EP2397641B1 - Plug-connector - Google Patents

Description

The invention relates to a connector having the features in the preamble of the main claim.

The DE 20 2006 006 087 U1 shows such a connector for hollow sections of spacers for insulating glass panes, which has a bottom, a center stop and a side wall with a seen in its longitudinal profile profiled outer contour and having a plurality of arranged on the free edge region of the side wall retaining elements. The stepped sidewall follows the inner contour of the spacer hollow profile with the upstanding sidewall portions of the connector extending parallel to the adjacent sidewall portions of the spacer hollow profile. The side wall is divided by cuts in spring bridges, which serve to accommodate height tolerances of the hollow profile.

From the DE 296 13 519 U1 Other connectors for hollow sections of spacers for insulating glass panes are known, which have at least one middle wall or a bottom and a side wall. The side wall has a flat plate-like shape and possibly carries on the free edge region a retaining element.

Another connector is out of the DE 92 16 955 U1 known, in which the side wall is angled inwards at the upper free edge region.

It is an object of the present invention to provide a further improved connector.

The invention solves this problem with the features in the main claim.
The connector has a side wall, seen in its longitudinal extent has a profiled outer contour with a recessed to the interior of the connector outer side wall region and above and below the recessed wall portion subsequent, protruding side wall portions. The recessed sidewall area can have various functions. A profiled outer contour can be present especially in the insertion region of the connector and its legs. By the subsequent upper and lower side wall portions, the outer contour of the side wall in cross section have an omega shape, which is favorable for a tight contact with the adjacent profile side wall.

The recessed sidewall region may be e.g. be designed as a wall deformation and as a recess of the side wall. On the one hand, this has the advantage that a bulging wall deformation stabilizes and reinforces the connector. This is particularly advantageous for thin-walled connectors. In addition, the connector can better absorb the loads occurring in the process and in the production of insulating glass panes of the profile butt joint or the profile connection by this stabilization. This is especially true for bent and filled with a granule spacer frame, which are moved in the insulating glass pane production of robots or the like. In the room. Here the profile connection point and the connector arranged there is exposed to particularly high mechanical loads.

Another advantage is the ability to receive an inner projection of the profile side wall in the indentation or indentation of the side wall. The latter can, for example, a connection point, for example a welding or Be roll seam of the hollow profile wall. Such a projection can also serve the targeted wall reinforcement of the hollow profile.
The indentation directed towards the interior also has the advantage that the adjoining side wall regions can have a flat and aligned outside, which allows a dense and planar contact of the connector side wall in the insertion position on the profile side wall. This improves the tightness of the spacer and its function in an insulating glass pane.
In another advantageous embodiment, which is particularly suitable for plastic connectors, the recessed side wall portion is formed by a flat side wall outer surface, wherein the profiled outer contour is formed on base or strip-like projections which are molded or molded. The lower side wall portion may be interrupted to form the said plurality of pedestals, wherein the base also form feet for supporting the connector and engage in the lower corner regions of the hollow profile, which in particular for a thin-walled hollow profile, in particular a warm-edge profile, to stabilize it is advantageous. This stiffening ribs can be bridged on the profile floor. The upper projecting side wall portion may have a strip shape and at the same time form the support for retaining elements. The side walls may have one or more transverse walls projecting transversely outward from the recessed sidewall region. These can be thin-walled and form sealing lips. Such sealing lips can be pierced when required by pushing on hollow profiles with an inside projection, where they can retain their sealing function under the projection walls.

The connector can fill the entire hollow profile interior, in particular at the connection point. As a result, the or the hollow profiles can be aligned and possibly deformed profile deformations. Furthermore, an improved clamping effect and sealing effect of the connector can be achieved at the junction. Overall, the design also increases the mechanical stability of the connector. This is particularly advantageous for thinner connector materials. Due to the profiled side wall contour, a higher rigidity can be achieved, which is particularly advantageous in this connection region. Another advantage is also in the possible use of thin-walled connector maintaining a large hollow profile inner chamber or a large cavity, which is an efficient, fast and possibly subsequent filling with a desiccant beneficial. The formation of one or more retaining elements on the connector, in particular on its side walls and preferably on the upper free edge is for permanent locking of the connector in the hollow or the profiles of advantage. In addition, this can be intervened protectively, leader and possibly judging in the profile roof or the profile back or in the profile side wall, resulting in a particularly good interaction of the connector with the hollow profile. In particular, it is possible to selectively expand the width dimension of the hollow profile at the connection point.

In the subclaims further advantageous embodiments of the invention are given.

Figur 1 und 2:

eine erste Variante eines Steckverbinders in Draufsicht und geklappter Seitenansicht,

Figur 3:

einen Schnitt durch den Steckverbinder von Figur 1 gemäß Schnittlinie III-III,

Figur 4:

eine ausgeschnitte und vergrößerte Darstellung des Detailbereichs IV von Figur 2 und

Figur 5:

einen Querschnitt durch den Steckverbinder in Steckstellung im Abstandshalter einer Isolierglasscheibe,

Figur 6 und 7:

eine zweite Variante eines Steckverbinders in Draufsicht und geklappter Seitenansicht,

Figur 8:

eine perspektivische Ansicht des Steckverbinders von Figur 6 und

Figur 9:

eine Stirnansicht des Steckverbinders von Figur 6 in Steckstellung im Abstandshalter einer Isolierglasscheibe.

The invention is illustrated by way of example and schematically in the drawings. In detail show:

FIGS. 1 and 2:

a first variant of a connector in plan view and folded side view,

FIG. 3:

a section through the connector of FIG. 1 according to section line III-III,

FIG. 4:

a cut and enlarged view of the detail area IV of FIG. 2 and

FIG. 5:

a cross section through the connector in plug-in position in the spacer of an insulating glass pane,

FIGS. 6 and 7:

a second variant of a connector in plan view and folded side view,

FIG. 8:

a perspective view of the connector of FIG. 6 and

FIG. 9:

an end view of the connector of FIG. 6 in plug-in position in the spacer of an insulating glass pane.

The invention relates to a connector (1) for hollow profiles (21) of spacers for insulating glass panes (22). The invention further relates to a plug connection of hollow profile (21) and plug connector (1).

FIG. 5 shows in cross section an insulating glass pane (22) with a hollow profile (21), which is a spacer or spacer frame between the individual panes forms and in which one or more connectors (1) are added. The hollow profile (21) may be made of metal, plastic or composite materials and is glued and sealed with the individual discs edge, whereby a gas seal against the disc interior (23).

FIG. 9 shows a cross section of a hollow profile (21) and a connector (1) with a different shape. As FIG. 5 and 9 The hollow profile (21) may have sidewalls (25), a bottom portion (25 ') and a roof portion (25 ") .The sidewalls (25) may be substantially planar, but may also have an inwardly directed projection (26) ) exhibit.

The hollow profile (21) can be, for example, an extruded profile or a drawn or extruded seamless profile. It may also be a rolled profile which is bent from a blank whose edges are joined together by welding, gluing or the like to form a seam. As a result or for other reasons, the inwardly directed projection (26) can be formed on a profile side wall (25). On the outer side (14), the hollow profile (21) have a flat side wall surface for engagement with the single disc. The profile bottom (25 ') can be even. It may alternatively be profiled, for example, one or more rows of raised perforations (24) according to FIG. 5 having. He can in the variant of FIG. 9 have a series of rib or bead-like elevations (33) for profile stabilization. The profile bottom (25 ') can be closed. The roof area (25 ") can also be flat or curved.

The hollow profile (21) and possibly the connector (1) may have a filling (27), for example, consists of a moisture-absorbing granules and the perforations (24) in the profile bottom (25 ') a connection to Disc interior (23) has.

Figure 1 to 4 show a first embodiment and FIGS. 6 to 9 A second embodiment of a connector (1), which is designed here as a straight connector. It may alternatively be designed as a corner connector in an embodiment not shown.

The connector (1) has two legs (34,35), with which it is inserted into two hollow sections (21), which then collide at a connection point (5) or at least closely adjacent. In the preferred embodiment, the connection point (5) at the same time as viewed in the connector longitudinal direction represents its center. The insertion region (36) provided for insertion into the hollow profiles (1) is arranged on the legs (34, 35). In a straight connector, the legs (34,35) are aligned. In the case of a corner angle, they are aligned with one another at an angle other than 180 °, for example 90 °. FIG. 2 shows by way of example the insertion situation in one of the two hollow profiles (21). In FIG. 5 and 9 are cross sections of a hollow profile (21) and an inserted connector (1) shown.

When designed as a straight connector, the spacer frame may be e.g. consist of a single and corresponding to the disc shape curved hollow profile (21), which at the joint or junction (5) of the profile end faces an inserted straight connector or connector (1). The following explanations for the straight connector also apply accordingly to the variant of a corner bracket.

The connector (1) has in both variants in cross-section a box shape or a U-shape and consists for example of a middle wall (2) or a bottom and two on both sides adjoining side walls or side bars (3). The U-shape has a single center wall (2). In a box shape, there may be two or more center walls (2). The walls (2, 3) surround an interior (7) of the connector (1), which is preferably hollow. He can alternatively be massive. The connector (1) has a longitudinal axis (8) and has a center stop (4), which limits the insertion depth in the hollow profile openings and ensures a tight connection of the profile end faces at the connection point (5).

In particular FIG. 3 . 5 . 8 and 9 illustrate, in the various embodiments, the side wall (3) seen in its longitudinal extent in cross section a profiled outer contour with a recessed wall portion (11). This is located in the middle height range of the side wall (3). The recessed wall region (11) is adjoined by upper and lower side wall regions (12, 13), which in each case protrude outwards again. The protruding side wall portions (12, 13) have outwardly directed upright surface portions (12 ', 13') which may have a planar or domed shape that conforms to the inside shape of the adjacent profile side wall (25 '). The surface areas (12 ', 13') can rest on the profile side wall (25 ').

The outer contour of the side wall (3) may have an omega shape in cross-section, wherein the recessed wall portion (11) from the adjacent profile side wall (25 ') is distant. In this way, a free space and a gutter or trough-like receptacle (28) for a projection (26) on the profile side wall (25 ') are formed.

The profiled outer contour of the side wall (3) is located at the Einsteckbereichen (36) of the legs (34,35). It interacts with the adjacent lateral inner wall of the plugged hollow profile (21).

The laterally projecting side wall regions (12, 13) on the limbs (34, 35) can be present continuously over the limb length in the manner of a strip. Alternatively, they may be present in places over the leg length. The projecting side wall regions (12, 13) can be arranged directly above one another at the level of the side wall and together with the recessed wall region (11) form an omega-shaped cross-sectional contour of the side wall (3) at this point. Alternatively, the projecting side wall portions (12, 13) may be staggered in the leg longitudinal direction, e.g. an L-shaped cross-sectional contour is formed. The exemplary embodiments described below indicate two variants for this shaping. In addition, further modifications and variants are possible.

The recessed side wall region (11) and the protruding side wall regions (12, 13) are designed differently in the two exemplary embodiments.

In the first variant of Figure 1 to 5 is the recessed wall portion (11) formed as a recess or indentation (11 '). This is preferably directed to the interior (7) of the connector (1). The indentation (11 ') may be channel-shaped or trough-shaped or have an elongated shape and extend in the longitudinal direction (8) of the connector (1) or the legs (34,35). It extends, for example, over the entire length of the side wall (3). Alternatively, partial extensions are possible. A side wall (3) may alternatively be several consecutively in the longitudinal direction (8) have arranged indentations (11 ').

The indentation (11 ') is e.g. a wall deformation of a web-like side wall (3). In the embodiment shown, it is designed as an embossing bead with a V-shaped cross section. The edges or edges can be rounded at low tension. Alternatively, a U-shaped or other cross-sectional formation is possible. The indentation (11 ') preferably consists of a deformation, in particular a mechanical embossing of the side wall (3). The curvature of the indentation (11 ') is preferably directed to the interior (7). The opening of the indentation (11 ') faces the connector outer side (14).

As FIG. 5 illustrates, the position of the indentation (11 ') on the shape of the adjacent profile side wall (25) to be matched. The indentation (11 ') can form a groove-like receptacle (28) for an inner projection (26) of the profile side wall (25). This can be, for example, a connection point of the profile wall, eg a weld seam or a rolled seam. On the other hand, the projection (26) can be a stiffening point of the profile wall. This can be designed as a local thickening of the profile side wall (25) or optionally as a bead-like deformation and also as a bulge of the profile side wall (25).

FIG. 5 illustrates in the schematic representation both variants. It can also be seen that the inner projection (26) and the indentation (11 ') of the connector (1) can be adapted to each other. This can result in a mutual engagement and a positive connection. This can be favorable for a tolerance absorption of the connector (1) and / or the hollow profile (21). Furthermore, the inner projection (26) when assembling connector (1) and hollow profile (21) already exist. He can Alternatively be introduced later, for example by an outside of the profile side wall (25) attacking embossing tool. The projection (26) may pass through the longitudinal axis as well as the recess (11 ') or be present with interruptions. It may have an elongated channel-like shape or a point shape, wherein the indentation (11 ') may be formed accordingly.

According to FIG. 3 and 5 the indentation (11 ') can be located in the middle height range of the side wall (3), wherein wall regions (12, 13) of the side wall (3) adjoin above and below the indentation (11'). These wall regions (12, 13) can have a planar outside (14) or surface (12 ', 13'). The outer sides (14) or surfaces (12 ', 13') can lie in a common wall plane and in insertion position according to FIG. 5 plan on the profile side wall (25) rest on the inside. As FIG. 3 illustrated in the initial position of the connector (1) shown, the two-sided side walls (3) may be directed in the unloaded state obliquely outward. They are connected elastically to the intermediate wall (2) at the transition point (15). As a result, when inserting the connector (1) into the hollow profile (21), they can yield elastically and then engage with the outside (14) or surface (12 ', 13') under restoring spring force against the profile side wall (25).

The side wall (3) is according to FIGS. 1 and 2 fully formed. It may alternatively have one or more recesses or holes in the region of the indentation (11 ') or elsewhere in the inner wall region.

In the embodiments shown, a single indentation (11 ') is arranged on the side wall (3). Alternatively, several smaller indentations (11 ') in Height extension of the side wall (3) to be arranged one above the other. Also in the longitudinal direction (8), the aforementioned multiple arrangement of local indentations (11 ') is possible.

For the support in the hollow profile (21), the connector (1) on at least one retaining element (6). This may possibly be multiple. There are various possibilities for the design of the retaining element (6), it also being possible for a plurality of differently formed retaining elements (6) to be present on a plug connector (1). Preferably, a side wall (3) has one or more retaining elements (6), e.g. at the free edge region (9) of the side wall (3) are arranged.

In the embodiment shown, a retaining element (6) is designed as a toothed bar on the free web edge (9). The teeth extend in the wall plane from the edge (9) away upwards. In addition or alternatively, they can be displayed at an angle or to the side. As FIG. 2 clarified, arranged on both sides of the connection point or center line (5) toothed racks (6) may have oppositely directed oblique orientations. They thereby favor the two connector end faces (18) taking place of the or the hollow sections (21) and on the other hand secure the backing against a withdrawal and against the insertion direction.

Alternatively, for example, a retaining element (6) be designed as laterally and optionally upwardly issued spring nose, which can also be located on the side wall (3), in particular on the free edge region (9) and can also be present several times. Also on the center wall (2), one or more retaining elements (6) may be arranged, for example downwardly or externally issued spring lugs.

As FIG. 5 illustrates, the connector (1) is provided and formed in the illustrated embodiment for a recessed position, wherein in the insertion position, the middle wall or the connector base (2) to the disk interior (23). The side walls (3) protrude upwards to, for example, a flat profiled roof (25 ") and engage there with their retaining elements (6) in a clamping or clawing manner Alternatively, an inverted connector arrangement in the hollow profile (21) is possible.

In the embodiment shown, the middle wall (2) has a raised floor area (16) in the interior area or in the middle area, which is or arched to the connector interior (7). This floor area (16) can overlap and cover any perforations (24) or the like.

The connector (1) has at the longitudinal edge in each case a channel-like transition point (15) between the middle wall (2) and the side wall (3). In this area, the middle wall (2) or the bottom of the above-mentioned bottom portion (16) is lowered again, this may result in conjunction with the adjacent indentation (11 ') a mechanically stiffened strip (17) with a channel shape or curvature of the connector wall , At the bottom of the transition point (15) or strip (17) may also arise a standing area, which is adapted to the shape of the tread and possibly has a flat or slightly curved shape. Again, this is for the tight contact of the connector (1) on the profile walls beneficial.

In the embodiment shown, the connector (1) is hollow and open at the front. A filling (27) can also be in the interior (7). In insertion position of the connector (1) bridges the connection point (5) and prevents leakage of the filling (27) for Disc interior (23). For this purpose, the shown U-shape and the tub position of the connector (1) in the hollow profile (21) and the tight connection of connector and profile walls is low.

The aforementioned center stop (4) of the connector (1) may be formed in any desired manner. In the exemplary embodiment shown, the center stop (4) is arranged on the side walls (3) and consists of two wedge-shaped rigid stop lugs (10). These are in FIG. 4 shown in detail and have a steep and the connection point (5) facing front or stop side and a sloping back on. The stop lugs (10) are arranged diagonally offset from one another on both sides of the center line or connection point (5) and each have their steep stop sides to each other. On each side wall (3) a stop lug (10) at the edge region (9) is arranged.

The connector (1) can be made of any materials and be prepared by any method. In the illustrated embodiment of Figure 1 to 5 it is a metal connector, which is designed as a bending and stamping part of sheet metal, in particular made of sheet steel. Alternatively, the connector (1) may be a plastic part, in particular a molded part. It may be a cast of metal or plastic or other material in a further modification. Also suitable as a material are composite materials.

In the illustrated embodiment, the connector (1) is hollow and has said open interior (7) accessible from the end faces (18). On the front side (18) can each have a bottom tongue (19) on the middle wall (2) and side tongues (20) on the side walls (3), which is an oblique orientation or have a step shape and facilitate the insertion of the connector (1) in the hollow profile (21). The bottom tongue (19) projects in this case only a piece from the bottom (2) upwards and leaves the front side (18) open. In a modification of the embodiment shown, it may have a greater length and close the end face (18).

FIGS. 6 to 9 show a variant of the connector (1) and the hollow profile (21). The connector (1) may be narrower in this embodiment than in the first embodiment, wherein the hollow profile (21) is narrow. It is designed, for example, as a thin-walled plastic or steel profile with reduced thermal conductivity. This is called a warm edge profile. It is a curved and provided with a longitudinal seam profile, wherein the inwardly angled blank edges are connected to a side wall (25) with an adhesive or weld. They lie on each other and form said projection (26), for which the connector (1) forms a receptacle (28) on the side wall (3).

The connector shown (1) is formed for example as a plastic part, but may alternatively also consist of another suitable material. As in the first exemplary embodiment, it has a center wall (2) with two side walls (3) adjoining on both sides and an optionally hollow interior (7). He has a U-shape in cross section, but may alternatively have a closed in the roof area by another cross bar box shape. The connector (1) has as in the first embodiment in the embodiment as a straight connector two aligned legs (34,35) and a center stop (4) formed in any suitable manner, for example with the oppositely directed stop lugs (10) as in the first embodiment becomes.

The side walls (3) have in this embodiment, a profiled outer contour in the insertion region (36). The inner side facing the interior (7) can be flat. The profiled outer contour can have an omega shape in cross-section, as in the first exemplary embodiment.
The sidewalls (3) each have a recessed wall portion (11) formed as a flat sidewall portion (11 ") in the mid-height region, where the sidewall (3) may have a thin web shape formed by an outwardly projecting ledge (29) which is molded or molded onto the recessed wall portion (11) The upper side wall portion (12) or the strip (29) can be uninterrupted over the entire length or a part of Length of the legs (34,35) and the connector (1) extend.

The side wall portion (12) carries on its upper side the rigid stop lugs (10) and a plurality of retaining elements (6), which may be formed as ribs or noses as in the first embodiment. You can do the in FIGS. 8 and 9 The upper wall portion (12) or base (30) has an upright, flat surface (12 ') which is present in the base and tooth area and the can be adapted to the adjacent inner side of the profile side wall (25 ') FIG. 9 illustrates, the surface (12 ') and the retaining element (6) to the kink of the hollow profile (21) between the side wall (25) and roof area (25 ") and can fit accurately.

The lower projecting sidewall region (13) is e.g. formed as a base (30) and may be molded or molded to the recessed wall portion (11). He also has an upright and flat surface (13 ') for contact with the adjacent profile inside. The base (30) protrudes downwards beyond the bottom region (16) of the middle wall (2), which is also raised in this exemplary embodiment, and forms a support foot (17) which is in the corner region of the hollow profile (21) between the side wall (25) and Floor area (25 ') attacks. The profile bottom (25 ') may have the aforementioned elevation (33) which is surrounded on the left and right of the feet (17) of the side walls (3).

The lower side wall region (13) can, as in the first embodiment, extend over the entire length of the legs (34, 35) or of the plug connector (1) and of the side wall (3). In the illustrated embodiment of FIGS. 6 to 9 the side wall region (13) is interrupted in length several times, whereby a plurality of individual pedestals (30) are formed. These can be arranged at the end regions of the legs (34, 35). In the embodiment shown, each side wall (3) has, for example, four pedestals (30), two pedestals being arranged at a short distance from the connection point (5) and below the center stop (4). The other two bases (30) are located on the end faces (18). About the base (30), the connector (1) is supported at several, in particular at eight points on the profile bottom (25 ').

In the areas between the laterally projecting pedestals (30) extends the aforementioned planar side wall portion (11 "). Here, the side wall (3) is spaced from the adjacent profile side wall (25).

Above the base (30), the bar located above it (29) may be interrupted and have a recess (32). The bottom of the side recess (32) may be formed by the flat side wall portion (11 "). The upper and lower projecting side wall portions (12, 13) may be offset along the length of a leg (34, 35) and connector (1), respectively be arranged to each other.

The connector (1) may further comprise on the side walls (3) one or more outwardly projecting, preferably thin-walled transverse walls (31) which can fulfill the function of a sealing lip. Transverse walls (31) are e.g. are arranged in the region of the base (30) and protect the recessed sidewall regions (11, 11 ") between them against axial entry of a desiccant The sealing lips (31) extend to the surfaces (12 ', 13') or the outside (14) of the connector (1) and can tightly abut against the adjacent profile side wall (25) .The transverse walls (31) are respectively located on the end faces (18) and on both sides of the connection point (4), so that also in the region of the connection point ( 4) can be made an axial seal.

If the connector (1) made of plastic or other relatively soft material, the transverse walls (31) when pushing a hollow profile (21) of any local inner projection (26) are pierced, and then thanks to their inherent elasticity again apply the edges of the edges sealingly. The transverse walls (31) are also in the region of the recesses (32), wherein they each lie from the end face (18) to the connector center (5) behind the recess (32). They connect the base edge (30) with the overlying strip edge (29).

The illustrated second embodiment can also be modified in various ways. The side wall region (13) can be designed as a skirting board throughout. The number and arrangement of the transverse walls (31) can vary. On the recesses (32) may possibly be waived. The connector (1) may be solid or may have one or more transverse walls in the interior (7) to block a desiccant passage. In the embodiment shown, the receptacle (28) extends through the entire connector length and is interrupted only in the region of the thin transverse walls (11). If the connector (1) for other hollow profile shapes without projection (26) is used, the thin-walled sealing lips (31) can be maintained. Alternatively, they may have a greater thickness and in particular may have a longitudinal extent similar to the base (30). As a result, a plurality of axially limited trough-like receptacles can be formed one behind the other in the side wall longitudinal direction, similar to the first exemplary embodiment.

Variations of the embodiments shown and described are possible in various ways. In the embodiments shown, the side wall (3) in the longitudinal direction (8) has a straight extension and with the exception of the indentation (s) (11 ') flat outer side (14). In a modification to this, the side wall (3) may have a curved or arched shape in the longitudinal direction, wherein a curvature can also be multiple and alternating and formed as a waveform. The extension of the preferably elongated and channel-shaped indentation (11 ') is parallel to the longitudinal axis (8) in the embodiment shown. Alternatively, a straight indentation (11 ') may have an oblique orientation and, for example, rise from the end face (18) to the center line (5) or to the other end side. This shape can also be reversed. The longitudinal extension of the indentation (11 ') also does not have to be straight. It can have a single or multiple curvatures and have a waveform. In addition, graduated courses are possible. A number of punctiform or crater-like indentations (11 ') in straight or any other series extension are possible.

In a modification of the embodiments shown in a connector (1) on a leg (34,35) in the insertion region (36) seen over the length only in places upper and lower projecting side wall portions (12,13) may be present, there being in cross section a Omega-shaped sidewall contour results. In the intermediate regions, the side wall (3) may be flat on the outside and be set back to form the region (11). In a modification of the second embodiment of FIGS. 6 to 9 the upper side wall area (12) or the bar (29) may be interrupted in places. Further, it is possible to provide more than two lower socket-like side wall portions (13) on the respective legs (34, 35). The side wall portions (13) also need not have the socket shape shown. In particular, they can be made thinner and can have, for example, the form of narrow, upright webs. A plurality of spaced apart webs can also stabilize the lower hollow profile area and can also develop a sealing effect, for example in the manner of a labyrinth seal.

In the embodiments shown longitudinal connectors are shown. The features of the various embodiments shown can also be transferred to corner angles with, for example, at right angles to each other aligned legs. For example, in the case of a corner angle, the central region may remain free in the case of hollow profiles (1) pushed over the corner, suitable measures being taken to close off the Hollow profile opening are provided, for example, in the corner or central area broadly outwardly projecting side wall area, which at the same time optionally forms a stop for one or both hollow sections. A corner angle can also have a different leg angle, for example, an obtuse angle between 90 ° and 180 °.

Furthermore, it is possible to arbitrarily combine and exchange the features of the above-described embodiments with each other.

LIST OF REFERENCE NUMBERS

1

Connectors

2

Middle wall, floor

3

Sidewall, side bridge

4

center stop

5

Junction, centerline

6

Retaining element, tooth

7

inner space

8th

Longitudinal axis, longitudinal direction

9

Edge, foot rim, edge area

10

stop lug

11

recessed sidewall area

11 '

Indentation, indentation, embossment

11 "

Side wall area just

12

Sidewall area above

12 '

surface

13

Sidewall area below

13 '

surface

14

outside

15

Checkpoint

16

Floor area increased

17

Groin, foot area

18

front

19

Tongue, bottom tongue

20

Tongue, side tongue

21

Hollow profile, spacer profile

22

insulating glass pane

23

Disk space Inne

24

perforation

25

Profile sidewall

26

Projection, joint, weld

27

Filling, granules

28

admission

29

Strip, header

30

base

31

Transverse wall, sealing lip

32

recess

33

Elevation, rib, imprinting

34

leg

35

leg

36

insertion

Claims (15)

1. Plug-in connector for hollow profiles (21) of spacers for insulating-glass units (22), wherein the plug-in connector (1) has at least one centre wall or a base (2), a centre stop (4) and a side wall (3) with a profiled outer contour, as seen over the longitudinal extent of the side wall, and with a plurality of retaining elements (6), which are arranged on the free peripheral region (9) of the side wall (3),
   characterized in that the profiled outer contour of the side wall (3) has an outer wall region (11), which is set back towards the interior (7) of the plug-in connector (1), and projecting side-wall regions (12, 13) adjoining above and beneath the set-back wall region (11).
2. Plug-in connector according to Claim 1, characterized in that the projecting side-wall regions (12, 13) have outwardly directed, upright surface regions (12', 13') of planar or profiled form.
3. Plug-in connector according to Claim 1 or 2, characterized in that a projecting side-wall region (12, 13) is arranged continuously or in interrupted form, or at certain locations, over the length of the plug-in connector (1) or of one of the limbs (34, 35) thereof.
4. Plug-in connector according to Claim 1, 2 or 3, characterized in that a surface region (12', 13') of a side-wall region (12, 13) is adapted to shaping on the inner side of an adjacent profile side wall (25') of a hollow profile (21).
5. Plug-in connector according to one of the preceding claims, characterized in that the surface regions (12', 13') of upper and lower side-wall regions (12, 13) are located in a common wall plane.
6. Plug-in connector according to one of the preceding claims, characterized in that the set-back outer wall region (11) forms a channel-like or trough-like holder (28), which is provided for a protrusion (26) on the inner side of a profile side wall (25) of a hollow profile (21).
7. Plug-in connector according to one of the preceding claims, characterized in that the set-back outer wall region (11) is designed in the form of a concavity (11') which is directed towards the interior (7) of the plug-in connector (1), in particular in the form of a deformation of the side wall (3), or in that the set-back outer wall region (11) is designed in the form of a planar wall region (11") between outwardly projecting upper and lower, possibly integrally formed side-wall regions (12, 13).
8. Plug-in connector according to one of the preceding claims, characterized in that an outwardly projecting upper side-wall region (12) is designed in the form of a fin (29).
9. Plug-in connector according to one of the preceding claims, characterized in that the outwardly projecting lower side-wall region (13) is designed in the form of a stand (30).
10. Plug-in connector according to one of the preceding claims, characterized in that the lower side-wall region (13) projects downwards beyond the centre wall (2) and forms a foot region (17) for supporting the plug-in connector (1) in a hollow profile (21).
11. Plug-in connector according to one of the preceding claims, characterized in that, on the set-back outer wall region (11), the plug-in connector (1) has a laterally protruding transverse wall (31) adjoining the projecting upper and lower wall regions (12, 13).
12. Plug-in connector according to Claim 11, characterized in that the transverse wall (31) extends as far as the surfaces (12', 13') and closes off the holder (28) axially with sealing action, wherein the transverse wall (31) has a thin and pierceable wall thickness.
13. Plug-in connector according to one of the preceding claims, characterized in that the plug-in connector (1) has a box-shaped or U-shaped cross section with opposite side walls (3), wherein a side wall (3) is of resilient design and in the starting position, is directed obliquely outwards.
14. Plug-in connector according to one of the preceding claims, characterized in that the plug-in connector (1) has a toothed strip on the free peripheral region (9) of the side wall (3), in particular on a fin-like, projecting upper wall region (12).
15. Plug-in connection made up of a hollow profile (21) of a spacer for insulating-glass units (22) and of a plug-in connector (1), which is adapted to said hollow profile and has at least one centre wall (2) and a side wall (3), characterized in that the plug-in connector (1) is designed according to at least one of Claims 1 to 14, wherein a side wall (3) of the plug-in connector (1) has a profiled outer contour with an outer wall region (11), which is set back towards the interior (7) of the plug-in connector (1), wherein a holder (28) is formed to accommodate an inner protrusion (26) of an adjacent profile side wall (25), this constituting in particular a reinforcing or connecting location.

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