walls of an end face facing the connection node central body, at least one opening through which the adhesive can be inserted into the respective pocket.

21. The system according to claim 16, wherein the connection node connects parts of a vehicle frame to one another, and the second connection element or a third connection element forms a suspension strut mount or can be connected to a suspension strut mount.

22. The system according to claim 16, wherein the second connection body is formed as a multi-chamber hollow profile, wherein the second connection element comprises a plurality of engagement elements at an end face facing the first connection body, which engagement elements are configured to be inserted in chambers of the second connection body formed as a multi-chamber hollow profile, wherein each of the engagement elements has a pocket at least on one of the sides facing an inner side of an outer wall of the connection node central body or the connection body, and wherein the pockets can be filled with adhesive for bonding the second connection body and the first connection element.

23. A connection node for connecting to a first connection body and at least one second connection body, wherein the connection node comprises: a connection central body, which is at least partly manufactured by means at least one of an additive process and by means of a casting process, a first connection element for connecting to the first connection body; and at least one second connection element for connecting to the at least one second connection body; wherein the first connection element comprises at an end face a plurality of engagement elements which are configured to engage in chambers of a first connection body formed as a multi-chamber hollow profile, wherein each of the engagement members comprises a pocket at least on one of the sides facing an inner side of an outer wall of the connection node central body or the connection body, and wherein the pockets can be filled with adhesive for bonding the first connection body and the first connection element.

24. The connection node according to claim 23, wherein the connection node central body is connected, connectable or formed in one piece with the first connection element and the at least one second connection element.

25. The connection node according to claim 23, wherein the connection node central body and the first connection element are at least partly manufactured by means of the additive process.

26. The connection node according to claim 25, wherein the at least one second connection element are at least partly manufactured by means of the additive process.

27. The connection node according to claim 23, wherein at least the connection node central body is manufactured in a skeleton shape.

28. The connection node according to claim 27, wherein the skeleton shape includes local stiffeners and wall thicknesses which are adapted to a local force flow.

29. The connection node according to claim 23, wherein the connection node central body and the connection elements comprise hollow structures.

30. The connection node according to claim 29, wherein the hollow structures comprise stiffening structures adapted to the local direction of force flow.

31. The connection node according to claim 30, wherein stiffening structures include a strut, lattice or honeycomb structure.

32. The connection node according to claim 23, wherein the connection node comprises an at least substantially closed outer skin in order to prevent soiling.

33. The connection node according to claim 23, wherein the second connection element comprises a plurality of engagement elements on an end face facing the first connection body, which are configured to engage in chambers of the second connection body formed as a multi-chamber hollow profile, wherein each of the engagement elements has a pocket at least on one of the sides facing an inner side of an outer wall of the connection node central body or the connection body, and wherein the pockets can be filled with adhesive for bonding the second connection body and the first connection element.

34. The connection node according to claim 23, wherein the connection node central body and the connection elements are jointly primary formed in one piece by means of the additive process.

35. A method for assembling a system comprising a first connection body, which is formed as a multi-chamber hollow profile, at least one second connection body, and a connection node comprising a connection node central body, which is at least partly manufactured by means of an additive process or by means of a casting process, a first connection element connected to the connection node central body for joining to the connection body and at least one second connection element connected to the connection node central body for joining to a second connection body, wherein the first connection element on an end face facing the first connection body comprises a plurality of engagement elements which are configured to engage in chambers of the first connection body formed as a multi-chamber hollow profile, wherein each of the engagement elements has a pocket at least on one of the sides facing an inner side of an outer wall of the connection node central body or the connection body, and wherein the pockets can be filled with adhesive for bonding the first connection body and the first connection element, the method comprising: sliding the connection bodies onto the connection elements of the connection node; and producing an adhesive connection between the connection bodies and the connection elements, wherein after the step of sliding on, an adhesive is injected or pressed into the pockets from outside, or before the step of sliding on, an adhesive is inserted into the pockets and is activated after the step of sliding on.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0053] In the following, an exemplary embodiment of the present invention is explained in more detail with respect to the drawings, wherein the present invention is not limited to the exemplary embodiment. Essential features of the present invention, which are only shown in the figures of the drawings, are within the scope of the present invention and may, individually or in combination, form basis of further advantageous configurations, wherein:

[0054] FIG. 1 shows a system with an additively manufactured connection node comprising three connection bodies before assembly;

[0055] FIG. 2 shows a perspective view of the system of FIG. 1;

[0056] FIG. 3 shows a sectional view of a connection node central body comprising connection elements; and

[0057] FIG. 4 shows a sectional view of a connection element comprising joined connection bodies.

DETAILED DESCRIPTION

[0058] FIG. 1 shows a system 100 having an additively manufactured connection node 1, a first connection body 2 in the form of a multi-chamber hollow section, a second connection body 3 in the form of a multi-chamber hollow section and a third connection body 4 in the form of a multi-chamber hollow section. The connection node 1 comprises a connection node central body 5, a first connection element 6, which is not visible in the view shown, a second connection element 7 and a third connection element 8. In the embodiment, the central connection node body 5 and the connection elements 6, 7, 8 are manufactured together in a single process, for example by means of a 3D printing process, thus forming a quasi-monolith.

[0059] The connection node 1 does not have to be manufactured additively or at least not completely additively, but may also be a cast part or cast part with printed additive structures.

[0060] The connection bodies 2, 3, 4, i.e. the multi-chamber hollow profiles are each formed differently, i.e. they have different external shapes, different wall thicknesses and different numbers of individually arranged profile inner walls 9a, 9b, 9c, 9d.

[0061] According to the embodiment shown, the connection elements 6, 7, 8 protrude from the connection node central body 5, such that the connection bodies 2, 3, 4 may be slid onto the connection elements 6, 7, 8 in order to be joined with connection node 1 in the slid-on state. The connection bodies 3, 4 comprise openings 10, 11 in the side walls, through which, for example, an adhesive may be pressed in to join connection bodies 2, 3, 4 with connection node 1. As may be seen exclusively with respect to the third connection body 4, each chamber is accessible via its own opening 10. In the embodiment, the openings 10 are only indicated on the side facing away from the connection node 1, with which the connection body 4 may be connected to another connection node (not shown) or to a structural or functional part.

[0062] In order to be able to press or inject the adhesive into the respective connection joint, groove-shaped openings may alternatively be formed on the end faces 2a, 3a, 4a of the connection bodies 2, 3, 4 facing the connection node. In this case it is also advantageous if a separate groove-shaped opening is formed for each of the chambers of a multi-chamber hollow profile.

[0063] The connection node central body 1 also comprises openings 12. These openings may be used, for example, to prevent pressure from building up inside the connection node 1 due to heating by solar radiation or the like.

[0064] FIG. 2 shows a view of the connection element 6 in the system shown of FIG. 1. The connection element consists substantially of a frame 6a and a honeycomb-like stiffening structure 6b, which extends into the connection node central body 5. The frame 6a comprises slotted grooves 6c which, when the connection body 2 is slid onto the connector 6, receive the inner profile wall 9a, which is not visible here, of the connection body 2. The structure of the connection element 6 corresponds at least substantially to that of the connection element 8, in which a frame 8a, a stiffening structure 8b and grooves 8c are also visible. The grooves 8c are arranged in the frame 8a in such a way that they may receive the inner profile walls 9c and 9d (see FIG. 1).

[0065] Connection elements 6, 7, 8 protrude from the connection node central body 5 and are connected to connection node central body 5 in one step. The height or depth of the step corresponds to the thickness of the outer wall of the connection body at the respective end face 2a, 3a, 4a, which comes into contact with the connection body central body 5 when connecting connection element 2, 3, 4 with connection node 1. Since the thicknesses of the outer walls of a connection element 6, 7, 8 may vary, the height or depth of the steps is adapted accordingly in each case such that no edge is formed at the joints between the connection node 1 and the connection bodies 2, 3, 4. This means that the outer surface of connection node 1 and each of the outer surfaces of connection bodies 2, 3, 4 are arranged in a common plane at the interface.

[0066] FIG. 3 shows a sectional view through the connection node 1 and the third connection element 8 and also the connection body 4. The connection element 8 comprises a pocket 13 into which an adhesive may be injected or pressed from the outside when the connection body 4 is fully slid onto the connection element. Alternatively, an adhesive, e.g. in the form of an adhesive film, may be inserted into the pocket 13 before connecting the connection body 4 to the connection node 1, and the adhesive may be activated after sliding the connection body 4 onto the connection element 8, e.g. by applying heat. The adhesive connection, whether with flowable adhesive or adhesive film, has the advantage that the adhesive may compensate for tolerances between the two parts without deforming them plastically. In addition to using an adhesive, structure 100 may be secured against unintentional loosening of one of the connection bodies 2, 3, 4 under stress by using, for example, screws, blind rivets or other suitable means. Finally, the connection bodies 2, 3, 4 do not need to be glued to the respective connection element 6, 7, 8, but may be joined, screwed, riveted, welded, soldered or otherwise connected to each other without adhesive.

[0067] FIG. 4 shows the system 100 in the joined state in a sectional view along the connection element 7. The pocket 13 for the adhesive is now covered by one side of the connection body 3, such that an adhesive (which is not visible in this sectional view) that may be inserted into the pocket 13 through the opening 11, is substantially trapped within the pocket 13 and may at most penetrate into gaps, that are caused due to tolerances between connection element 7 and connection body 3, and may cure within the gaps. This is advantageous for compensating the tolerances.

LIST OF REFERENCE SIGNS

[0068] 100 System [0069] 1 connection node [0070] 1a Outer skin [0071] 1b Stiffening structure [0072] 2 Connection body [0073] 2a End face [0074] 3 Connection body [0075] 3a End face [0076] 4 Connection body [0077] 4a End face [0078] 5 Connection node central body [0079] 6 Connection element [0080] 6a Frame [0081] 6b Stiffening structure [0082] 6c Groove [0083] 7 Connection element [0084] 7a Frame [0085] 7b Stiffening structure [0086] 7c Groove [0087] 8 Connection element [0088] 8a Frame [0089] 8b Stiffening structure [0090] 8c Groove [0091] 9a Profile inner wall [0092] 9b Profile inner wall [0093] 9c Profile inner wall [0094] 9d Profile inner wall [0095] 10 Opening [0096] 11 Opening [0097] 12 Opening [0098] 13 Pocket