ASSEMBLY PLUG

Abstract

An assembly plug for closing openings, in particular openings in vehicle bodies and the like, wherein the assembly plug has a first device, which has structure for engaging in a latching manner behind an edge of an opening and there is also a second device, with which the structure for engaging in a latching manner behind an edge of a hole can be actuated radially outward into a latching position, wherein the second device is axially displaceable in the first device and the actuation can be carried out by the axial displacement.

Claims

1. An assembly plug for closing openings, comprising: a first device (3), which has means (16) for engaging in a latching manner behind an edge of an opening and there is also a second device (2), with which the means (16) for engaging in a latching manner behind an edge of a hole can be actuated radially outward into a latching position, wherein the second device (2) is axially displaceable in the first device (3) and the actuation can be carried out by the axial displacement.

2. The assembly plug as claimed in claim 1, wherein, between the first device (2) and the second device (3), there are a pre-engaging position and a final-engaging position, wherein in the pre-engaging position the second device for actuating the first latching device is captively pre-mounted and in the second engaging position the second device latches the latching engagement behind the edge of the hole by the first device in an interlocking manner.

3. The assembly plug as claimed in claim 1, wherein the first device is a spreading element and the second device is an actuating element (2), wherein the spreading element (3) has a plurality of spreading hooks (16), which have in each case an outwardly protruding wall (25), with which an edge of a hole can be engaged from behind.

4. The assembly plug as claimed claim 3, wherein the spreading hooks have obliquely inwardly extending control surfaces (27), which reduce the diameter of the spreading element (3), wherein the actuating element (2) is larger than the diameter and is formed in such a way as to displace the spreading hooks (16) radially outward during actuation by way of the control surfaces (27).

5. The assembly plug as claimed in claim 3, wherein a sealing element (4) is arranged on the spreading element (3), on the outside in the direction of the spreading hooks (16), and has a device (35) for elastic abutment on a material bounding a hole to be closed or an opening to be closed.

6. The assembly plug as claimed in claim 5, wherein the sealing element also has a device (36) for elastic abutment between the actuating element (2) and the spreading element (3).

7. The assembly plug as claimed in claim 3, wherein, on the spreading element (3), are radially inwardly protruding latching lugs (29), which during insertion of the actuating element (2) into the spreading element (3) are formed engaging behind a radial wall (14) of a bead (12) on the actuating element (2), so that the latching lugs (29) captively retain the actuating element (2).

8. The assembly plug as claimed in claim 3, wherein the spreading hooks (16) have a radially inwardly protruding step, which is formed interacting with a step (14) of the actuating element (2), engaging behind in a latching manner.

9. The assembly plug as claimed in claim 3, wherein the spreading element (3) comprises a base ring (15), which is formed as a flat disk ring, wherein the spreading hook elements are arranged in a corresponding manner axially on the base ring (15), axially to one side, wherein the spreading hook elements (16) have a spreading hook shank (17) and a spreading hook head (18), wherein the spreading hook shank (17), the spreading hook head (18) and the base ring (15) are formed in one piece.

10. The assembly plug as claimed in claim 9, wherein the spreading hook head (8) outwardly widens the spreading hook shank (17), which is in each case formed as a cylinder segment, and has a cylindrical planar outer wall with a radially outwardly protruding hook wall (20), wherein one or two control walls (21) extend from each hook wall (20) to the upper free end (22) of the spreading hook (16), which is formed on the spreading hook head (18), wherein the control wall (21) finishes laterally with a side wall (23) of the spreading hook.

11. The assembly plug as claimed in claim 10, characterized in that radially inward on each spreading hook head (18) there protrudes inward an engaging wall (24), which, at a distance from the free end, widens the spreading hook head (18) radially inward with a step (25), wherein from a radially inwardly facing inner edge (26) of the wall (24) there runs along or in the direction of the region of attachment of the spreading hook shank (17) on the base ring (15) a curved control surface (27), which finishes laterally with the side wall (23).

12. The assembly plug as claimed in claim 5, wherein the sealing element (4) has a ring-like main body, from which a fin (35) extends obliquely outward along an outer peripheral edge (37) as a device (35) for elastic abutment, wherein under the edge (37) the ring-like main body (34) has a step-like clearance (38), wherein, on an annular surface (39) lying axially opposite the fin (35), a peripheral sealing lip (36) running obliquely outward, counter to the direction of extent of the fin (35), is arranged as a device (36) for elastic abutment.

13. The assembly plug as claimed in claim 12, wherein apertures (41) extend from the step (38) through the ring-like main body (34) to a radially inner surface (40), wherein the form of the elastic sealing element (4) is adapted to the spreading element (3) such that the webs (31) reach through the clearances (41) and in the region of the clearances (30) the ring-like main body (34) is formed continuously from the inner wall (40) to the step (38).

14. The assembly plug as claimed in claim 5, wherein the permanently elastic sealing element (4) and the spreading element (3) are formed in one piece with one another, but with different material properties, wherein the actuating element (2) and the spreading element (3) are formed from a relatively hard synthetic material, and the sealing element (4) is formed from compliant permanently elastic synthetic material.

15. The assembly plug as claimed in claim 7, characterized in that in the preassembled state the actuating element (2) is arranged as pushed axially into the spreading element (3), wherein the latching lugs (29) reach into the space between a ring (10) and the bead (12), wherein the outside diameter of the bead (12) and of the ring (10) are dimensioned such that they correspond to the inside diameter of the base ring (15) or are slightly smaller, wherein the actuating element (2) is thereby retained captively on the spreading element (3) by the latching lugs (29), wherein the latching lugs (29) protrude from the base ring (15) inward from the inner circumferential surface and radially further inward as an inner surface of the spreading hook shank, wherein the latching lugs (29) extend from a lower planar circular surface of the base ring (15) obliquely radially inward and axially in the direction of the spreading hooks (16).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0033] The invention will be explained in exemplary fashion with reference to a drawing, in which:

[0034] FIG. 1 shows an embodiment of the assembly plug according to the invention in a preassembled position;

[0035] FIG. 2 shows an embodiment of the spreading element of the assembly plug according to the invention;

[0036] FIG. 3 shows the radial collar element according to the invention;

[0037] FIG. 4 shows an embodiment of the sealing element according to the invention;

[0038] FIG. 5 shows the radial collar element according to the invention in combination with the sealing element according to the invention;

[0039] FIG. 6 shows a partially sectioned view of the assembly plug according to the invention prior to being inserted into a vehicle body opening, in the preassembled position;

[0040] FIG. 7 shows the assembly plug according to the invention after the radial collar element has been plugged through the vehicle body opening;

[0041] FIG. 8 shows the assembly plug according to the invention in the vehicle body opening with the spreading element pushed further in;

[0042] FIG. 9 shows the assembly plug according to the invention in a finally assembled position in cross section;

[0043] FIG. 10 shows the assembled assembly plug in the assembled position in a view from the radial collar side.

DETAILED DESCRIPTION

[0044] An assembly plug 1 according to the invention has an actuating element 2, a spreading element 3 and possibly a sealing element 4.

[0045] The actuating element is an actuating device, with which the spreading element can be actuated as a spreading and latching device.

[0046] The sealing element is an element which serves as a sealing device and pre-loading device, wherein the sealing element 4 is an optional component.

[0047] The actuating element has a flatly circular disk-shaped main body 5, from which a shank 6 protrudes axially in a coaxial manner, wherein the shank 6 has a diameter which is smaller than the diameter of the main body 5. The shank 6 is of cylindrical form, wherein for manufacturing and/or stability reasons the shank 6 can have reinforcing ribs 7 on the inner side of the cylinder, said reinforcing ribs extending by a central, concentric, coaxial, cylindrical portion 8 with a relatively small diameter to the shank inner side of the shank 6.

[0048] The shank 6, on its circumferential wall 9, has a ring 10 at an axial distance from the main body 5.

[0049] The ring 10 is at a distance from a free cylinder jacket edge 11, which lies diametrically axially opposite the main body 5.

[0050] A latching bead 12 which slopes outward in a roof-like manner extends from the free edge 11 toward the ring 10 or toward the main body 5, wherein the latching bead 12 has the outwardly sloping roof-like surface 13 and a radial wall 14 which runs orthogonally with respect to the jacket wall 9.

[0051] The spreading element 3 (FIG. 3) has a base ring 15, which is formed as a flat disk ring, wherein axially extending spreading hook elements 16 are arranged on the base ring 15, axially to one side. In this case, the spreading hook elements 16 have a spreading hook shank 17 and a spreading hook head 18. Spreading hook shank 17, spreading hook head 18 and base ring 15 are preferably formed in one piece.

[0052] The spreading hook head 18 outwardly widens the spreading hook shank 17, which is in each case formed as a cylinder segment, and has a cylindrical planar outer wall 19 with a radially outwardly protruding hook wall 20.

[0053] One or two control walls 21 extend from each hook wall 20 to an upper free end 22 of the spreading hook 16, which is formed on the spreading hook head 18. The control walls 21 can finish laterally with a side wall 23 of the spreading hook.

[0054] Radially inward on each spreading hook head 18 there protrudes inward an engaging wall 24, which, at a distance from the free end, widens the spreading hook head 18 radially inward with a step 25. From a radially inwardly facing inner edge 26 of the wall 24 there runs along or in the direction of the region of attachment of the spreading hook shank 17 on the base ring 15 a curved control surface 27, which can finish laterally with the side wall 23 and for manufacturing reasons can have a centrally concentric aperture 28.

[0055] With regard to the axial extent of the spreading element 3 from the base ring 15 to the free end 22 of the respective spreading hooks 16, the step 25 or the radial wall 24 and the hook wall 20, which faces outward, are arranged with a slight axial offset with respect to one another, wherein the radial wall 24 is somewhat closer to the free end 22, such that the step 25 or the inner edge 26 is formed axially somewhat closer to the free end 22 than the wall 20.

[0056] Latching lugs 29 protrude from the base ring 15 inward from the inner circumferential surface and radially further inward as an inner surface of the spreading hook shank 17, said latching lugs extending from a lower planar circular surface of the base ring 15 obliquely radially inward and axially in the direction of the spreading hooks 16.

[0057] Between the spreading hooks 16 and the base ring 15 there is arranged, in each case radially in front of a spreading hook 16, a radially outwardly running clearance 30 which tapers toward the base ring 15 but does not cut through. As a result of the clearances 30, webs 31 are formed between the spreading hooks 16, said webs extending from an outer end edge 32 to the latching lugs 29.

[0058] The sealing element 4 (FIG. 4) has a ring-like main body, from which a fin 35 extends obliquely outward along an outer peripheral edge 37. Under the edge 37 the ring-like main body 34 has a step-like clearance 38. On an annular surface 39 lying axially opposite the fin 35, a peripheral sealing lip 36 running obliquely outward, counter to the direction of extent of the fin 35, is arranged.

[0059] Apertures 41 extend from the step 38 through the ring-like main body 34 to a radially inner surface 40.

[0060] The actuating element 2 and the spreading element 3 are preferably formed from a relatively hard synthetic material, such as a plastic or rigid plastic, whereas the sealing element 4 is preferably formed from a soft, compliant permanently elastic synthetic material.

[0061] In this case, the form of the elastic sealing element 4 is adapted to the spreading element 3 such that the webs 31 reach through the clearances 41 and in the region of the clearances 30 the ring-like main body 34 is formed continuously from the inner wall 40 to the step 38.

[0062] In accordance with the possibilities of modern manufacturing methods, it is in particular preferable for the permanently elastic sealing element 4 and the spreading element 3 to be formed in one piece with one another, but to have different material properties.

[0063] In the preassembled state (FIGS. 1, 6), the actuating element 2 is arranged as pushed axially into the spreading element 3, wherein the latching lugs 29 reach into the space between the ring 10 and the bead 12, wherein the outside diameter of the bead 12 and of the ring 10 are dimensioned such that they correspond to the inside diameter of the base ring 15 or are slightly smaller.

[0064] In said preassembly position, the actuating element 2 is retained captively on the spreading element 3 by the latching lugs 29.

[0065] To assemble the plug in an opening 50, which is bounded for example by two metal sheets 51, the assembly plug is positioned with the spreading hook heads 18. Preferably, the outside diameter of the spreading hooks 16, that is to say the maximum outer protrusion of the walls 20, is dimensioned such that it is slightly larger than the diameter of the opening 50. The control surfaces 21 of the spreading hook heads 18 thereby bear, between the free ends 22 thereof and an outer edge of the walls 20, against a hole edge 52.

[0066] If pressure is then exerted on the main body 5 of the actuating element 2, the ring 10 initially presses against the latching lugs 29 and thus pushes the spreading element 3 somewhat further into the opening 50, wherein the control surfaces 21 slide along the hole edge 52 and thereby ensure that the spreading hooks 16 are bent inward.

[0067] As a result of the fact that the spreading hooks are bent inward, the control surfaces 27 which project inward bear against the outer surface 13 of the bead 12, said outer surface sloping in a roof-like manner, and prevent the bead 12 from being able to slide axially thereon.

[0068] If the wall 20 moves through the opening 50 as a result of said pushing movement (FIG. 7), the spreading hooks spring outward slightly in an elastic manner.

[0069] Since the movement outward is then no longer blocked by the surfaces 21, it is possible, with increased pressure on the main body 5 of the actuating element 2, for the surface 13 of the bead 12, said surface sloping in a roof-like manner, to slide along the surfaces 27. Since the shank 6 of the actuating element in particular also cannot be compressed by the reinforcing ribs 7, during the further pushing-in operation, each spreading hook moves outward (FIG. 8, FIG. 9) until the spreading hooks engage behind the material bounding the opening (FIG. 9).

[0070] In this case, the bead 12 also runs over the inwardly facing edge 26 or the step 25, such that the radial wall 14 of the bead 12 engages behind the step 25 and the hook elements spring back slightly in an elastic manner, such that the step 25 and the wall 14 interact in a latching manner.

[0071] When a sealing element 4 is present, in particular in one piece on the spreading element 3, the fin 35 in this case bears in an elastically deformed manner against the material bounding the hole or the opening 50, whereas the lip 36 bears against the main body 5 of the actuating element, as a result of which, if desired, a sealing action is brought about between the main body 5 and the spreading element 3 on the one hand, in particular the material surrounding the opening 50.

[0072] The fin 35 is also supported on the base ring 15 and acts with an elastic restoring force between the base ring 15 and the material surrounding the opening 50, such that a play, which would lead to rattling, is prevented between the spreading element and the material surrounding the opening, which is closed.

[0073] In addition, the lip 36 also prevents a play between the actuating element 2 and the spreading element 3.

[0074] In the invention, a spreading element is thus introduced with engaging elements into an opening such that the engaging elements engage behind the edge of the opening by means of the actuating element and the actuating element, in turn, interlocks in the spreading element, such that the interlocking of the actuating element in the spreading element interlocks the spreading action and the spreading element is interlocked, and anchored, between the spreading element and the material surrounding an opening. In this way, the opening to be closed is closed off by the main body of the actuating element, possibly assisted by a sealing element.

[0075] In the invention, it is advantageous for holes and in particular holes in vehicle bodies and the like to be able to be reliably closed, and when a sealing element is present to also be able to be sealed off, by the assembly plug according to the invention in a simple, reliable and comprehensible manner which is not susceptible to error.

[0076] A person skilled in the art understands that the sealing element, which in the present case is formed in one part and is otherwise formed in one piece with the spreading element, can also be a separate part, which is for example retained merely in a clamping manner between the actuating element and the spreading element or is adhesively bonded to one of the two elements or is fastened thereon with a groove, or the like.

[0077] The number of spreading hooks is arbitrary and is selected in a manner dependent on the material such that the spreading hooks are not too delicate, in order, on the one hand, to maintain the elastic restoring forces and, on the other hand, to avoid breakage during the assembly. There are also not only so few spreading hooks that the elastic restoring forces during the assembly are too great. By way of example, use is made of between 6 and 14 spreading hooks, wherein the number of spreading hooks is also dependent on the diameter of the hole.

[0078] It goes without saying that, with corresponding shaping, not only round holes but also oval vehicle body openings and other vehicle body openings of any desired shaping can be closed with such an assembly plug.

LIST OF REFERENCE SIGNS

[0079] 1. Assembly plug [0080] 2. Actuating element [0081] 3. Spreading element [0082] 4. Sealing element [0083] 5. Main body [0084] 6. Shank [0085] 7. Reinforcing ribs [0086] 8. Central cylinder [0087] 9. Jacket wall [0088] 10. Ring [0089] 11. Free edge [0090] 12. Bead [0091] 13. Roof-like surface [0092] 14. Radial wall [0093] 15. Base ring [0094] 16. Spreading hook [0095] 17. Spreading hook shank [0096] 18. Spreading hook head [0097] 19. Outer wall of 17 [0098] 20. Hook wall [0099] 21. Control wall [0100] 22. Free end [0101] 23. Side wall [0102] 24. Radial wall [0103] 25. Step [0104] 26. Radially inner wall [0105] 27. Control surface [0106] 28. Aperture [0107] 29. Latching lug [0108] 30. Clearance [0109] 31. Webs [0110] 32. End edge [0111] 34. Ring-like main body [0112] 35. Fin [0113] 36. Sealing lip [0114] 37. Outer edge [0115] 38. Step-like clearance [0116] 39. Annular surface [0117] 40. Radially inner surface [0118] 41. Aperture