DE4326925A1 - Connecting element - Google Patents

Abstract

In order to produce connecting elements for the releasable connection of two profile pieces 1, 4, of which at least one exhibits an undercut longitudinal groove 2 and the other exhibits a rectangular hollow profile 5, a retaining member 8 being arranged longitudinally displaceably by a rotatable eccentric 23 in a housing 6, and it being possible for the profile pieces 1, 4 to be connected to one another and released from one another via free ends 10 which belong to the retaining member 8 and project out of the hollow profile 5 and engage into the longitudinal groove 2 of the other profile piece 1, it is proposed that the eccentric 23 have, at least in its lower region, a section 25 of a diameter which is increased with respect to the section 26 located axially in front, that the housing 6 have a bore 22 and the retaining member 8 have a bore 14 which is arranged in an offset manner to the bore 22 in the functioning position and through which the section 25 of increased diameter can be plugged, it being possible for the bores 14, 22 to be aligned coaxially with respect to one another for the axial insertion of the eccentric 23, and that an additional rotation-restricting element 27 be arranged on the eccentric 23. <IMAGE>

Description

The invention relates to a connecting element for detachable Connect two profile pieces, at least one of which is one undercut longitudinal groove and the other a rectangular Has hollow profile in which a bearing member for guiding one out a leaf spring shaped holding member is used, wherein the holding member via an inserted into the bearing member and by outside through an opening in the associated profile piece rotatable eccentric is longitudinally displaceable in the hollow profile, whereby the profile pieces protrude from the hollow profile and engaging in the longitudinal groove of the other profile piece free Ends of the holding member connected together or from each other can be solved, the bearing member as the holding member enclosing housing is formed.

Such connecting elements, also called clamp locks, are known in the art. They are used for Manufacture of frames consisting of profiled bars, whereby the connecting element into a substantially rectangular Hollow profile of a profile rod is used such that the Holding member protrudes at the free end of the profile rod. In a undercut longitudinal groove of another profile bar is that Retaining link can be used. The holding member consists of a Leaf spring, which in the bearing member designed as a housing is longitudinally displaceable. For this purpose is in the bearing member an eccentric projecting through the holding member is used. This  Eccentric is through an opening in the corresponding Profile bar accessible. By turning the eccentric it can Retaining member are moved in the longitudinal direction. To Insert the one from the free end of a profile bar outstanding retaining member in the undercut longitudinal groove another profile rod, the eccentric is rotated so that the holding member is pulled into the bearing member. In all As a rule, the holding members have opposing hooks Leg ends on which when moving the holding member apart by turning the eccentric into the bearing member be spread. This spreading apart of the thigh ends causes the jamming of the holding member in the longitudinal groove Profile bar. Thus a secure hold between the individual profile rods.

So with the generic fasteners Holding member, the housing forming the bearing member and the eccentric be mounted relative to each other so that on the one hand Eccentric accessible from outside for turning is so that the holding member by the rotation of the eccentric in Can be moved back and forth in the housing, on the other hand, the arrangement of the parts must be permanent, so that an unwanted disassembly of the connecting element or Movements of the parts relative to each other during operation excluded are. However, since it is mass-produced and the cost of the fasteners the manufacturing cost for those from the profile bars and the connecting elements formed frames must not have a negative impact which are required to manufacture the connecting element Individual parts can be manufactured economically and individually in addition, the assembly of the connecting element is simple and be economical.

In addition, it is necessary that the eccentric is not can be turned endlessly. On the one hand, it turns  position required in which the holding member in its on is in the most advanced position in which the Leg ends can be inserted into the grooves of the profile rods, on the other hand, the exact feed position is required, in which the holding member is in the retracted position, in which the leg ends jammed against the grooves of the profile bar are. If these two positions are not exactly defined, is not a desired use of the connecting element possible and a secure hold of the frame is not guaranteed.

In the connecting elements known from the prior art one of the housing side walls is used as a stop, against which is a large eccentric disc with its radially outer end abuts during rotation. The opposite one Housing side wall of the bearing member has a slot, so that the eccentric does not also hit this wall. Such Fasteners are known for example from the DE-OS 29 41 008, DE-GM 91 13 128, DE-OS 39 31 943 and EP 0 371 153.

It is obvious that an eccentric, which one Eccentric disc which, when rotated against one of the in Radial area abuts side walls, difficult in the the housing forming the bearing member is mountable, in particular because an exact interaction with the one to be used Retaining member must be guaranteed. The aforementioned DE-OS 29 41 008 and DE-GM 91 13 128 disclose one for this purpose two-part eccentric, in which a middle link in the Housing inserted transversely and through an opening in one of the Side walls an axis is inserted axially. In the DE-OS 39 31 943, the housing has a lateral opening, which for one is used to insert the eccentric and the other prevents the eccentric on this side wall strikes. The corresponding opposite side wall is then the stop wall. In the known from EP 0 371 153  In contrast, the connecting element is the eccentric in the housing used before it is closed by a lid.

All of the above-mentioned designs are in terms of structure and Assembly of the connecting element complicated, complex and comparatively uneconomical. In all known cases the housing must have asymmetrical cutouts or recesses point, which makes automatic production difficult. Of the Eccentric has a complicated structure in all cases, which is particularly expensive in the two-part eccentric the manufacture and assembly. With two parts Eccentrics must be installed in several directions, d. H. insert the eccentric to the side and the axis axially from Plug in above, in the case of EP 0 371 153 the housing must after inserting the eccentric.

Proceeding from this, the invention has the object reasons, a connecting element of the generic type such to further develop that the individual parts have a simple structure have, the manufacture and assembly of the parts significantly simplified and largely automatable, and that Connecting element is significantly cheaper to produce.

As a technical solution to this task, a generic connecting element further developed in that the eccentric at least in its lower area Section with a section lying axially in front of it has an enlarged diameter, and the housing has a bore and the holding member in a functional position for drilling the Have housing offset bore, the Diameters of the holes are such that the paragraph with enlarged diameter can be inserted, and wherein the bores for the axial insertion of the eccentric coaxially are aligned to each other, and that on the eccentric additional rotation limiting element is arranged.  

The connecting element according to the invention is thus made up of parts built, each have a very simple structure and thus the manufacture of the parts can be largely automated is. The housing has next to the inner cavity for receiving and moving the holding member only one hole in one Sidewall on. The holding member in the form of a leaf spring has also only a corresponding hole for the eccentric. The eccentric has one at least in its lower area annular projection formed by a section is, whose diameter compared to the axially in front Section is enlarged. The holes in the housing and Retaining member are arranged so that they are in the Functional position offset from each other, i.e. lying eccentrically. The two holes become coaxial to insert the eccentric aligned with each other and the eccentric from the outside through the Opening inserted in the housing. The section with enlarged Diameter is also inserted through the holding member. The holding link and housing then move in again Function position, the two holes to each other come to rest staggered. The eccentric is thus through the section of enlarged diameter formed lower Step through the transversely displaced bore of the holding member on Prevented from falling out of the housing.

It is obvious that through these simple measures the Structure of the individual parts and the connection lock as a whole and its assembly are considerably simplified.

According to a further embodiment, the Invention specified that the eccentric with two coaxially Distance from each other is made up of disks an eccentrically arranged, cylindrical part with each other are connected. Between the eccentrically arranged, cylindrical part and the lower disc in the operating position the required jump in diameter is very easy  aims so that such an eccentric formed as far as possible can be produced automatically and inexpensively.

It is also advantageously stated that the eccentric spring-loaded by a spring acting in the axial direction in the Connection element is used. Through this bias the eccentric is always pressed in the direction of the opening in the housing, which automatically creates the one formed by the lower disc Jump in diameter against the wall of the bore in the holding member is pressed. This will connect the elements in the Connecting element to each other more securely and the eccentric on Prevented from falling out of the housing.

Advantageously, it is further stated that the holding member by the force of a compression spring in the direction of extension from the housing is biased. So that the outer wall of the hole is in Holding member, the part of the eccentric protruding through the bore under spring tension, on, whereby the mounting of the eccentric in Connection element is still improved.

Advantageously, it is stated that the additional am Eccentrically arranged rotation limiting element is a cam, which with a stop element arranged in the housing cooperates. The cam is advantageously in the axial direction Arranged at the bottom of the eccentric while the housing-side stop element on the inside of the side wall is arranged, the side wall carrying the bore opposite. This eccentric arranged in the axial direction sided cams can be made in a very simple manner. Likewise, the stop element on the housing side can be simply Insert, for example, a cylindrical pin into one small bore can be made.  

The connecting element according to the invention is characterized by this from that the individual parts used for its construction are conceivable are easy to set up and assemble. So that's one the greatest possible degree of automation in the manufacture of Individual parts and the connecting element possible.

Further advantages and features of the invention result from the following description based on the figures. These show:  

Figure 1 is a connecting element in plan view.

Figure 2 shows the same connecting element along the line II-II in Figure 1 cut in side view.

Figure 3 is an exploded view of the components of a connecting element Ver with an associated profile piece in a perspective view.

Figure 4 shows an eccentric in side view.

Fig. 5 the same eccentric in bottom view;

Fig. 6 is a case in side view;

. Fig. 7 is the same housing taken along the line VII-VII in Figure 6 is cut in a top view;

Fig. 8 is the same housing in front view;

Fig. 9 is a movement plan of the eccentric;

FIG. 10 is a leaf spring in top view;

Fig. 11 the same leaf spring in side view.

An undercut longitudinal groove 2 is arranged in a first profile piece 1 and is delimited by lips 3 . With the profile piece 1 , a second profile piece 4 is connected, which has a hollow profile 5 .

As seen from Fig. 3, insert into the hollow profile 5 designed as a housing 6 bearing member 7 and an inserted into the housing 6 holding member 8.

The holding member 8 is designed as a folded and multi-cranked leaf spring 9 . The free ends 10 of the leaf spring 9 are resilient in the transverse direction with a distance S parallel to each other and T-shaped in plan. The T-shaped ends 10 are extended over the width of the housing 8 and have bead-like formations 11 running transversely on the outer sides. The sides of the formations 11 facing the housing 8 are formed as vertical contact surfaces 12 which, as can be seen in FIG. 1, bear against the lips 3 of the longitudinal groove 2 . The formations 11 can be formed, for example, by simply embossing the ends 10 of the leaf spring 9 .

The leaf spring 9 also has a centrally arranged, rectangular recess 13 and a round bore 14 which is arranged at the end opposite the free ends 10 . A compression spring 15 is inserted into the rectangular recess 13 before the leaf spring 9 is inserted into the housing 6 .

As seen from Fig. 3 and Fig. 7, a side wall 16 of the housing 6 is formed stepwise so that the multiple GE cranked leaf spring 9 is flush on this side wall 16. To accommodate the compression spring 15 inserted into the leaf spring 9 , blind holes 18 are formed in side walls 16 and 17 of the housing 6 in the manner of blind holes.

At the front end of the housing 6 20 spacers 21 are arranged centrally on an upper part 19 and a lower part. The spacers are L-shaped and point away from the housing 6 with their free ends. The width of the spacers 21 is dimensioned such that it corresponds to the distance S between the free ends 10 of the leaf spring 9 , so that the spacers 21 lie exactly between the free ends 10 of the leaf spring 9 when the leaf spring 9 is fully inserted into the housing 6 is.

The side wall 17 of the housing 6 has a bore 22 for receiving an eccentric 23 . The eccentric 23 shown in FIG. 4 consists of two coaxially spaced disks 24 and 25 which are connected to one another via an eccentrically arranged, cylindrical part 26 . A cam 27 is formed on the underside of the smaller disk 25 as a rotation limitation.

The bore 22 in the side wall 17 of the housing 6 and the bore 14 of the leaf spring 9 are arranged coaxially to one another when the leaf spring 9 is inserted into the housing 6 until the free ends 10 abut the upper part 19 or lower part 20 .

As can be seen from FIG. 7, the side wall 16 has an indentation 28 on the inside relative to the bore 22 . The bore 22 , the bore 14 and the recess 28 serve to receive the eccentric 23 . The eccentric 23 is inserted with the smaller disk 25 first into the housing 6 with the leaf spring 9 on the inside when the leaf spring 9 is fully inserted into the housing 6 . Due to the spring force of the compression spring 15 inserted into the leaf spring 9 , the leaf spring tends to emerge from the front of the housing 6 . As soon as the disk 25 has passed through the bore 14 , the side wall bores the bore 14 against the eccentrically arranged cylinder 26 of the eccentric 23 and thus prevents the eccentric 23 from being pulled out of the housing 6 or the leaf spring 9 again. This jamming of the eccentric 23 by the leaf spring 9 is particularly important since a compression spring 30 is arranged in a bore 29 of the disk 25 , which presses the eccentric outwards from the housing 6 .

The molded on the disc 25 as a rotation limit cam 27 serves to determine the eccentric positions "open" and "closed". At the end points of the eccentric rotation range, the cam 27 runs onto a stop 31 in the recess 28 .

In order to insert the housing 6 with the leaf spring 9 and the eccentric 23 into the profile piece 4 , the eccentric 23 is pressed into the housing 6 against the force of the compression spring 30 and then the housing 6 is pushed into the hollow profile 5 of the profile piece 4 . So that the eccentric 23 can be pressed completely into the housing 6 , the side wall 16 of the housing 6 has a rotation 28 , which serves to receive the cam 27 .

The housing 6 is pushed into the hollow profile 5 until the disk 24 of the eccentric 23 is pressed out of the housing 6 by the force of the compression spring 30 in the opening 33 of the profile piece 4 . The disc 24 of the eccentric 23 thus fixes the position of the housing 6 in the hollow profile 5 of the profile piece 4th

In order to connect two profile pieces 1 and 4 by means of the clamp connection according to the invention, housing 6 , leaf spring 9 and eccentric 23 are joined together in the manner described and inserted into the hollow profile 5 of the profile piece 4 . At closing the eccentric 23 is turned to the "on" position. In this position, the leaf spring 9 is pushed out of the housing 6 by the compression spring 15 so far that the free ends 10 of the leaf spring 9 protrude in the longitudinal direction over the spacers 21 . The free ends 10 of the leaf spring 9 can now be compressed in front of the spacers 21 against the spring force of the leaf spring 9 . To assemble the profile piece 4 with a profile piece 1 , the free ends 10 of the leaf spring 9 projecting from the hollow profile 5 of the profile piece 4 are now pressed into the longitudinal groove 2 of the profile piece 1 . After inserting the free ends 10 into the longitudinal groove 2 , the old distance S between the free ends 10 of the leaf spring 9 is immediately restored. The molded parts 11 formed on the free ends 10 engage behind the lips 3 of the longitudinal groove 2 and prevent the free ends 10 from sliding out of the longitudinal groove 2 . Thus, a single person can now easily connect the profile piece 4 with another profile piece at the other end of the profile piece 4 , without the risk that the connec tion between profile piece 1 and profile piece 4 is released again. Despite the existing connection between the section 1 and the profile piece 4, the two profile pieces 1,4 can be 2 shifted from each other still in the direction of the longitudinal groove, since the cam 23 is still in the position "on". If a final and firm connection is now to be made between the profile pieces 1, 4 , the eccentric 23 is turned into the “closed” position. By rotating the eccentric 23 , the leaf spring 9 is drawn into the housing 6 against the force of the compression spring 15 . This longitudinal displacement has the effect that the vertical contact surfaces 12 on the formations 11 lie firmly against the lips 3 and brace the profile pieces 1 and 4 against one another. To release the profile pieces 1 and 4 , the eccentric is turned back to the "open" position, as a result of which the leaf spring 9 protrudes further out of the housing 6 . By strong pulling the formations 14 run on the lips 3 and press the free ends 10 of the leaf spring 9 together so that they can be pulled out of the longitudinal groove 2 .

In order to fix the positions on and off, the stop 31 is located in the recess 28 in the side wall 16 of the housing 6 . This is formed for example in the lower region on the side wall of the recess 28 . The eccentric can now only be rotated from one end position to the other, as a result of which the holding member positions are exactly defined.

Reference list

1 profile piece
2 longitudinal groove
3 lip
4 profile piece
5 hollow profile
6 housing
7 bearing member
8 holding link
9 leaf spring
10 end
11 formation
12 contact surface
13 recess
14 hole
15 compression spring
16 side wall
17 side wall
18 leadership
19 top
20 lower part
21 spacers
22 hole
23 eccentrics
24 disc
25 disc
26 cylinders
27 cams
28 insertion
29 hole
30 compression spring
31 stop
33 opening
S distance.

Claims (6)

1. Connecting element for releasably connecting two profile pieces ( 1 , 4 ), at least one of which has an undercut longitudinal groove ( 2 ) and the other a rectangular hollow profile ( 5 ) into which a bearing member ( 7 ) for guiding one from a leaf spring ( 9 ) shaped holding member ( 8 ) is used, the holding member ( 8 ) being inserted into the bearing member ( 7 ) and rotatable from the outside through an opening ( 33 ) in the associated profile piece ( 4 ) eccentric ( 23 ) in the hollow profile ( 5 ) is longitudinally displaceable, whereby the profile pieces ( 1 , 4 ) are connected to or detached from one another via free ends ( 10 ) of the holding member ( 8 ) which protrude from the hollow profile ( 5 ) and engage in the longitudinal groove ( 2 ) of the other profile piece ( 1 ) can be, wherein the bearing member ( 7 ) as the holding member ( 8 ) enclosing housing ( 6 ) is formed, characterized in that the eccentric ( 23 ) at least in its lower region n section ( 25 ) with a larger diameter than the axially preceding section ( 26 ), and the housing ( 6 ) has a bore ( 22 ) and the holding member ( 8 ) has a bore ( 14 ) arranged in the functional position relative to the bore ( 22 ) The diameter of the bores ( 14 , 22 ) are such that the section ( 25 ) of the eccentric can be pushed through with an enlarged diameter, and the bores ( 14 , 22 ) can be aligned coaxially to one another for the axial insertion of the eccentric ( 22 ) are, and that an additional rotation limiting element ( 27 ) is arranged on the eccentric. 2. Connecting element according to claim 1, characterized in that the eccentric ( 23 ) is formed from two coaxially spaced disks ( 24 , 25 ) which are connected to one another via an eccentrically arranged, cylindrical part ( 26 ). 3. Connecting element according to one of the preceding claims, characterized in that the eccentric can be pushed into the housing ( 6 ) against the force of a spring ( 30 ). 4. Connecting element according to one of the preceding claims, characterized in that the holding member ( 8 ) against the force of a spring ( 15 ) in the housing ( 6 ) can be inserted. 5. Connecting element according to one of the preceding claims, characterized in that the rotation limit is a cam ( 27 ) formed on the eccentric, which runs against a stop ( 31 ) in the housing ( 6 ). 6. Connecting element according to claim 5, characterized in that the cam ( 27 ) is arranged on the underside of the eccentric.