DE202014105503U1 - angle connector - Google Patents

Abstract

Angled connector (1), which in its assembly position is designed to connect two components, in particular wooden house components, comprising an angular element (2) with an L-shaped cross section, the L-shape of which is formed by a first and a second angular element section (21, 22) each having a first and a second flat side, each of which extends flat perpendicular to the cross section, the first flat sides of the two angle element sections (21, 22) lying opposite one another and facing the inside of the L-shape, the first angle element section (21) is designed for fastening to a first component, characterized in that the angle connector (1) has a bracket element (3) and an elastomer element (4), the elastomer element (4) in the assembly position at least in sections on both flat sides of the second angle element section (22) is arranged, the bracket element (3) in the assembly position on the first The flat side of the second angle element section (22) is arranged, wherein the elastomer element (4) is arranged in sections in the assembly position between the bracket element (3) and the second angle element section (22) to prevent direct contact between the bracket element (3) and the second angle element section (22), the bracket element (3) being designed for fastening to a second component.

Description

The invention relates to an angle connector which is formed in its mounting position for connecting two components, in particular wooden house components, according to the preamble of claim 1.

Conventional angle connectors are commonly used to connect components that are to be angled relative to one another. Angular connectors are generally used to provide 90 ° connection of components, but angle connectors are also known, for example, which provide for the fixation of components at 60 ° or, for example, 120 °. Conventional angle connectors consist of a cross-sectionally L-shaped angle element. The angle element thus has an L-shape in cross-section, wherein the L-shape is formed by a first and a second angle element section, which each extend perpendicular to the cross-section. The first angle element section is designed to be fastened to a first component, the second angle element section to be fastened to a second component. The L-shape of the cross section, which is formed by the two angle sections, denotes the basic shape of the cross section. The legs of the L realized by the angle element sections may, for example, be at an angle of 90 ° to each other, for example in the above-mentioned other embodiments of conventional angle connectors also at an angle of 60 ° or 120 °. The angle element sections are often flat over their areal extent, but angle connectors are also known in which the angle element sections are profiled in order to ensure greater stability of the angle connector. Usually, both angle sections have holes and / or notches through which fastening means, such as nails or screws, can be guided for fastening the angle element sections to components.

When using angle connectors, the problem often arises that the two components, which are to be connected to one another via an angle connector and fixed to each other, to be sound-insulated against each other. This problem with the use of angle connectors arises, for example, to a very high degree in solid wood buildings, especially multi-storey solid wood buildings in which wooden walls are interconnected with each other and / or wooden floors and / or wooden ceilings via angle connector. Due to the fact that lighter wooden structures can be stimulated by structure-borne sound waves compared to other building materials, especially in the construction of solid wood buildings a sound decoupling of walls, walls and floors as well as walls and ceilings is particularly important to avoid a sound transmission between different floors and / or different rooms to be able to.

Conventionally, in the construction of solid wood buildings, the problem of the necessary structure-borne noise decoupling between walls, ceilings and floors is taken into account by supporting and non-load-bearing walls are placed on elastic, sound-absorbing strips that are suitable for a structure-borne sound decoupling between walls, walls and ceiling and walls and Provide ground. To secure the solid wood house then the use of angle connectors is necessary with which the various components, such as walls, ceiling and floor are fixed to each other stable.

In the use of conventional angle connectors, however, a sound coupling of the two connected via an angle connector components is made on the angle connector itself, which consist of a cross-sectionally L-shaped angle element. The acoustic coupling of the components leads to undesired sound transmission between rooms and floors in solid wood buildings. In the prior art, it is known to counteract this acoustic coupling of components by angled connectors in that between the angular element portions of an angle connector and the components to be connected elastic, sound-absorbing pads are provided which inhibit direct sound transmission from a component to an angle element portion of the angle connector. However, this does not prevent the transmission of sound from a component to an angular element section, which takes place via the fastening means with which the angle element section is fastened to the component or pressed against the component. Therefore, with conventional angle connectors no connection of two components is possible, on the one hand, a stable fixation of the two components to each other and on the other hand, a sufficient sound decoupling of the two components to each other.

The invention has for its object to provide an angle connector, which at least partially solves the above problems and allows a stable and at the same time as possible sound-decoupled connection of two components.

As a solution of said technical problem, the invention proposes an angle connector according to claim 1.

This angle connector according to the invention comprises a cross-sectionally L-shaped angle element whose L-shape by a first and a second angle element portion is formed, each having a first and a second planar side, each extending perpendicular to the cross-section surface. The first flat sides of the two angle element sections are opposite to each other and facing the interior of the L-shape. The first flat sides of the two angle element sections are thus opposite to one another in a direction of rotation, wherein the second planar sides of the two angle element sections lie opposite one another in the same direction of rotation, wherein in this direction of rotation the angle which the first planar sides of the two angle element sections enclose is substantially smaller is the angle that the second flat sides of the two angle element sections enclose in this sense of rotation. The sum of the mentioned angles is always about 360 °. The angle subtended by the first planar sides of the two angular element sections is usually in an angular range between 30 ° and 150 °, most often between 60 ° and 120 °, most often about 90 °. The first planar sides of the two angle element sections thus point towards the interior of the L-shape, while the second planar sides of the two angle element sections face toward the exterior of the L-shape.

The first angle element section of the angle connector according to the invention is designed to be fastened to a first component. As explained in the case of the angle connectors from the prior art, for example, holes or notches or recesses in the first angle element section can be provided for carrying out fastening means with which the first angle element section is pressed directly or via intermediate elements, such as an insulating layer, against the first component can be.

The angle connector according to the invention has a bracket element and an elastomeric element. The elastomer element is at least partially arranged in the mounting position on both flat sides of the second angle element section. The stirrup element is arranged in the mounting position on the first flat side of the second angle element section, wherein the elastomer element is arranged in the mounting position in sections between the stirrup element and the second angle element section to avoid direct contact between the stirrup element and the second angle element section. The bracket element is thus not directly adjacent to the second angle element section.

The stirrup element is designed to fasten the stirrup element to a second component. For example, for this purpose, as explained above with respect to the first angle element section, the stirrup element can have feedthroughs, such as holes, recesses or notches, for passing through fastening means for fastening the stirrup element to the second component. By attaching the stirrup element to the second component, a fastening, in particular a pressing of the second angle element section to the second component is always ensured. The feedthroughs in the stirrup element can, for example, be provided outside the second angle element section in the stirrup element in a longitudinal direction that is perpendicular to the cross section. For example, the feedthroughs may be aligned with feedthrough holes in the second angle member portion such that fasteners may be passed through the feedthroughs and the feedthrough holes for securing the bracket member and the second angle member portion to the second component.

The mounting position of the angle connector according to the invention is the position of the angle connector, in which the various elements of the angle connector are arranged to each other so that the angle connector can be applied to two components and attached to the components. The mounting position thus describes the position of the angle connector, in which the various elements of the angle connector are arranged to each other so that the angle connector is ready for use. In the mounting position, the angle connector is in its rest position and in such a position that it can be connected to components. In the mounted position, the angle connector is firmly attached to two components. The mounted position thus corresponds to the mounting position possibly deflected out of the rest position by the fastening process.

Characterized in that the elastomeric element is arranged in the mounting position at least partially on both flat sides of the second angle element section, the elastomeric element having sound-absorbing properties, both the direct, sound-transmitting contact between the second component and the second angle element section as well as the direct, sound-transmitting contact between bracket element and second angle element section. Characterized in that the attachment of the angle connector takes place on the first component via the first angle element section and on the second component via the yoke element, the yoke element and the first component and beyond the angle element and the second component are each sound-decoupled against each other via the elastomer element. Therefore, a very well sound-decoupled connection of two components is possible with each other via the angle connector according to the invention.

In addition, the inventive angle connector can ensure a stable fixation of the two components against each other via the attachment of the first angle element section to the first component and the attachment of the second angle element section by means of the bracket element on the second component. The attachment of the second angle element section to the second component takes place indirectly, namely on the attachment of the bracket member to the second component, whereby the second angle element section, which is at least partially surrounded by the elastomer element, is pressed into the second component. In order to be able to realize the best possible fixation of the second angle element section relative to the second component, corresponding surface structures, for example corresponding roughnesses and / or adhesive elements, can be provided on the stirrup element and / or the elastomer element and / or the second angle element section, in particular at the contact points between Yoke element and elastomer element and / or elastomer element and second angle element section.

Preferably, the bracket element comprises the second angle element section on at least two sides, which limit its areal extent perpendicular to the cross section, laterally. For example, the stirrup element can comprise the second angle element section on its two sides, which guides it in a direction perpendicular to the cross section. For example, the stirrup element may comprise the second angle element section on its side, which is opposite to the side with which it bears against the first angle element section. By the lateral encompassing of the second angle element section by the bracket element perpendicular to the cross section, the displaceability of the second angle element section is inhibited relative to the bracket element in a plane perpendicular to the cross section accordingly. In addition, the stirrup element can also limit a lateral extent of the elastomer element by virtue of the lateral enclosure, since it also comprises the elastomer element at least in sections laterally. Thereby, the elastomeric element is forced to avoid at a compression during the attachment of the bracket member to a second component in such volumes, in which it can escape in view of the lateral enclosure by the bracket element. As a result, a particularly good fixation of the second angle element section in the stirrup element can be effected by the elastomer element being forced to fill the corresponding volumes within the lateral enclosure by the stirrup element during a compression, so that the second angle element section is firmly guided in the lateral enclosure. For example, a clearance between the corresponding sides of the second angle element section, in which the stirrup element laterally comprises the second angle element section, and the stirrup element can be provided so that a predetermined volume is provided between the second angle element section and stirrup element into which the elastomer element is compressed during compression Fixing of the bracket member can escape to a second component. Thereby, a contact between the second angle element section and the bracket element can be particularly effectively avoided.

In an advantageous embodiment, the stirrup element has a profile positive and the second angle element section has a corresponding profile negative, wherein in the mounting position the profile positive and the profile negative engage, profile positive and profile negative are formed so that in the mounting position blocking the displacement of the bracket element and angle element is ensured to each other in a plane perpendicular to the cross section. In the mounting position profile positive and profile negative are in a state in which they are intertwined thus hooked together.

For example, the profile positive may be formed on the stirrup element as a second angle element section directed towards the protrusion structure, while the profile negative may be formed on the second angle element, for example, as a recess structure and for receiving the protrusion structure of the stirrup element. Of course, conversely, a projection structure may also be arranged on the second angle element section which corresponds to a recess structure arranged on the bracket element. The person skilled in the art can readily arrive at different profile positives and profile negatives through expert action.

In this case profile positive and profile negative are always designed to correspond to each other, that over them a blocking of the displacement of the bracket element and angle element is guaranteed to each other in a plane perpendicular to the cross section. Of course, profile positive and profile negative can also be designed so that a displacement of the bracket element and angle element is blocked to each other in the cross-sectional plane. The blocking can be ensured on the one hand so that profile positive and negative profile are so flush with each other, that any displacement of bracket element and angle element is mutually prevented in mutually latched profile positive and profile negative. The blocking can also be ensured in some embodiments, characterized in that limits the displacement between the angle element and bracket element by the intermeshing of profile positive and profile negative is. By providing profile positive and profile negative, a particularly stable fixation of two components to each other is possible by the angle connector according to the invention. Because the blocking of the displaceability of angle element and bracket element of the angle connector at the same time bring a blocking of the displaceability of the two components with it, of which the first is connected to the bracket element and the second with the angle element. Thus, the angle connector according to the invention can simultaneously ensure a very good sound decoupling and a very stable fixation of two components to each other. The provision of a game between profile positive and profile negative in the engaged state, ie in the mounting position, and thus a corresponding limitation of the displacement between the angle element and bracket element can bring the advantage that the elastomer element can be pressed during assembly of the angle connector in the game, thereby an even better sound decoupling and fixation of bracket member and angle element can be guaranteed each other.

The profile positive may have at least one projection on the bracket element and the profile negative at least one receiving opening, wherein the at least one projection is arranged in the mounting position in the at least one receiving opening and extends in particular through the receiving opening. Accordingly, the profile negative can also have a projection and the profile positive a receiving opening. Profile positive and profile negative can also consist of at least one projection and corresponding at least one receiving opening, and vice versa. The configuration of the profile positive on the bracket element comprising a projection and the profile negative on the angle element as a receiving opening is particularly advantageous since a non-polluting, smooth surface can be realized on the bracket element and the engagement of projection and receiving opening within the elastomer element and of this protected can be done. In addition, the stirrup element can then be pressed with a closed surface against the elastomer element and the second angle element section, so that the elastomer element is reliably compressed against the second angle element section. The formation of the profile positive as a projection comprising and the profile negative as a receiving opening comprehensive bring the advantage that they can be made particularly simple and robust. The projection may be formed, for example, as a cylinder, in particular as a hollow cylinder. The hollow cylinder may be open or closed at its end facing away from the bracket element end. The closed design brings a higher stability of the projection with respect to a bending in the plane perpendicular to the cross section with it. In the formation of the projection as a hollow cylinder, the projection is formed in the manner of a sleeve. The cylinder may, for example, be a cylinder with a round, oval or polygenic cross section. The projection may for example be welded to the bracket element.

Characterized in that the second angle element portion within the elastomeric element and during the assembly of the angle connector on a first component is not applied directly to the first component, the projection can easily extend through the receiving opening in the second angle element portion therethrough. As a result, a production of the angle connector with certain manufacturing tolerances is possible and a particularly easy Miteinanderverhaken or meshing of projection and receiving opening by pushing the bracket member on the second angle element section possible. For example, the receiving opening may have a diameter that is greater than the diameter of the projection, for example, about 10%, for example, about 20%. As a result, a very simple connection of bracket member and angle element under engagement of projection and receiving opening is possible, at the same time the displacement of ironing element is limited to the angle element to a very small distance. In addition, the elastomeric material of the elastomeric element may possibly get in a compression during attachment of the mounting member to a second component in the volumes between the projection and receiving opening, which may cause additional sound decoupling and / or displacement of said elements to each other. In one embodiment, a plurality of projections and a plurality of corresponding to the respective projections receiving openings may be provided.

In one embodiment, the elastomer element has at least one recess structure, which in the mounting position corresponds to the profile negative of the second angle element section, wherein the profile positive of the bracket element or the profile negative of the second angle element section is arranged in the mounting position in the recess structure. For example, the profile positive can be arranged in the assembly position in the profile negative and in the recess structure. For example, the recess structure can be aligned with the profile negative, in particular a receiving opening provided as a profile negative, wherein the recess structure need not necessarily be congruent with the profile negative. Due to the fact that the elastomer element has a recess structure corresponding to the profile negative, it is possible that the profile positive at the same time in the recess structure and the Profile-negative engages or that the profile negative engages in the profile positive and in the recess structure simultaneously. As a result, the blocking of the displaceability of angle element and bracket element to each other can be further optimized. In particular, the joining of the profile positive and the profile negative in the joining of the bracket element and the angle element can thereby be particularly easily possible.

Preferably, the elastomer element has at least one recess as a recess structure, which in the mounting position is aligned with the at least one receiving opening of the second angle element section, wherein the projection is arranged in the mounting position in the receiving opening and in the recess. As a result, a particularly simple and robust realization of the angle connector is possible in which a displacement of angle element to bracket element is blocked particularly effective.

For example, a clearance may generally be provided between the profile negative and the profile positive. As a result, by the meshing of profile negative and profile positive thus no absolute blocking of the displacement of angle element to bracket element, but a block in the sense of limiting the displacement ensured. In particular, a second clearance between profile positive or profile negative and the recess structure may be provided in the elastomeric element. In particular, the second game may be smaller than the game between the profile negative and the profile positive. This can bring with it the advantage that the profile positive or profile negative can easily be introduced into each other via the comparatively large clearance, whereas a blocking which is wider than the clearance between profile negative and profile positive, ie. H. greater inhibition of the displacement between the bracket element and angle element on the lower second game is realized, yet due to the yielding property of the elastomer nevertheless a simple pushing together or Miteinanderverfügen of angle element and bracket element is possible. In particular, such an embodiment may be advantageous if the profile positive as a projection on the bracket element and profile as a receiving opening in the second angle element section are provided, wherein the receiving opening has a significantly larger diameter than the projection and the recess structure or recess in the elastomeric element only one having slightly larger diameter or the same diameter as the projection.

In one embodiment, the elastomeric element comprises two separate elastomeric discs, which are arranged in the mounting position on the two flat sides of the second angle element section. In each case, a very good sound decoupling between the bracket element and the second angle element section and the second component can be ensured via the two separate elastomer disks. In addition, the two elastomeric discs can be made particularly simple and inexpensive. In one embodiment, the two elastomeric disks are formed identically, which further simplifies the construction of the angle connector according to the invention and further reduces the production.

The two elastomeric disks may, for example, each have a partial recess structure, in particular a partial recess, wherein the two partial recess structures are aligned with one another and together form the recess structure. The partial recess structure of the first elastomer disc is thus arranged on the first planar side of the second angular element section, and the partial recess structure of the second elastomer disc on the second planar side of the second angular element section. In this way, a recess structure, in particular a recess comprising two partial recesses, can be realized particularly easily, in particular, for example, a projection which is arranged on the bracket element can extend into both partial recesses and through the receiving opening. As a result, a particularly good blocking of the displaceability between the bracket element and angle element and a particularly simple assembly of the angle connector according to the invention can be ensured. In an embodiment of the angle connector according to the invention, corresponding partial recess structures can also be provided on two different sections of the elastomer element, in particular of a one-piece elastomer element, wherein in the mounting position a first section is arranged on the first and a second section on the second planar side of the second angular element section.

In one embodiment, the elastomeric element is integrally formed. In this case, the elastomer element is arranged in any case in the mounting position on the two flat sides of the second angle element section. The elastomer element can be produced, for example, as a one-piece molded part, for example via injection molding. In one embodiment, an inventive angle connector can be provided in its mounting position by a one-piece elastomeric element is pushed onto the second angle element section and then the stirrup element is placed on the arrangement of angle element and elastomer element. For example, in one embodiment, the elastomeric element be realized that the angle element and the bracket element aligned with each other are placed in an injection mold and then elastomeric material is poured to realize the elastomeric element between the angle element and bracket member and the second planar side of the second angle element section. As a result, for example, directly an angle connector can be made in its mounting position. For example, a corresponding angle connector, in which the elastomer element is produced by the described direct casting between angle element and bracket element, bring about the advantage that the individual components of the angle connector are fixed to each other well, which is particularly the use of the angle connector in connecting two components can simplify.

In one embodiment, the bracket element as a profile positive on at least two, in particular three projections, which are each formed as a continuous cylinder. Through hollow cylinder means that the hollow cylinder is not completed at its ends along the longitudinal axis, so that a straight Starb can be guided through the continuous hollow cylinder along its longitudinal axis and thereby protrude at both ends of the hollow cylinder. The second angle element section has at least two receiving openings and the elastomer element at least two recesses, wherein in the mounting position, each of the projections, and thus each of the continuous hollow cylinder, is arranged in a respective associated receiving opening and an associated recess and extending through the receiving opening therethrough , The described embodiment has the advantage that a particularly good relative fixing of angle element, stirrup element and elastomer element can be ensured by means of the multiplicity of hollow cylinders which extend through the second angle element section and into the elastomer element. In addition, fastening means can be carried out by the continuous hollow cylinder, so that the stirrup element, and thus also the second angle element section, can be fastened thereto on a second component. The provision of three such projections in the form of continuous hollow cylinders on the bracket element has proven to be particularly advantageous because at the same time a particularly good fixation of angle element, bracket element and elastomer element to each other and a fixation of the angle connector can be ensured on a second component and beyond the structure of the angle connector can be kept simple because of the small number of projections, whereby the manufacturing cost and assembly costs can be kept low. Preferably, the projections are formed as sleeves, which are fixedly connected to the bracket element. The connection can be realized, for example, by pressing the sleeves with the bracket element or by welding the sleeves to the bracket element or by gluing sleeves and bracket element. The firm connection between sleeves and bracket element fulfills the purpose that the assembly of the angle connector is simplified because the sleeves are not loose. Moreover, the fixed connection serves the purpose of improving the stability of the angle connector. In particular, the sound attenuation of the angle connector can be particularly improved because slipping of the individual components, namely angle element, bracket element and elastomer element by the firm connection of sleeves and bracket element and the arrangement of the sleeves within the receiving openings and the recesses which are assigned to each , can be effectively restricted.

In one embodiment, each continuous hollow cylinder extends away from the second angled member portion in a transverse direction through the receiving aperture and into the recess, with the end of each continuous hollow cylinder transversely away from the second angular member portion being spaced from the end of the elastomeric member which faces away from the second angular element section in this transverse direction, said end of the hollow cylinder lying within the recess. In this embodiment, the continuous hollow cylinder thus does not extend completely through the elastomer element but ends with its extension in the transverse direction within the recess. The transverse direction preferably corresponds to the direction of the cylinder axis of the respective continuous hollow cylinder, wherein preferably the cylinder axes of all continuous hollow cylinder parallel and thus extend in the same direction. The embodiment described has the advantage that when fixing the second angle element section to a second component via a fixing of the bracket element to the second component, the elastomer element can be compressed until the hollow cylinder rests against the second component. The hollow cylinder thus acts simultaneously as a Wegbegrenzung and thus as a limitation of the compression of the elastomeric element, whereby damage to the elastomeric element can be avoided as well as excessive compression of the elastomeric element, in which the elastomer element may not realize sufficient sound attenuation more.

Preferably, each receiving opening of the second angle element section, which is assigned in the mounting position of a certain projection of the bracket element, so that the projection extends through them, a larger Cross-section on as the respective this particular projection associated recess in which the projection is arranged in the mounting position. The cross section of the receiving opening and the recess extends perpendicular to the cylinder axis of the associated projection, which may be formed as a continuous hollow cylinder. In particular, the cross section of the specific projection within the associated receiving opening may be smaller by at least 5%, in particular by at least 10%, than the cross section of the associated receiving opening. In particular, the cross-section of the specific projection within the associated recess may be smaller than the cross-section of the recess in the rest position by less than 5%, in particular by less than 2%, ie without compression effect on the elastomer element. By at least one of the described advantageous embodiments, a clearance between the projection or continuous hollow cylinder and the receiving opening can be ensured, so that a sound decoupling between angle element and yoke element is ensured via the elastomer element. By setting the play of the projection in the receiving opening greater than the play in the recess in the elastomeric element, it can be ensured that no sound-transmitting contact between the bracket element and the second angle element section is still produced even when the ironing element is displaced relative to the elastomer element.

Preferably, the stirrup element comprises a plate. This allows the bracket element to be made particularly simple and inexpensive. The bracket member may be formed, for example, as a plate on which the projections are arranged as described. In particular, the bracket element may be formed as a plate having a smaller area than the second angle element section. This can ensure that the stirrup element does not protrude beyond the second angle element section and thus can not cause any damage to components and can not pose a risk of injury to persons.

The free cross section of the hollow cylinder preferably continues along a length of the longitudinal axis of the respective hollow cylinder through the elastomer element and the second angle element section continuously as a free cross section. The continuous free cross section thus ensures that a rod can be guided completely through the stirrup element, the second angle element section and the elastomer element along the longitudinal axis of the respective hollow cylinder. As a result, an attachment of the bracket element and thus the angle connector is made possible on a second component by passing fasteners through the free cross sections. For example, screws can be used as fastening means, which can then be screwed through the bracket element, the second angle element section and the elastomer element into a second component for fastening the angle connector to the second component.

In one embodiment, the bracket member has a holding portion and two mounting portions, wherein the holding portion extends in the mounting position at least partially flat along the first flat side of the second angle element portion and rests on the elastomeric element, wherein the holding portion in a longitudinal direction perpendicular to the cross section between the two Mounting sections is arranged. In particular, the second angle element section can also be arranged in the mounting position in the longitudinal direction perpendicular to the cross section between the two mounting sections. Here, a distinction between holding portion and mounting portion is to be seen in that the holding portion is adapted to exert a contact pressure on the second angle element portion toward a second component, while the mounting portions are adapted to allow attachment of the bracket member to the second component and for this purpose, for example, have corresponding passages for performing fasteners. Characterized in that the holding portion is arranged in the longitudinal direction between the mounting portions, the holding portion can be fixed from its two sides to a second component, so that the holding portion can be pressed uniformly against the second component. This is for a secure fixation of the holding portion and thus the bracket member and thus of the second angle element portion relative to a second component particularly advantageous.

Preferably, the mounting portions are spaced in a transverse direction perpendicular to the longitudinal direction of the holding portion and arranged in the mounting position in the longitudinal direction adjacent to the second angle element portion. The mounting portions are thus connected in the transverse direction in each case via a connecting portion with the holding portion of the bracket element. It is particularly advantageous that also extend the connecting portions in the longitudinal direction adjacent to the second angle element portion, so that the second angle element section is guided in the bracket member through the connecting portions. This particularly effectively prevents the displacement of angle element to bracket member in the longitudinal direction. The stirrup element thus comprises the second angle element section in this embodiment at least in sections on its two sides, which delimit its areal extent in the longitudinal direction. In In any case, since the mounting portions are spaced in a transverse direction perpendicular to the longitudinal direction of the holding portion and are arranged in the mounting position in the longitudinal direction adjacent to the second angle element section, a fixation of the second angular element portion and / or the elastomeric member against a movement in the longitudinal direction in particular favorably supported. It may be particularly advantageous that the mounting portions and / or the connecting portions of the bracket member are spaced apart in the longitudinal direction by a distance which is greater than the extension of the elastomer element and / or the second angle element section in the longitudinal direction. This results in a certain assembly play between the elastomer element and / or second angle element section and the bracket element. This can be advantageous, in particular, when the bracket element is pressed against a second component during fixing via the mounting sections in such a way that a compression of the elastomer element occurs so that the thickness of the elastomer element is reduced compared to the rest position of the angle connector, wherein the elastomer element is Essentially maintains volume and can fill the volume of the mounting game. As a result, the displaceability of the second angle element section to the bracket element can be further reduced. Over the mounting clearance can thus be a compression of the elastomer element in a acted upon with considerable force fixing the bracket element and thus also the angle element on a second component allows.

Preferably, the side of the mounting portions facing away from the holding portion in the transverse direction is spaced from the side of the retainer portion facing transversely to the mounting portions in the transverse direction by a distance less than the combined thickness of the elastomeric member and the second angular member portion in the transverse direction the mounting position. In particular, in one embodiment, the distance may be smaller by at least 1 mm, in particular in a further embodiment by at least 2 mm. In particular, the difference between the distance and said common thickness may be adjusted in dependence on the thickness of the elastomeric element in the transverse direction. In the above embodiment, it is not possible to bring the mounting portions in the rest position of the angle connector in positioning the angle connector on a second component in contact with the second component, when the second component is flat and the elastomeric element, on the second flat side of the second angle element section is arranged, rests against the second component. Only when a fastening of the bracket element on the mounting portions on the second component, d. H. upon pressing the stirrup element against the second component and thus with a compression of the elastomer element between the stirrup element and the second component, the mounting sections can be pressed against the second component. In the resting position, on the other hand, in the assembly position, the elastomer element in the transverse direction continues to protrude from the holding section than the mounting sections. In the aforementioned advantageous embodiment, in which a compression of the elastomeric element has to be forced, so that the mounting portions can come into direct contact with a second planar component, a bias of the elastomeric element in the difference between said distance and the said common thickness the fixedly mounted position of the angle connector to a second component, and thus in the deflected from the rest position in the assembled position mounting position of the angle connector, adjustable, whereby at the same time a force can be predetermined, with which the angle connector is to be attached to the second component, under the Specification that the angle connector is considered to be attached to the second component when the mounting portions directly abut the second component.

In one embodiment, the angle member, the elastomeric member and the bracket member are fixedly connected to each other, so that the angle connector can be mounted as a one-piece angle connector to two components for fastening the two components to each other. This has the advantage that the assembly of the angle connector is particularly simplified, since on the construction site, the individual elements, namely, for example, angle element, elastomer element and bracket element need not be kept separate from each other. In addition, a factory connection of angle element, elastomer element and bracket element can be performed much more precise, for example, using a template or a preprogrammed manufacturing plant, as on a construction site. This can be ensured particularly reliable that the angle element and the bracket member are sound-decoupled by the elastomeric element, so that no sound transmission between two components is produced by the angle connector, which are fastened together by the angle connector. The connection of angle element, elastomer element and bracket element can be done for example by gluing or the provision of retaining clips.

The invention further relates to the use of an angle element for the realization of an angle connector according to the invention, wherein the angle element is formed in cross-section L-shaped, wherein the L-shape is formed by a first and a second angle element portion, each having a first and a second planar side , each perpendicular to the cross-section surface extend, wherein the first planar sides of the two angle element sections opposite and facing the inside of the L-shape, wherein the first angle element portion is formed for attachment to a first component.

The invention further relates to the use of a stirrup element for realizing an angle connector according to the invention, wherein the stirrup element has two mounting sections and a holding section arranged between the two mounting sections, wherein the mounting sections each have at least one passage for passing fastening means for fastening the stirrup element to a second component.

The invention further relates to the use of an angle connector according to the invention, wherein the angle element, yoke element and elastomer element are firmly connected to each other, for connecting two components. In this case, the second angle element section is attached to the second component by at least two, in particular three fastening means are fixed in each case by the bracket element, the second angle element section and the elastomer element in the second component. For example, screws can be provided as fastening means, which are then screwed into the second component. The use of the invention enables a particularly simple fixation of two components to one another and at the same time ensures a reliable sound decoupling of the two components.

The invention will be described below with reference to an embodiment, which in the 1 to 3 is illustrated, explained in more detail.

Show it:

1 in an outline diagram an exploded view of an embodiment of the angle connector according to the invention;

2 in a schematic representation of the mounting position of the embodiment according to 1 ;

3 in a schematic representation of a cross-sectional view of the embodiment according to 1 in the mounting position;

4 in a schematic representation of another embodiment of an angle connector according to the invention;

5 in a schematic representation of a cross-sectional view of the embodiment according to 4 ,

In 1 is an embodiment of the angle connector according to the invention 1 shown in an exploded view, in which the individual sub-elements of the angle connector 1 namely, the angle element 2 , the bracket element 3 and the elastomeric element 4 comprising two elastomer discs 40 are clearly visible.

The angle element 2 of the angle connector 1 has an L-shape in cross section through the first angle element section 21 and the second angle element section 22 is formed. The two angle element sections 21 . 22 each extend perpendicular to the cross section of the angle connector 1 two-dimensional and both have a correspondingly extending first and second flat side, wherein the first flat sides facing the inside of the L-shape and in 1 can be seen while the second planar sides of the angle element sections 21 . 22 in perspective 1 are not recognizable. The first angle element section 21 has holes 210 for passing fasteners, such as screws, over which the first angle member portion 21 on a first component that is in 1 not shown, can be attached. The second angle element section 22 has a receiving opening in the center of its planar extension 220 on. The second angle element section 22 is in the described embodiment, which may be generally advantageous for various embodiments, not formed itself for attachment to a second component. Because the second angle element section 22 has only one receiving opening 220 on, whose diameter is considerably larger than the diameter of holes, which would have to be for performing fastening means for fastening to a second component. For example, the holes point 210 in the first angle element section 21 for carrying out fastening means for fastening the first angle element section 21 are suitable in a first component, a diameter of about 5 mm. In contrast, the receiving opening has a diameter of about 20 mm. In general, it may be advantageous in the second angle element section 22 an angle connector according to the invention 1 a receiving opening 220 provide, whose diameter is between 15 and 35 mm, as a result of a particularly stable leadership of ironing element 3 to angle element 2 can be ensured by a correspondingly large projection on the bracket element.

In the in 1 described embodiment, the angle element 2 made of VA steel and has one over the first and second angle element section 21 . 22 constant width in the longitudinal direction perpendicular to the cross section of about 80 mm. In general, it may be advantageous for the angle element 2 in a width of about 50 to 150 mm provide, as a result of a stable angle element 2 can be provided that requires as little space. Likewise, generally, the provision of a length in the transverse direction is perpendicular to the longitudinal direction of the first angular element section 21 from about 100 to 200 mm advantageous, so that the first angle element section 21 can be attached to a first component over a sufficiently large area. In the present embodiment, the length of the first angle element section 21 about 150 mm. For the second angle element section 22 It is generally advantageous to provide a length in a further transverse direction perpendicular to the longitudinal direction of about 50 to 150 mm. In the present embodiment, the length amounts to about 80 mm. In the present embodiment, the first angle element section form 21 and the second angle element section 22 an angle of about 90 ° to each other. This angle of the L-shape may be a different value in other embodiments.

The bracket element 3 in the described embodiment of the angle connector according to the invention 1 is used, has a holding section 31 and two mounting sections 32 on. The holding section 31 is in the longitudinal direction perpendicular to the cross section between the two mounting portions 32 arranged. At the holding section 31 is a lead 33 arranged by the bracket element 3 away toward the second angle element section 22 runs. The lead 33 runs in the transverse direction perpendicular to said longitudinal direction. This is the lead 33 designed as a hollow cylinder. The mounting sections 32 are from the holding section 31 each spaced the same amount in the transverse direction, in which also the projection 33 runs. In this case, the projection extends 33 less far from the holding section 31 in the transverse direction away, as the two mounting sections 32 , This generally brings with it the advantage that the stirrup element 3 over the mounting sections 32 can be mounted in a flat second component without the projection 33 to the second component abuts. The mounting sections 32 are with the holding section 31 via connecting sections 34 connected, which extend in at least one component in the transverse direction.

The elastomer element 4 of in 1 illustrated angle connector 1 consists of two elastomer discs 40 , which are each formed identically and in their planar center in each case a partial recess 400 have, wherein the partial recesses 400 together the recess of the elastomeric element 4 form. The partial recesses 400 are in the mounting position of the angle connector 1 to each other and to the receiving opening 220 arranged in alignment. Therefore, the lead can 33 at the same time in the partial recesses 400 and the receiving opening 220 extend. In the mounting position of the angle connector 1 extends the projection 33 through the partial recess 400 the elastomeric disc 40 attached to the holding section 31 of the bracket element 3 abuts and through the receiving opening 220 of the second angle element section 22 through into the partial recess 400 the second elastomeric disc 40 into it. Here is the first elastomeric disc 40 between the holding section 31 and the first planar side of the second angle element section 22 arranged and the second elastomeric disc 40 on the second flat side of the angle element section 22 ,

Here are the distance of the mounting sections 32 in the longitudinal direction of each other and the extent of the elastomeric disks 40 in the longitudinal direction greater than the extension of the second angle element section 22 in the longitudinal direction. This is general for the design of the angle connector according to the invention 1 advantageous. Because this is on the one hand, a distance between the second angle element section 22 and the connecting sections 34 of the bracket element 3 ensured, so that a sound coupling of angle element 2 with bracket element 3 can be effectively avoided. In addition, the elastomer discs 40 within the temple element 3 in the volumes between the second angle element section 22 and ironing element 3 slightly dodge when in the transverse direction in attaching the stirrup element 3 be acted upon and compressed at a second component with force. As a result, as complete as possible sound decoupling between angle element 2 and ironing element 3 in the assembled position of the angle connector 1 to be guaranteed.

In addition, the extension of the holding section 31 of the bracket element 3 in the direction perpendicular to the transverse direction and the longitudinal direction, less than the extension of the second angle element portion 22 in the same direction, in the above indications as the length of the second angle element section 22 was designated. This may also be generally advantageous, as well as the general provision of an angle connector 1 may be advantageous in which the stirrup element 3 with engaged profile positive and profile negative, ie in the mounting position, not in contact with the angle element 2 stands. Because by the measures mentioned in each case ensures that because of the lack of contact between the bracket element 3 and angle element 2 , in particular the second angle element section 22 , a sound coupling between bracket element 3 and angle element 2 can be avoided.

The mounting sections 32 each have an implementation 300 on for performing fasteners, such as screws. This allows the mounting sections 32 pressed against a second component, whereby a corresponding contact pressure on the elastomeric disks 40 and the second angle element section 22 can be generated against the second component.

In 2 is the angle connector 1 according to 1 shown in its mounting position in rest position. Out 2 it can be seen that the stirrup element 3 the second angle element section 22 on two sides, which limit its areal extent perpendicular to the cross section, namely at its longitudinally opposite him limiting sides, laterally. In addition, in the rest position on the second flat side of the second angle element section 22 arranged elastomeric disc 40 in the transverse direction over the mounting sections 32 out. Accordingly, in the transverse direction of the holding portion 31 groundbreaking side of the assembly sections 32 from that in the transverse direction to the mounting sections 32 indicative side of the holding element section 31 spaced in the transverse direction by a distance which is less than the common thickness of elastomeric element 4 and second angle element section 22 in the transverse direction in the mounting position. Accordingly, when installing the angle connector 1 on a second component via the mounting sections 32 a compression of the elastomeric disks 40 in the transverse direction required so that the mounting sections 32 can be brought into contact with a flat second component. About the amount that the elastomeric element 4 , in particular the said elastomeric disk 40 in the rest position in the mounting position in the transverse direction over the mounting portions 32 protrudes, a bias voltage can be fixed, and thus a force can be fixed, with the ironing element 3 is screwed against the second component, provided that it is determined that the bracket element 3 as attached to the second component, when the mounting portions 32 rest against the second component. In general, it should be noted that the material of the elastomeric disks 40 as well as the thickness of the elastomeric disks 40 depending on the purpose of the angle connector 1 can be chosen. Of course, this also applies generally to the angle connector according to the invention 1 with respect to the elastomeric element 4 , Over a higher density of elastomeric disks 40 or in general of the elastomer element can be a higher load capacity of the elastomeric element 4 , ie a lower compression of the elastomer element 4 in the application of a certain force, pretend, such as in angle connectors 1 , which are exposed to a particularly high load, may be advantageous.

In 3 is the cross section of in 1 and 2 illustrated angle connector 1 shown. Out 3 is the L-shape of the cross-section of the angle element 2 clearly. In addition, in 3 recognizable that the extension of the bracket element 3 in the further transverse direction perpendicular to the longitudinal direction and to the transverse direction is smaller than the corresponding extent or length of the second angle element section. Accordingly, the bracket element 3 both from the first angle element section 21 as well as from the second angle element section 22 spaced. In addition, from the synopsis of 2 and 3 clearly recognizable that the receiving opening 220 has a larger diameter than the projection 33 and that the width of the second angle element section 22 less than the extension of the elastomeric disks 40 and the distance of the mounting sections 32 and the connecting sections 34 to each other in the longitudinal direction. Accordingly, the second angle element section 22 not in contact with the connection sections 34 of the bracket element 3 , Accordingly, the elastomer element 4 in a compression in the transverse direction during assembly of the bracket element 3 to dodge at a second component in the free volumes, extending between the bracket element 3 and the second angle element section 22 , in particular between the projection 33 and the recess opening 220 and between the connecting sections 34 and that of the connection sections 34 laterally encompassed sides of the second angle element section 22 result.

From the described embodiment it can be seen that the angle connector according to the invention 1 is very simple and very efficient a stable and sound-decoupled connection of two components allows. This brings the angle connector according to the invention 1 in particular, the advantage that its sub-elements, of which it consists, each can be specially adapted to use condition to the most optimal angle connector 1 for the appropriate use condition. For example, as explained, the thickness and / or density of the elastomeric element 4 , the length and / or width and / or thickness of the angle element sections 21 . 22 of the angle element 2 , The embodiment of the bracket element 3 , in particular the offset between mounting sections 32 and holding section 31 in the transverse direction, the distance of the mounting sections 32 in the longitudinal direction and / or the size of the mounting portions for attachment to a second component and / or the configuration of profile positive and profile negative, in particular projection 33 and receiving opening 220 and recess adapted to the appropriate conditions. It can because of the modular design of the angle connector according to the invention 1 individual sub-elements of the angle connector identical in different embodiments of the angle connector 1 be used. This allows a particularly cost-effective production of the angle connector 1 with a simultaneous use of the angle connector 1 under different conditions of use.

In the 4 and 5 is another embodiment of an angle connector according to the invention 1 shown. 5 shows a cross section through the angle connector 1 according to the in 4 drawn section AA. Elements of the angle connector 1 according to the 4 and 5 that are similar to elements of the angle connector 1 according to the 1 to 3 are provided with identical reference numerals. The following is essentially based on the differences of the angle connector 1 according to the 4 and 5 compared to the angle connector 1 according to the 1 to 3 received. The angle connector 1 according to the 4 and 5 has a bracket element 3 on that as a plate 310 is formed on the projections in the form of sleeves 330 are arranged. This shows the plate 310 Through holes in which the sleeves 330 are fitted in press-fit, so that the sleeves 330 with the plate 310 are firmly connected. This is shown by the sleeves 330 on the outside of a gradation, with which they are inserted into the through holes. The angle connector 1 according to 4 and 5 is designed so that angle element 2 , Bracket element 3 and elastomeric element 4 with the two elastomer discs 40 glued together. In the 4 and 5a is thus the mounting position of the angle connector 1 represented, wherein the angle connector 1 always in the mounting position, unless a very significant force is applied to the adhesive bond between the individual elements of the angle connector 1 to destroy.

From the 4 and 5 it can be seen that a particular sleeve 330 through a receiving opening assigned to it 220 extends in the second angle element section and in a recess 401 of the elastomeric element 4 is arranged, wherein the recess 401 from two partial recesses 400 composed in the two elastomeric discs 40 are arranged. The cross section corresponds to the sleeve 330 essentially the cross section of the recess 401 so that the elastomeric element with its two elastomeric discs 40 on the sleeve 330 is applied. In contrast, the cross section of the sleeve 330 significantly smaller than the cross section of the receiving opening 220 so that the sleeve 330 in the receiving opening 220 Game has. This is a contact between bracket element 3 and the second angle element section 22 effectively avoided. The in the 4 and 5 illustrated angle connector 1 was manufactured by factory ironing element 3 , Angle element 2 and the two elastomer discs 40 were glued together, with a precise centering of the sleeve 330 in the receiving opening 220 was realized. This is a particularly reliable touch of angle element 2 and ironing element 3 prevents the game between sleeves 330 and receiving opening 220 is the same size in all directions.

Furthermore, from the 4 and 5 recognizable that the sleeve away from the second angle element portion in a transverse direction through the receiving opening 220 and in the recess 401 extending, which in the transverse direction of the second angle element section 22 pioneering end of that in the transverse direction of the second angle element section 22 pioneering end of the elastomeric element 4 with the two elastomer discs 40 is spaced and within the recess 401 lies. The transverse direction runs along the cylinder axis of the projection 33 or the sleeve 330 , which may be generally advantageous in a corresponding embodiment of an advantageous embodiment. Due to the selected configuration of the angle connector according to the invention 1 is ensured that the elastomeric element 4 with its two elastomer discs 40 can be compressed when the stirrup element 3 about a screw that goes through the sleeve 330 is screwed into a second component, is pressed against the second component. This limits the sleeve 330 the compression of the elastomer discs 40 because no further compression can occur when the sleeve 330 rests against the second component. The sleeve 330 thus also ensures a travel limit, the damage to the elastomeric discs 40 prevented by excessive compression. In addition, by providing several equally long projections 33 or sleeves 330 in the bracket element 3 a over the flat extent of the bracket element 3 even contact pressure on the elastomer discs 40 be guaranteed to a second component, because of the uniform path limitation uniform compression of the elastomeric disks 40 can be ensured when the bracket element 3 is fixed to a second component, which may be generally advantageous.

LIST OF REFERENCE NUMBERS

1

 angle connector

2

 angle element

3

 bracket element

4

 elastomer element

21

 first angle element section

22

 second angle element section

31

 holding section

32

 mounting portions

33

 head Start

34

 connecting sections

40

 elastomer discs

210

 holes

220

 receiving opening

300

 bushings

310

 plate

330

 sleeves

400

 partial recesses

401

 recess

Claims (24)

Angle connector ( 1 ), which is in its mounting position for connecting two components, in particular wooden house components, formed, comprising a cross-sectionally L-shaped angle element ( 2 ) whose L-shape is defined by a first and a second angle element section (FIG. 21 . 22 ) is formed, each having a first and a second planar side, each extending perpendicular to the cross-section surface, wherein the first planar sides of the two angle element sections ( 21 . 22 ) and facing the interior of the L-shape, wherein the first angle element section ( 21 ) is designed for fastening to a first component, characterized in that the angle connector ( 1 ) a stirrup element ( 3 ) and an elastomeric element ( 4 ), wherein the elastomeric element ( 4 ) in the mounting position at least in sections on both flat sides of the second angle element section ( 22 ) is arranged, wherein the bracket element ( 3 ) in the mounting position on the first flat side of the second angle element section ( 22 ) is arranged, wherein the elastomeric element ( 4 ) in the mounting position in sections between the bracket element ( 3 ) and the second angle element section ( 22 ) is arranged to prevent direct contact between the bracket element ( 3 ) and the second angle element section ( 22 ), wherein the bracket element ( 3 ) is formed for attachment to a second component. Angle connector ( 1 ) according to claim 1, characterized in that the stirrup element ( 3 ) the second angle element section ( 22 ) on at least two sides, which limit its areal extent perpendicular to the cross section, laterally. Angle connector ( 1 ) according to claim 1 or 2, characterized in that the stirrup element ( 3 ) a profile positive and the second angle element section ( 22 ) has a corresponding profile negative, wherein in the mounting position the profile positive and the profile negative interlock, wherein profile positive and profile negative are formed so that in the mounting position blocking the displacement of ironing element ( 3 ) and angle element ( 2 ) is ensured to each other in a plane perpendicular to the cross section. Angle connector ( 1 ) according to claim 3, characterized in that the profile positive at least one projection ( 33 ) on the bracket element ( 3 ) and the profile negative at least one receiving opening ( 220 ), wherein the at least one projection ( 33 ) in the mounting position in the at least one receiving opening ( 220 ) is arranged and in particular by the receiving opening ( 220 ) extends therethrough. Angle connector ( 1 ) according to claim 4, characterized in that the at least one projection ( 33 ) is designed as a cylinder, in particular as a hollow cylinder. Angle connector ( 1 ) according to one of claims 3 to 5, characterized in that the elastomer element ( 4 ) has at least one recess structure, which in the mounting position with the profile negative of the second angle element section ( 22 ), wherein the profile positive of the bracket element ( 3 ) or the profile negative of the second angle element section ( 22 ) is arranged in the mounting position in the recess structure. Angle connector ( 1 ) according to one of claims 4 to 6, characterized in that the elastomeric element ( 4 ) has at least one recess as a recess structure, which in the mounting position with the at least one receiving opening ( 220 ) of the second angle element section ( 22 ) is aligned, the projection ( 33 ) in the mounting position in the receiving opening ( 220 ) and is arranged in the recess. Angle connector ( 1 ) according to claim 6 or 7, characterized in that a clearance between the profile negative and the profile positive is provided, in particular, this game is greater than a particular intended second game between profile positive or profile negative and recess structure. Angle connector ( 1 ) according to one of the preceding claims, characterized in that the elastomer element ( 4 ) two separate elastomeric disks ( 40 ), which in the mounting position on the two flat sides of the second angle element section (FIG. 22 ) are arranged. Angle connector ( 1 ) according to claim 9 and one of claims 4 to 8, characterized in that both elastomeric discs ( 40 ) each a Teilausnehmungsstruktur, in particular a Teilausnehmung ( 400 ), wherein the two Teilausnehmungsstrukturen are aligned with each other and together form the recess structure. Angle connector ( 1 ) according to one of claims 1 to 8, characterized in that the elastomeric element ( 4 ) is integrally formed. Angle connector ( 1 ) according to one of claims 3 to 11, characterized in that the stirrup element ( 3 ) as profile positive at least two, in particular has three projections which are each formed as a continuous hollow cylinder, wherein the second angle element section ( 22 ) at least two receiving openings ( 220 ) and the elastomeric element ( 4 ) at least two recesses ( 401 ), wherein in the mounting position, each of the projections in a respective associated receiving opening ( 220 ) and an associated recess ( 401 ) is arranged and through the receiving opening ( 220 ) extends therethrough. Angle connector ( 1 ) according to claim 12, characterized in that the continuous hollow cylinder in each case as sleeves ( 330 ) are formed, which are fixed to the bracket element ( 3 ) are connected. Angle connector ( 1 ) according to one of claims 12 or 13, characterized in that each continuous hollow cylinder of the second angular element portion ( 22 ) away in a transverse direction through the receiving opening ( 220 ) and in the recess ( 401 ), being in the transverse direction of the second angle element section (FIG. 22 ) groundbreaking end of the in the transverse direction of the second angle element section ( 22 ) groundbreaking end of the elastomeric element ( 4 ) is spaced and within the recess ( 401 ) lies. Angle connector ( 1 ) according to one of claims 4 to 14, characterized in that each in the mounting position a certain projection ( 33 ) associated receiving opening ( 220 ) has a larger cross-section than the respective this particular projection ( 33 ) associated recess ( 401 ), wherein in particular the cross-section of a projection ( 33 ) within the allocated receiving opening ( 220 ) is at least 5%, in particular at least 10% smaller than the cross section of the assigned receiving opening ( 220 ). Angle connector ( 1 ) according to one of claims 12 to 15, characterized in that the stirrup element ( 3 ) as a plate ( 310 ) is formed, at which the projections ( 33 ) are arranged. Angle connector ( 1 ) according to any one of claims 12 to 16, characterized in that the free cross section of the continuous hollow cylinder along an extension of the longitudinal axis of the respective hollow cylinder by the elastomeric element ( 3 ) and the second angle element section ( 22 ) continues continuously as a free cross-section. Angle connector ( 1 ) according to one of the preceding claims, characterized in that the stirrup element ( 3 ) a holding section ( 31 ) and two assembly sections ( 32 ), wherein the holding section ( 31 ) in the mounting position at least in sections flat along the first flat side of the second angle element section ( 22 ) and on the elastomeric element ( 4 ) rests, wherein the holding section ( 31 ) in a longitudinal direction perpendicular to the cross section between the two mounting portions ( 32 ) is arranged. Angle connector ( 1 ) according to claim 18, characterized in that the mounting sections ( 32 ) in a transverse direction perpendicular to the longitudinal direction of the holding portion (FIG. 31 ) are spaced apart and in the mounting position in the longitudinal direction next to the second angle element portion ( 22 ) are arranged. Angle connector ( 1 ) according to claim 19, characterized in that in the transverse direction of the holding section ( 31 ) groundbreaking side of the assembly sections ( 32 ) from the in the transverse direction to the mounting sections ( 32 ) indicative side of the holding element section ( 31 ) is spaced in the transverse direction by a distance which is less than the common thickness of elastomeric element ( 4 ) and second angle element section ( 22 ) in the transverse direction in the mounting position. Angle connector ( 1 ) according to one of the preceding claims, characterized in that the angle element ( 2 ), the elastomer element ( 4 ) and the bracket element ( 3 ) are firmly connected. Using an angle element ( 2 ) for the realization of an angle connector according to the invention ( 1 ) according to one of the preceding claims, characterized in that the angle element ( 2 ) is formed in cross-section L-shaped, wherein the L-shape by a first and a second angle element section ( 21 . 22 ) is formed, each having a first and a second planar side, each extending perpendicular to the cross-section surface, wherein the first planar sides of the two angle element sections ( 21 . 22 ) and facing the interior of the L-shape, wherein the first angle element section ( 21 ) is formed for attachment to a first component. Use of a bracket element ( 3 ) for the realization of an angle connector according to the invention ( 1 ) according to one of the preceding claims 1 to 21, characterized in that the stirrup element ( 3 ) two mounting sections ( 32 ) and one between the two assembly sections ( 32 ) arranged holding section ( 31 ), wherein the mounting sections ( 32 ) at least one implementation ( 300 ) for carrying out fastening means for fastening the strap element ( 3 ) on a second component. Using an angle connector ( 1 ) according to claim 20 for connecting two components, wherein the second angle element section ( 22 ) is attached to the second component by at least two, in particular three fastening means in each case by the bracket element ( 3 ), the second angle element section ( 22 ) and the elastomeric element ( 4 ) are fixed in the second component.

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