DE4119326A1 - Fastening two hollow sections together - by clip actuated by eccentric cam mechanism - Google Patents

Abstract

The first hollow section (10) is fastened to a second hollow section (11) by a clip (37) and a tubular fitting (20). The clip (37) is inserted in the fitting which has an internal contour which presses the two spring arms (65) of the clip towards each other. When the arms (65) are pressed together their hooked ends (22, 22') can be inserted through a slot in the wall of the second hollow section. An eccentric cam (16), which can be externally actuated, is then rotated and slides the tubular fitting (20) relative to the clip (37) causing the arms (65) to spring outwards so that their hooked ends engage the edges of the slot in the wall of the second hollow section (11) and fasten the two sections (10, 11) together. USE/ADVANTAGE - Fastening of one hollow section to another using simple clip.

Description

The invention relates to a frame with a connector in the Preamble of claim 1 entered type. Through the connector the profile bars are connected to one another which can be disassembled if necessary. The connector consists of a housing with a longitudinally displaceable holding member Plate material, which is equipped with an eccentric disc ten eccentric bolt is crossed. The connector is located in the Cavity of a profile rod, from the end face one at the outer end of the plate material located coupling hook protrudes during the Eccentric bolt through a cross hole in the wall of the profile bar can be turned on the outside. The eccentric disc acts on you rear control projection, which when turning the eccentric outstanding coupling hook from the plate material between one with respect to a groove in the other profile bar, the extended position in transferred a coupling effective insertion position.

In a known frame of this type (DE-OS 40 12 332) that is Plate material at its inner end to one against its coupling hook curved double-layered fold folded over the rear control tab forms for the eccentric disc. Such a connector has indeed proven, but there is a risk in the insertion position of the plate material that the free leg of the fold bends at high tension forces.

The invention has for its object an inexpensive, fast  Assemblable frame mentioned in the preamble of claim 1 Art to develop, the double-layer fold also extreme loads withstands and, despite frequent coupling and loosening of the profile bars, characterized by good dimensional stability. This is according to the invention by the measures listed in the characterizing part of claim 1 achieved, which have the following special meaning.

Parallel to the axial direction of the eccentric bolt are in the area of Connector two spaced inner surfaces in the Area of the connector arranged. The fold is with a folding pro fil provided, which is essentially this free distance of the Has the corresponding fold width on the inside. At least in the clutch The folded profile moves into the effective insertion position of the sheet material free space and fills this distance with its width starting from. Because now the free leg of the crease on one Supporting the inner surface, there is a deformation of the folded profile from the outset prevented in the sense of bending the fold. The support profile remains itself dimensionally stable under extreme loads. By that in the direction of the fold width Pointing profile arise with regard to the contact point of the free Cover legs on the inner surface of very short lever arms that open counteract the fold. In particular, the folding profile can already be a Have a shape that tends to with extreme clamping forces, the fold increasingly close. As a result, opening the fold is essential impossible. It lends itself to the plate material made of well resilient Form material, such as spring steel, the area of the double layer Fold is hardened.

Further measures and advantages of the invention result from the Subclaims, from the drawings and the description below. The invention is directed to all the new ones that can be extracted from it Features and combinations of features, even if these in the claims should not be explicitly mentioned. In the drawings that is Invention shown in two embodiments. Show it:

Fig. 1 and 2 in enlargement, the plan view and view of a first component of the connector, namely a plate material prior to its installation in the housing,

FIGS. 3 and 4, the corresponding plan view and view of another component of the connector, namely its housing,

Fig. 5 and 6 are cross-sectional views through the housing in plan view along the versprungenen sectional planes VV and VI-VI of Fig. 4,

Fig. 7 shows a cross section through the housing along the sectional plane VII-VII of Fig. 4,

Fig. 8 in a section line of FIG. 5 corresponding cut plan view of a prepared joint for the frame to two lengths of the two to be joined section bars before their coupling,

Fig. 9 in a representation corresponding to Fig. 8 equipped with the connector a profile rod, wherein an eccentric bolt used for mounting the connector in the profile rod is pressed in against a spring force in the manner of a push button in order to mount the connector with this profile rod or to dismantle;

Fig. 10 in a likewise of Fig. 8 corresponding cut plan view of the coupling position of the two profile rods,

Fig. 11, in further enlargement of an inner section of the junction of FIG. 10

Fig. 12 shows an alternative embodiment of the inner end of the plate material shown in Fig. 1 and 11 respectively.

The connector 20 is to releasably couple two profile rods 10 , 11 to a frame according to the invention. For this purpose, the connector 20 is inserted into a cavity 12 of a profile rod 10 which is accessible from the front and projects with coupling means 21 , 21 ', 22 , 22 ' from the profile face 13 . In the coupling case, these come, according to FIG. 10, to lie in a groove 14 of the other profile rod 11 , which, in the illustrated embodiment, consists of a vertical octagonal column. The connector 20 is prefabricated from three components as a structural unit. The connector 20 comprises a housing 23 with a longitudinally movable holding member 24 made of longitudinally profiled plate material 37 made of spring steel, an eccentric pin 25 and a spring member which, in the present case, is designed as a spring tab 26 integral with the plate material, but could be manufactured separately if necessary , e.g. B. as a Lagerzap fen 17 of the eccentric 25 radially enclosing coil spring. At the outer plate end 27 at least one, but preferably two hitching hooks 22 , 22 'are provided, which form the already mentioned first coupling agent tel and in the case of assembly of the connector according to FIG. 8 protrude beyond the profile end face 13 . The plate material 37 is formed in a special way, as can be seen from the enlarged representations of FIGS. 1 and 2 in plan view and view.

The plate material 37 made of spring steel is, starting from its outer de 27 , provided with a longitudinal slot 57 which divides the plate material 37 into two mutually mirror-image profiled plate tongues 65 , 65 '. The longitudinal slot widens in the slot base and ends in front of a rear, common plate section 31 for both plate tongues, 65 , 65 '. The internal expansion of the longitudinal slot 57 is created by cutting out the spring tab 26 from the plate material. The spring tabs 26 extends in parallel and in the same direction with the plate boy 65, 65 ', but relative to the dash-dotted lines in Fig. 1 indicated the median longitudinal tenebene 39 angled. In the installation situation shown in Fig. 8, the free tab end is supported slidably on a rear wall 30 of the housing. As a result, an effective spring load in the direction of arrow 32 is exerted on the subsequent plate section 31 . The plate portion 31 has an opening 33 , which is penetrated by the bearing pin 17 of the eccentric pin 25 in the case of installation and here essentially consists of an elongated hole. On both sides of the opening 33 there are control projections 35 , 38 which rise above a surface 34 of the plate section 31 and face a front wall 36 of the housing 23 during installation, the appearance of which can be seen in more detail in FIGS. 3 to 7. The front control projection 35 consists of a dent pressed out of the plate material 37 , while the other control projection 38 is formed from a double-layered fold 40 which is designed in a special manner against the end 27 of the plate.

The plate section 31 , as can be seen in FIG. 1, is provided with a pre-kink in relation to the longitudinal center plane 39 , indicated by the angle 51 . This kink 51 runs in the installation case, as shown in FIG. 8, in the direction of the spring load 32 and therefore increases the force generated by the spring tab 26 . This measure is of independent inventive importance. When installed, the eccentric pin 25 with an eccentric disk 16 bears on the surface 34 of this plate section 31 , which is why the spring load 32 is exerted by the plate material 37 on the eccentric pin 25 . The eccentric pin 25 is provided with a rotary head 15 serving for its turning handle, which due to this spring load 32 tends to be pushed out of the housing axially and thereby moves into a transverse bore 60 of the profile rod 10 , as can be seen from FIG. 8. In this way, the entire connector 20 can be assembled as a structural unit in its profile rod 10 , as will be described in more detail with reference to FIG. 9.

The two plate tongues 65 , 65 'are mirror images of one another. Starting from their mutually opposing coupling hooks 22 , 22 ', the plate tongues 65 , 65 ' seen in the expansion case, in a spreading position 52 illustrated by further dashed lines in FIG. 1, so that there is initially a gap 54 between them . Following the two coupling hooks 22 , 22 'are mirror images of the longitudinal center plane 39 extending inclined surfaces 28 , 28 ' which cooperate with points of contact 29 , 29 'of the housing 23 when installed. These points of contact 29 , 29 'here consist of mirror-inverted wedge surfaces, one of which 29 , as shown in FIG. 5, is part of the front wall 36 of the housing, while the other 29' belongs to the rear wall 30 . These two points of contact 29 , 29 'overlap, as can be seen from Fig. 3, and end with flat, parallel to the longitudinal direction arranged crests 72 , 72 ', on which the plate-side inclined surfaces 28 , 28 'in the apparent from Fig. 10 clamping position of Connector 20 can accrue.

When assembling the connector 20 , the eccentric pin 25 is first inserted with its bearing pin 17 through the opening 33 in the plate material 37 from the contact surface 34 there and these two components are inserted through the rear opening into the housing 23 until the cylindrical bolt head 15 into a semicircular Moves into the housing front wall 36 due to a wall cutout 50 . In this assembly, the journal 17 comes into a bearing bore 53 provided in the rear wall 30 of the housing. The two plate tongues 65 , 65 ', initially in the spreading position 52 , run on two oppositely arranged ramps 70 , 70 ' of the front and rear walls 36 , 30 and then finally snap behind the front wedge-shaped contact points len 29 , 29 '. The contact points 29 , 29 ', the two coupling hooks 22 , 22 ' in the sense of the arrows 55 , 55 'indicated in FIG. 1' are folded against each other until they finally reach a position shown in FIG. 8 one above the other. At the plate outer end 27 there is an elastic deformation of the two plate tongues 65 , 65 '. The superimposed coupling hooks 22 , 22 'have a slim width, which is formed according to the apparent opening width 67 of FIG. 8 of the groove 14 of the other profile rod 11 to be connected therewith. In the installation case, the two inclined surfaces 28 , 28 'of the plate tongues 65 , 65 ' cross each other in a mirror image. The two coupling hooks 22 , 22 'are at the same time in a vertical orientation with two coupling lugs 21 , 21 ', which are integrally formed on the upper and lower housing side wall 58 , 59 and protrude from the front opening 13 of the profile rod 10 in accordance with FIG. 8. These coupling lugs 21 , 21 'form the aforementioned second coupling means of the connector 20th In the finished connector, the eccentric disk 16 of the eccentric bolt which is in contact with the plate section 31 is pressed against the inner surface of the housing front wall 36 by the spring load 32 and is held in place by the fold 40 provided on the inside of the plate. There is the structural unit already mentioned at the beginning, which can be prefabricated outside the profile rod 10 .

The finished connector can now be mounted in the cavity of the profile rod 10 in the manner shown in FIG. 9. It is against the Federbe load 32, a pressure in the direction of arrow 62 of FIG. 9 is exerted on the bolt head 15 , which then escapes into the interior of the housing like a push button. Because of the abutment of the eccentric disk 16 , the inner plate section 31 of the plate material 37 also seesaws and enters a space 56 shown in FIG. 9 in front of an inner surface 74 on the housing side. In this case, due to an initial rotational position of the eccentric pin 25, there is a maximum, visible in FIG. 9 extension position of the plate material 37 , where the plate end equipped with the coupling hooks 22 , 22 'protrudes the outer end 27 from the housing 23 at most. In this exporting approximately example, the inner surface is formed by a rear wall opposite the housing 30 remote stage 74, but due to a corresponding profile of the plate material 37 could this inner surface 74 also extend continuously in the height region of the housing rear wall 30th In the latter case, the free space 56 would be created by recesses in the rear wall 30 adapted to the profiles. When the eccentric bolt 25 is pressed in, its bolt head 15 no longer protrudes beyond the front wall 36 of the housing, which is why the entire assembly of the connector 20 can be inserted into the interior of the housing through the front opening 13 of the profiled rod 10 in the sense of the arrow 63 from FIG. 9. During this insertion movement 63 , the bolt head 15 finally comes into alignment with a transverse bore 60 in the wall of the profiled rod 10 , where it snaps like a snap due to the acting spring load 32 . Thus, the connector is assembled in the profile rod 10 according to FIG. 8. In this mounting position, incidentally, inwardly directed heel surfaces of the two coupling lugs 21 , 21 'in front of the end face 13 of the profile rod 10 and additionally secure the defined installation depth of the connector 20th In an analogous manner, the pushbutton actuation 62 of the eccentric pin 25 also disassembles the connector 20 from the profile rod 10 by pulling the connector 20 out of the cavity 12 of the profile rod 10 again in the sense of arrow 64 also shown in FIG. 9.

The so equipped with the connector 20 profile rod 10 is now with the at its front opening 13 projecting coupling means 21 , 21 'and 22 , 22 ' with the slim width already mentioned through the Nutein gear 67 inserted into the other profile rod 11 . Then the bolt head 15 is rotated by means of a turning tool, the plate material 37 being pushed inwards in the direction of arrow 61 of FIG. 10 via the eccentric disk 16 and finally reaching an insertion position visible there. This takes place via the specially designed fold 40 , the design and function of which can be clearly seen in FIG. 11.

The fold 40 has a fold profile 43 , 46 which can already be seen in FIG. 1 and which produces a defined fold width 47 . The folding profile 63 , 46 has a C-shape in this embodiment. One layer of the fold 40 is generated by a base leg 46 , which initially continues the preceding plate section 31 . The base leg 46 then merges into an arc 48 and runs into a cover leg 43 which is slightly bent back against the base leg 46 and which produces the other fold 40 . In the mounting case shown in FIG. 11, the covering leg 43 is the free end edge 38 of the deck leg 43 slidably on the eccentric disk 16 at. When the above-mentioned turning of the eccentric pin 25, the cam plate 16 receives the sheet material 37 beyond the end edge 38 with which it acts as a rear control projection, and therefore the above-mentioned, from Fig. 10 apparent shear motion 61 runs.

Already beforehand, in the extended position of the plate material 37 shown in FIG. 8, the cover leg 43 bears against an inner surface 66 provided in the area of the connector 20 and is guided along this inner surface 66 at the transition into the inserted position shown in FIG. 10. Because of the rear wall cutout 50 of the housing front wall 36 , which can already be seen in FIG. 4, this inner surface 66 is formed here by the inner wall surface of the profile rod 10 , as can be seen from FIG. 8. Alternatively, the cover leg 43 could come into contact with an inner surface of the housing 23 . This longitudinal guide ensures that the end edge 38 reliably engages behind the control edge of the eccentric disc 16 , which in turn stung due to the Federbela 32 defined abuts the inner surface of the housing front wall 36 . Both components 16 , 43 which cause the insertion movement 61 are continuously guided longitudinally.

This also ensures that, finally, in the insertion position shown in FIGS . 10 and 11, the folding profile 43 , 46 finally also runs onto the aforementioned inner surface 74 in the housing. As can be seen from FIG. 8, the inner end of the fold 40 is located just in front of this inner surface 74 , so that shortly after the eccentric bolt 25 has been rotated, the run-up arch 48 of the folded profile 43 , 46 begins to slide over this inner surface 74 and finally, as can be seen from Fig. 11, with its full folding width 47 fills the free space 49 between the two inner surfaces 66, 74. A pushing-in movement 62 of the eccentric pin 25 in the sense of FIG. 9 is no longer possible because the base leg 46 can no longer escape into a free space 56 , as previously in FIG. 9, due to its support on the inner surface 74 . The inner surface 66 now acts as a stop and the folded profile 43 , 46 is blocked against a pushing-in movement 62 of the eccentric pin 25 . The mounting position of the connector 20 with its profile rod 10 is secured.

In this insertion movement 61 of Fig. 10, the aforementioned inclined surfaces 28 , 28 'of the two plate tongues 65 , 65 ' at the described wedge-shaped contact points 29 , 29 'and there is an apparent in Fig. 10 acting in the expansion sense elastic Querbewe movement 69 , 69 'of the two coupling hooks 22 , 22 '. This drive behind the above-mentioned groove entrance 67 groove inner surfaces 68 and press the two profile rods 10 and 11 when tensioning the Exzenterbol zens 25 together like a vise. This results in considerable forces, which are indicated by the arrow 18 in FIG. 11, which act between the eccentric disk 16 and the end edge 38 of the cover leg 43 . However, these forces 18 cannot unfold the cover leg 43 for several reasons.

At the transition between the extended position of FIG. 8 and the extended position of FIG. 10, the eccentric disc 16 rotates into a window 73 which is embedded in the upper housing side wall 58 . This takes place shortly after the eccentric pin 25 has left its starting position in the extended position of FIG. 8. As long as the eccentric engages in the window 73 16, the insertion movement can 62 according to Fig. 9 not run because there the eccentric disc 16 to the Soffit edge of the window 73 would encounter. Thus, in addition to the inner surface 74 , there is a direct blockage acting on the eccentric 25 . Full insertion position of the sheet material 37 of FIG. 10 has, however, the eccentric 16 rotated out of the window 73 and it is the 11 explained blockade in conjunction with FIG. Of Faltprofils 43, 46 on the housing side inner surface 74 in front.

As already mentioned, the cover leg 43 is constantly supported, that is to say especially in the extended position of FIG. 11, on the rod-side inner surface 66 , so that when the folding profile 43 , 46 is moved into the free distance 49, the folding width 47 does not continue can increase. Otherwise, starting from the point of contact of the C-shaped curved leg 43 , there is only a short lever arm length 71 on this inner surface 66 , which withstands such opening movements. In addition, the C-folded profile 43 , 46 is rolled in so far that with such a clamping force 18 the C-shape cannot open, but at most can close further. This ensures the engagement relationship between the fold 40 and the eccentric bolt 16 ; the greater the clamping force 18 , the more securely the two legs 43 , 46 are pressed together in the closing direction of the fold 40 .

In Fig. 12, an alternative embodiment 40 'of the above-described fold in the inner end of the plate material 37 is illustrated. Except for the deviations listed below, the previous description applies. - The cover leg 43 ', 40 ' has a U-profile here, which is composed of an initial web 44 , central web 42 and end web 41 . As can be seen from FIG. 12, the end edge 45 of the free U-end web 41 is directed against the abovementioned contact surface 34 of the plate material 37 in the rear plate section 31 . The cover leg 43 'forms together with the base leg 46 an annular profile. This fold 40 'has the above-defined, defined fold width 47 , which is why the above-described guide and support effects also arise here. The peculiarity lies in the fact that here the rear control projection for the eccentric be 16 from the entire end web 41 of this folded profile 43 ', 46 is formed. This U-end web 41 extends substantially perpendicular to the prescribed NEN plate contact surface 34 and has a height because of the large fold width 47 , which ensures a reliable high engagement of the eccentric disc 16 . Here, too, the clamping forces 18 described in FIG. 11 cannot cause this profile to unfold; on the contrary, the higher the clamping forces 18 , the more reliably the U-end leg 41 is loaded in the closing direction of the fold 40 '. Due to the elastic deformation of the U-end web 41 which occurs with extreme clamping forces, such a folding-in movement is stopped by supporting the folding edge 45 on the plate contact surface 34 . The annular folded profile of this fold 40 'is particularly stable.

It goes without saying that other folding profiles could also be used, as long as the described folding width 47 is present, which when leaving the uncoupled extension position of the plate material 37 from FIG. 8 in the direction of the coupling-effective insertion position from FIG. 10, the free distance 49 between the two inner surfaces 74 , 66 fills in.

Reference symbol list

10 profile bar
11 profile bar
12 cavity of 10
13 front opening of 10
14 groove of 11
15 bolt head of 25
16 eccentric disc from 25
17 journals from 25
18 tension arrow
19th
20 connectors
21, 21 ' coupling means, coupling nose
22, 22 ' coupling means, coupling hook
23 housing
24 holding link
25 eccentric bolts
26 feather rags
27 outer plate end of 24
28, 28 ′ inclined surface of 24, 24 ′
29, 29 ′ contact point for 28, 28 ′
30 rear wall of 23
31 plate section of 37
32 spring loading arrow
33 breakthrough in 37 for 17
34 contact surface for 16 at 31
35 front steering tab, dent
36 housing front wall of 23
37 plate material from 24
38 control edge of 43
39 longitudinal center plane between 22, 22 ′
40, 40 ′ fold
41 U end web of 43 ′
42 U-center bridge from 43 ′
43, 43 ' curved cover leg of 40, 40' , folded profile
44 U-footbridge of 43 ′
45 front edge of 41
46 base legs of 40 , folding profile
47 fold width of 40 or 40 ′
48 overrun sheets of 43
49 free space between 66.74
50 wall section of 36
51 pre-bend angles between 31, 39
52 spread position between 22, 22 ′ (expansion case)
53 bearing bore in 30
54 gap
55, 55 ′ collapse arrow of 22, 22 ′
56 Free space before 74
57 longitudinal slot of 24
58 upper housing side wall of 23
59 lower housing side wall of 23
60 cross holes in 10
61 insertion arrow from 37
62 impression arrow of 25
63 insertion movement arrow from 20 into 10
64 pull-out movement arrow from 20 in 10
65, 65 ′ plate tongue of 37
66 rod-side inner surface of 10
67 slot input from 11
68 groove inner surface in 11
69, 69 ′ transverse movement arrow from 22, 22 ′
70, 70 ′ ramp in 23
71 lever arm length of 43 versus 66
72, 72 ′ flat top at 29, 29 ′
73 windows in 23
74 effective inner surface of 23

Claims (15)

1. Frame made releasable by a connector ( 20 ) with each other kuppelba ren profile rods ( 10 , 11 ), of which at least some ( 11 ) behind cut grooves ( 14 ) and others ( 10 ) an end cavity ( 12 ) for receiving the connector ( 20 ) have
the connector ( 20 ) consists of a housing ( 23 ) inserted in the cavity ( 12 ), is further formed of at least one longitudinally displaceable ( 61 ) holding member ( 24 ) made of plate material ( 37 ) and finally of an eccentric pin rotatably mounted in the housing ( 23 ) ( 25 ), which passes through the plate material ( 37 ) and has an eccentric disc ( 16 ),
the plate material ( 37 ) at the outer end ( 27 ) has at least one coupling hook ( 22 ) which, when the connector ( 20 ) is mounted, protrudes from the profile bar ( 10 ), can be inserted into the groove ( 14 ) of the other profile bar ( 11 ) for coupling, and in the case of coupling engages behind the groove wall ( 68 ),
the plate material ( 37 ) is folded at the inner end into a double-layered ( 43, 46 ) fold ( 40 ) bent against the coupling hook ( 22 ), which forms a rear control projection ( 38 ) for the eccentric disc ( 16 ),
and when the eccentric bolt ( 25 ) is rotated, the eccentric disc ( 16 ) transfers the outer-end coupling hook ( 22 ) of the plate material ( 37 ) with respect to the groove ( 14 ) from a decoupled extension position into a coupling-effective insertion position, characterized in that the fold ( 40 ) engages Folded profile ( 43 , 46 ) with such a fold width ( 47 ) running parallel to the axial direction of the eccentric bolt ( 25 ), which - at least in the inserted position of the plate material ( 37 ) - has a free distance ( 49 ) between two inner surfaces ( 66 , 74 ) in the area of the connector ( 20 ). 2. Frame according to claim 1, characterized in that the folding profile ( 43 , 46 ) normally always bears against the one inner surface ( 66 ) and when transferring ( 61 ) the plate material ( 37 ) between its extension and insertion position on this inner surface ( 66 ) is longitudinal. 3. Frame according to claim 1 or 2, characterized in that although one inner surface ( 66 ) of the housing ( 23 ) of the connector ( 20 ), but the other ( 74 ) from the cavity ( 12 ) of the profile rod ( 10 ) is formed. 4. Frame according to claim 3, characterized in that the inner surface ( 66 ) formed by the profile rod ( 10 ) serves for longitudinal guidance ( 61 ) of the folded profile ( 43 , 46 ). 5. Frame according to claim 1 or 2, characterized in that both inner surfaces of the housing ( 23 ) of the connector ( 20 ) are generated. 6. Frame according to one or more of claims 1 to 5, characterized in that the plate portion ( 31 ) of the plate material ( 37 ) serving as a base leg ( 46 ) serving as a base for the eccentric disk ( 16 ) has a position of the fold ( 40 ) in essentially continues, while the other position of the fold ( 40 ) is formed from a cover leg ( 43 ) curved in the direction of the fold width ( 47 ). 7. Frame according to claim 6, characterized in that the deck leg ( 43 ) on one inner surface ( 66 ) is longitudinally guided ( 61 ). 8. Frame according to claim 6 or 7, characterized in that the cover leg ( 43 ) of the fold ( 40 ) has a C-shaped folded profile and the control projection is formed by the end edge ( 38 ) of the plate material ( 37 ). 9. Frame according to claim 6 or 7, characterized in that the cover leg ( 43 ) of the fold ( 40 ') has a U-shaped folded profile, the free U-end web ( 41 ) on the base leg ( 46 ) runs back and at the same time the Control projection for the eccentric disc ( 16 ) forms. 10. Frame according to one or more of claims 1 to 9, in which the eccentric bolt ( 25 ) of the connector ( 20 ) is axially spring-loaded ( 32 ) and strives to push a bolt head ( 15 ) acting as a turning handle out of the housing ( 23 ),
and the bolt head ( 15 ) in the extended position of the plate material ( 37 ) can be pressed ( 62 ) against the spring load ( 32 ) into the housing ( 23 ) and, for mounting the connector ( 20 ) in the rod cavity ( 12 ), in a transverse bore ( 60 ) snaps into the wall of the profile rod ( 10 ),
but in a longitudinal position deviating therefrom, namely at the latest in the insertion position of the plate material ( 37 ), is blocked against axial pushing-in ( 62 ), characterized in that the one inner surface ( 74 ) in the connector ( 20 ) opposite the spring load ( 32 ) supports the folded profile ( 43 , 46 ) to block the eccentric bolt ( 25 ). 11. Frame according to one or more of claims 1 to 10, characterized in that to block the eccentric bolt ( 25 ) of the base leg ( 46 ) of the fold ( 40 ) is supported on the inner surface ( 74 ). 12. Frame according to claim 11, characterized in that the Faltpro fil ( 43 , 46 ) in the transition region between its base and cover leg ( 46 ; 43 ) is provided with a ramp ( 48 ) which - in the extended position of the plate material ( 37 ) seen - is directed towards the inner surface ( 74 ). 13. Frame according to claim 11 or 12, characterized in that the ramp ( 48 ) in the extended position - seen in the direction of the spring loading ( 32 ) - with a space in front of the inner surface ( 74 ) ( 56 ) in the connector ( 20 ) is aligned. 14. Frame according to one or more of claims 1 to 13, with a longitudinal slot ( 57 ) in the plate material ( 37 ), which extends from the outer end ( 27 ) to almost the plate section ( 31 ) serving to bear the eccentric disc ( 16 ) and dividing the plate material ( 37 ) into two stacked plate tongues ( 65 , 65 ′),
wherein the two plate tongues ( 65 , 65 ') have mutually opposing coupling hooks ( 22 , 22 ') as well as mutually mirrored inclined surfaces ( 28 , 28 '),
and the two inclined surfaces ( 28 , 28 ') bear against two fixed contact points ( 29 , 29 ') opposite each other in the housing ( 23 ), characterized in that - seen in the case of removal - the two plate tongues consisting of resilient plate material ( 37 ) ( 65 , 65 ') assume a spreading position ( 52 ) which extends beyond the distance between the associated housing-side contact points ( 29 , 29 ) and which, when removed, has a free gap ( 54 ) between the two coupling hooks ( 22 , 22 ') generated, in the installation case, the gap ( 54 ) is closed by the preferably congruent one above the other the coupling hook ( 22 , 22 '). 15. Frame according to claim 14, with an integral, angled to the plate material ( 37 ) extending spring tab ( 26 ) for Federbela stung ( 32 ) of the eccentric bolt ( 25 ), the free tab end of which is slidably supported inside the housing, characterized in that - in the expansion -If seen - the inner plate section ( 31 ) of the plate material ( 37 ) adjoining the spring tab ( 26 ) - with respect to a longitudinal center plane ( 39 ) running between the two coupling hooks ( 22 , 22 '), a lead in the effective direction of the spring load ( 32 ) Pre-kink ( 51 ).