DE3716383C1 - Composite profile and process for producing it - Google Patents

Abstract

A composite profile (11) comprises two tubes (12, 14) and an insulating insert (32) which is arranged therebetween and is penetrated by separate connecting bodies (27) which project, by means of their ends, through bores of the mutually facing inner walls of the tubes (12, 14) into the interior of the tubes (12, 14). The ends of the connecting bodies (27) exhibit axial slots (28) which define two wall portions (46, 48) which, when the tubes (12, 14) are moved together, are expanded directly behind the mutually facing inner walls of said tubes (12, 14) by means of in each case one expansion body (36). <IMAGE>

Description

The invention relates to a composite profile consisting of at least two spaced apart, parallel hollow profiles, from one the space between these filling insulators material as well as from a number of these penetrating Fasteners, the ends of which on the Isolierma anchored inside walls of the hollow profiles with at least one end of each connector by a in the inner wall of the hollow profile in question provided bore protrudes into its interior.

Such a composite profile is from DE-GM 75 21 931 known. This known composite profile points in the Outside walls of the hollow profiles no mounting holes on; however, it requires one each for anchoring the connecting elements in the hollow profiles additional locking member through a hole is hammered into the side wall of a hollow profile and one in the connection through the recess. An additional backup of the ver  locking member is not provided. By shock and temperature-related changes in length Loosen locking member. Except for the rather high Her expenditure is the security of the connection between the two Hollow sections not satisfactory.

The object of the invention is to avoid additional cher locking links with the fasteners the two hollow sections to connect particularly reliably.

This task is the beginning of a composite profile mentioned type in that each protruding into the interior of a hollow profile end of a connector tion element at least two opposite one another Has wall sections against the bore wall are spread apart and those surrounding the bore Overlap part of the inner wall.

The connecting elements can thus, for example, at one end conventionally be on the inner wall of a hollow profile consolidates, e.g. B. welded, riveted or screwed, be what the insulation material is applied. Then the second Positioned hollow profile, the free ends of the ver binding elements in the holes in the inner wall of this  Penetrate hollow profile. Then the exact distance between rule two hollow profiles, for. B. by means of spacers and the two opposite Wall sections of each fastener spread apart. For this purpose, an assembly tool can be used NEN, which is inserted into the front of the hollow profile. It ge all you need is a splint with expanding mandrels, which with the connector be brought into alignment. The shoot ne is then loaded on both protruding ends and moved towards the inner wall of the hollow profile, so that the expanding mandrel bends the wall sections of the ver cause binding elements, which creates the two hollow profiles be reliably connected.

In the claims 2 to 4 are alternative execution Possibilities for the connecting elements under protection poses. According to claims 5 and 6 are the verb tion elements at the same time as a spacer for the two Hollow profiles formed, it being the embodiment according to claim 6 enables to train both ends of the connecting elements equally the and their wall section pairs simultaneously in one Deform work step so without additional fasteners  process the hollow profiles exclusively by Ver Forming the connecting elements to connect with each other.

The embodiment according to claim 7 enables a particularly easy insertion of the expansion body into the Fasteners.

The invention further relates to a method for the manufacture provision of a composite profile of the type in question, which there is characterized by that in each spread apart End of the connecting elements having wall sections a spreader is inserted that the distance of the ver aligned parallel to each other so far is wrestled until the spreadable wall sections extend through the holes and the expansion body to rest on the inside of the opposite hollow profile outer wall and that the two hollow profiles then pressed together to their desired distance, whereby the spreader deeper into the ends of the connecting element penetrate elements and their wall sections apart spread.

The expansion bodies can preferably consist of wood or plastic, because temperature resistance is not one of them demands. They are only intended for spreading the wall sections during assembly. With these separate expansion bodies, the assembly ver drive much easier because there is no mounting rail more is required and the expansion body in the Hollow profiles can remain.  

The invention also relates to an expansion body for Implementation of the specified procedure, thereby is characterized in that it is one in the free end of the connection elements fitting insert section, one on it closing, conical expansion section and one continued support section and that the sum the lengths of the expansion section and the support section about the distance between the inner wall of the hollow profile in question corresponds to the inside of its outer wall.

In the drawing, some embodiments of the subject matter of the invention are shown posed and in the following explained in more detail. It shows

Fig. 1 is a sectional view of the parts shown in exploded lung depicting a composite profile,

Fig. 2 is a sectional view of the parts shown in FIG. 1 in an assembly state,

Fig. 3 is a sectional view of the composite profile in the fer term condition,

Fig. 4 is a sectional view of a modified form of execution of parts of a composite profile in exploded view,

Fig. 5 is a sectional view of the composite profile according to FIG. 4 in the assembled state,

Fig. 6 is a sectional view of the parts of a Verbundpro fils in a further alternative and

Fig. 7 is a sectional view of the composite profile of FIG. 6 in the finished state.

In Fig. 1, two hollow profiles 12, 14 with a right-angled cross-section on the mutually facing inner walls 16 and 18 opposite bores 20 and 22 respectively. The bores 22 are smaller in diameter than the bores 20 . The bores 22 serve to receive a Einsteckab section 24 of a connecting element 26 designed as a piece of pipe. After inserting the connecting elements 26 into the hollow profile 14 , they are welded to the hollow profile 14 . The free end of each connecting element 26 has two opposite wall sections 46, 48 separated by an axial slot 28 and an inner edge 30 which is flared outwards.

An intermediate layer of insulating material 32 with openings 34 for the connecting elements 26 is then placed on the hollow profile 14 . Subsequently element in each link 26, a spreader 36, for example. B. of wood, inserted, which has a plug-in section 38 with a diameter equal to the inner diameter of the connecting element 26 , which is followed by a conical expansion section 40 , which in turn merges into a cylindrical support section 42 , the sen outer diameter equal to that of the Verbindungselemen tes 26th and is slightly smaller than the diameter of the drilling 20 in the hollow profile 12 . The length of the Stützabschnit tes 42 and the expansion section 40 together is such that the lower end of the expansion section 40 lies approximately in the plane of the insulating material 32 facing the inner wall 16 of the hollow profile 12 when the upper end face of the expansion body 36 is the inside of the outer wall 44 of the hollow profile 12 touches ( Fig. 2). The hollow profile 12 is at a distance of about 5 mm from the insulating material 32 . In a press, not shown, the two hollow profiles 12, 14 are moved against each other until their clear target distance is reached. The expansion bodies 36 penetrate deeper into the connecting elements 26 and the conical expansion sections 40 bend the wall sections 46, 48 separated from one another by the axial slot 28 and into close contact with the peripheral edge of the bores 20 . The inner wall 16 of the hollow profile 12 is thus held between the bent wall sections 46, 48 on the one hand and the insulating material 32 on the other hand. The finished composite profile 10 is shown in FIG. 3.

The embodiment of a composite profile 11 shown in FIGS. 4 and 5 differs from the previously described embodiment in that both ends of the connecting elements 27 are formed in the same way. The hollow profile 14 has bores 20 of the same size as the hollow profile 12 . The connecting elements 27 have axial slots 28 at both ends. The ends of the connecting elements 27 are reduced in outer diameter, so that there are annular shoulders 50 , the distance between which is equal to the clear nominal distance of the hollow profiles 12, 14 of the composite profile 11 .

For assembly, expansion bodies 36 are inserted into the connecting elements 27 from both ends and then inserted with the lower expansion bodies 36 into the hollow profile 14 , after which the insulating material 32 is placed on the inner wall 18 of the hollow profile 14 . The upper hollow profile 12 is then put on after alignment. the upper expansion bodies 36 penetrate through the bores 20 into the interior of the hollow profile 12 until the outer wall 44 of the hollow profile 12 rests on the columns formed from connecting elements 27 and two expansion bodies 36 in each case. The two hollow profiles 12, 14 are then pressed together, namely by an amount that corresponds approximately to twice the size as in the embodiment according to FIGS. 1 to 3. The mutually facing inner walls 16, 18 of the hollow profiles 12, 14 then come to rest on the shoulders 50 of the connecting elements 27 and the wall sections 46, 48 both in the upper hollow profile 12 and in the lower hollow profile 14 are spread simultaneously.

The expansion body 36 are for both hollow profiles 12, 14 diesel ben when the hollow profiles 12, 14 have the same clear height. The length of the Spreizkör by 36 must be selected for the respective hollow profile 12 or 14 so that the transition between the conical expansion section 40 and the cylindrical insertion section 38 in the area of the insulating material 32 facing inner wall 16 or 18 of the hollow profile 12 or 14 comes to rest when the front ends of the expansion bodies 36 bear against the hollow profile outer walls 44 .

FIGS. 6 and 7 show an embodiment used in the connecting elements 29 which are screwed on the hollow profile 14 by means of separate screws 52. For this purpose, each connecting element 29 has a perforated bottom through which the Verbindungsele elements 29 on the inner wall 18 of the hollow profile 14 can be fastened by means of screws 52 . The expansion body 36 are plugged onto the connecting elements 29 , after which the insulating material 32 and then the upper hollow profile 12 are placed in the manner already described and both hollow profiles 12, 14 , as in the embodiment according to FIGS. 1 to 3, to the desired size compressed and the wall sections 46, 48 are spread apart, so that the composite profile 13 shown in FIG. 7 is formed.

The insulating material 32 can also be introduced after the assembly of the two hollow profiles 12, 14 , for. B. poured. In this case, separate spacers are recommended for the hollow profiles 12, 14 in the form of the connecting elements 26; 29 surrounding spacers. Alternatively, the connecting elements 27 could also be provided with annular shoulders 50 .

Claims (10)

1. composite profile, consisting of at least two spaced-apart, parallel hollow profiles, of an insulating material filling the space between them and a number of connecting elements penetrating this, the ends of which are anchored to the inner walls of the hollow profiles facing the insulating material, wherein at least one end of each connecting element protrudes into its interior through a bore provided in the hollow profile in question, characterized in that this end of the connecting element ( 26; 27; 29 ) has at least two mutually opposite wall sections ( 46, 48 ) which are spread apart against the bore wall and overlap the part of the inner wall ( 16; 16; 18 ) surrounding the bore ( 20 ). 2. Composite profile according to claim 1, characterized in that each connecting element ( 26; 27; 29 ) consists of a tube piece which has at least one end of the tube wall in the two wall sections ( 46, 48 ) dividing axial slot ( 28 ). 3. Composite profile according to claim 1, characterized in that each connecting element as an axially slotted tubular Stamped-bent part is formed.   4. Composite profile according to claim 1, characterized in that each connecting element consists of two parallel tabs, which are punched or cut into the inner wall ( 16, 18 ) of the hollow profile ( 12, 14 ) and bent out of this at right angles. 5. Composite profile according to one of claims 1 to 4, characterized in that each connecting element ( 26; 29 ) is surrounded by a spacer sleeve which contacts the two mutually facing inner walls ( 16, 18 ) of the hollow profiles ( 12, 14 ) on the end face . 6. Composite profile according to one of claims 1 to 4, characterized in that each connecting element ( 27 ) in the connection region of its wall sections ( 46, 48 ) has a shoulder ( 50 ) on the inner wall ( 16, 18 ) of the hollow profile in question ( 12, 14 ) is present. 7. Composite profile according to one of claims 1 to 6, characterized in that the inner edge ( 30 ) at the free end of the still undeformed wall sections ( 46, 48 ) of each connec tion element ( 26; 27; 29 ) is conically expanded to the outside. 8. A method for producing a composite profile according to one of claims 1 to 7, characterized in that in each spreadable wall sections ( 46, 48 ) having the end of the connecting elements ( 26; 27; 29 ), an expansion body ( 36 ) is inserted that the distance of the hollow profiles ( 12, 14 ) aligned parallel to one another is reduced until the spreadable wall sections ( 46, 48 ) extend through the bores ( 20 ) and the expansion bodies ( 36 ) rest against the inside of the opposite hollow profile outer wall ( 44 ) arrive, and that the two hollow profiles ( 12, 14 ) are then pressed together to their desired distance, the expansion body ( 36 ) penetrating deeper into the ends of the connecting elements ( 26; 27; 29 ) and the wall sections ( 46, 48 ) spread apart. 9. Spreading body for performing the method according to claim 8, characterized in that it has a fitting in the free end of the connecting element ( 26; 27; 29 ) insertion section ( 38 ), an adjoining conical expansion section ( 40 ) and a continuation of this support section ( 42 ) and that the sum of the lengths of the expansion section ( 40 ) and the support section ( 42 ) corresponds approximately to the distance of the inner wall ( 16, 18 ) of the hollow profile in question ( 12, 14 ) from the inside of its outer wall ( 44 ). 10. Spreading body according to claim 9, characterized in that it made of wood or plastic.