EP2395165A1 - Connector assembly with eccentrically activated locking element - Google Patents

Abstract

The arrangement has a locking element (1) comprising a nose (2) and a body (3) that is provided with a recess, where the nose engages into a pin (17). An eccentric element is arranged in the recess and comprises an opening for retaining a pivot pin (9), where the opening is arranged at a distance from an axis. The pivot pin is rotatably mounted in a beam element (11), and the pin is arranged in another beam element (14). The pivot pin is partially covered by guide sleeves (10), where the sleeves are designed as cylindrical hollow bodies and made of metal.

Description

The present invention relates to a connector assembly, e.g. for connecting two construction elements, such as for corner or surface connection of two wall, ceiling or roof elements or in general terms of timber construction or construction elements in the field of timber construction.

The object of the present invention was to provide a connector assembly which is easy to operate.

An inventive connector assembly is shown with the features of claim 1. Further embodiments result from the features of the dependent claims of claim 1.

A connector assembly according to the invention for connecting two beam elements has a locking element, wherein the locking element has a nose for engagement in a bolt and a recessed body. In this case, an eccentric element rotatable about an axis is arranged in the recess, which has an opening spaced from the axis for receiving a pivot pin. Further, the pivot pin is rotatably mounted in a beam element and the bolt is arranged in the other beam element. This allows a bolt connection, for example, for use in a corner joint of two corner beams, which also after Drying out of the wood installed in the building reliably keeps the situation.

An inventive embodiment is that the pivot pin is at least partially surrounded by at least one guide sleeve. As a result, the force is optimally introduced into the surrounding wood.

Another embodiment of the invention is that the guide sleeve are formed as a cylindrical hollow body made of metal. This in turn prevents the pivot pin from being bent or broken when actuated.

A further embodiment is that a peripheral region of the eccentric element and a further peripheral region of the recess are each formed semicircular, wherein the opening is arranged eccentrically with respect to the axis. This allows a controlled clamping by means of a rotation between about 90 ° to about 180 ° (centric position of the pivot pin to the force line).

A further embodiment according to the invention is that the recess has a first semicircle with a larger semicircle in comparison to a second semicircle and a stop protrudes radially from the second semicircle and protrudes radially from the first semicircle relative to a counterstop.

A further embodiment according to the invention is that a further stop protrudes from the eccentric element at the first position into a further recess of an end region and wherein a further counterstop is formed at the second position.

A further embodiment according to the invention is that a web is formed either between the stop and the second semicircle or is formed between the further stop and the first position, and wherein the corresponding web forms in each case a predetermined breaking point. This specifies a precisely defined position of the eccentric element in relation to the bolt before it is locked.

Another embodiment is that the body is designed as a spring area. This makes it possible that installation tolerances and movements are compensated by shrinkage or swelling processes in the wood and a sustained clamping effect of the inventive connector assembly over the duration of use is ensured. This feature ensures that the eccentric element and the pivot pin remain permanently secured in their position.

A further embodiment is that the locking element at least partially has recesses and / or openings. As a result, the desired spring action is achieved.

A further embodiment is that the recesses and / or openings form a fishbone-like shape. As a result, a spring effect is also achieved.

A further embodiment is that the eccentric element is designed in the manner of a disk and the recess has a contour corresponding to the eccentric element at least in some areas. As a result, a simple actuation of the rotary pin is made possible.

A further embodiment is that the locking element and the eccentric element are each formed from metal. This ensures that the locking element has the desired material properties.

Another embodiment is that the locking element and the eccentric element are each formed flat. This ensures that this can be arranged to save space in the beam elements.

A further embodiment is that an abutment surface of the nose of the locking element is formed extending from a Einrastausnehmung to a maximum of over half the width of the body. This prevents the locking element from jumping upwards after rotation of the eccentric element and not locking into the bolt as intended so that the connector assembly according to the invention can not be tensioned.

A further embodiment is that the pivot pin is formed at least triangular, preferably hexagonal and wherein the opening of the eccentric element has a contour corresponding to the pivot pin. This allows a reliable operation of the rotary pin allows (adhesion).

A further embodiment is that in the locked state, the nose engaged with the bolt and the pivot pin are arranged in a line. This ensures that the pivot pin remains in its position and no releasing moment acts on it.

Yet another embodiment is that beam elements are formed for receiving a connector assembly according to the invention, wherein slots are provided in the beam elements. As a result, a horizontal guidance of Holzbau- or Konstruktionslemente allows.

Fig. 1

schematisch, ein erfindungsgemässen Verbinderanordnung in perspektivischer Darstellung mit einem unverschwenkten Riegelelement;

Fig. 2

schematisch, ein erfindungsgemässen Verbinderanordnung mit einem verschwenkten Riegelelement in perspektivischer Darstellung;

Fig. 3

schematisch, eine perspektivische Darstellung eines erfindungsgemässen Verbinderanordnung in verriegeltem Zustand;

Fig. 4

schematisch, ein Riegelelement einer erfindungsgemässen Verbinderanordnung;

Fig. 5

ein vergrösserter Ausschnitt gemäss Figur 4;

Fig. 6

schematisch, ein weiteres Riegelelement einer erfindungsgemässen Verbinderanordnung;

Fig. 7

schematisch, ein noch weiteres Riegelelement einer erfindungsgemässen Verbinderanordnung; und

Fig. 8

schematisch, eine Draufsicht auf zwei durch eine Eckverbindung miteinander verbundenen Konstruktionselemente, wie beispielsweise zweier Holzbau- oder Konstruktionselemente.

Embodiments of the present invention will be explained in more detail below with reference to figures. Show it

Fig. 1

schematically, a connector assembly according to the invention in perspective view with a non-pivoted locking element;

Fig. 2

schematically, an inventive connector assembly with a pivoted locking element in perspective view;

Fig. 3

schematically, a perspective view of a connector assembly according to the invention in the locked state;

Fig. 4

schematically, a locking element of an inventive connector assembly;

Fig. 5

an enlarged section according to FIG. 4 ;

Fig. 6

schematically, another locking element of a connector arrangement according to the invention;

Fig. 7

schematically, a still further locking element of a connector assembly according to the invention; and

Fig. 8

schematically, a plan view of two interconnected by a corner joint Construction elements, such as two timber construction or construction elements.

In FIG. 1 schematically a connector assembly according to the invention in a perspective view with an untwisted locking element 1 is shown. The locking element 1 has a nose 2 and a body 3. The body 3 is at least partially provided with recesses 4 and apertures 5, so that they form a fischgratartige shape. At a nose 2 opposite end portion 6, a recess 7 is provided in the locking element 1. This recess 7 is approximately round and takes a corresponding, for example, also round eccentric 8 in it. The eccentric element 8 is arranged rotatable about an axis A. A pivot pin 9, for example in the form of a hexagonal pin, protrudes from a hollow cylindrical guide sleeve 10 from the eccentric 8 out. In this case, the guide sleeve 10 may be formed, for example in the form of a cylindrical hollow body in the form of a metal tube. It is also conceivable that, for example, on both sides of the eccentric element 8 in each case a guide sleeve 10 enclose the pivot pin 9. The inventive connector assembly is as shown in FIG FIG. 1 shows, shown in unlocked state. Next, a first beam member 11 is shown for example made of wood, which is provided with a first coarse chipboard 12. The first coarse chipboard 12 or the first beam element 11 is provided with a first slot 13, for example in the form of a groove, which initially extends from the into the interior of the beam element 11. The Coarse chipboard 12 can be used for the guidance of timber construction or construction elements (not shown in FIG. 1 ) be used. The beam member 11 is formed, for example, as elongated or block-like. The pivot pin 9 protrudes partially from the beam member 11. Next is out FIG. 1 a second elongated or block-shaped beam element 14, for example made of wood, shown. The beam elements 11, 14 may be part of flat wall, ceiling, or roof elements or in general terms of timber construction or construction elements (not shown in FIG FIG. 1 ) be. The second coarse chipboard 15 or the second beam element 14 has a further slot 16, likewise in the form of a groove. A bolt 17 is driven or drilled in the second beam member 14, such that the bolt 17 is arranged approximately perpendicular to the wood fiber direction.

Fig. 2 schematically shows a connector assembly according to the invention with a pivoted locking element 1 in a perspective view. That already in the description too FIG. 1 introduced reference numerals also apply to FIG. 2 , The locking element 1 is pivoted by about 90 ° in the direction of the second beam member 14 through to a stop point 18 on one side of the pin 17. The nose 2 is spaced from the bolt 17. The two beam elements 11, 14 are thereby pushed against each other, so that the two coarse chipboard 12, 15 touch each other and thereby form a corner 19 towards an inner side. The pivot pin 9 is in the same position as in FIG. 1 shown.

Fig. 3 schematically shows a perspective view of a connecting device according to the invention in the locked state. The already in the description of the Figures 1 and 2 introduced reference numerals also apply to FIG. 3 , By turning the pivot pin 9, the eccentric element 8 is screwed in the direction of arrow P1 to the bolt 17 out. In this case, the nose 17 brought into engagement with the bolt 2 and the pivot pin 9 are approximately on a line L. The 6-angular pivot pin 9 is guided in the guide sleeve 10. The eccentric element 8 takes on the pivot pin 9 in it. The body 3 protrudes approximately equally from both coarse particle boards 12, 15.

Fig. 4 schematically shows the locking element 1 of a connector assembly according to the invention. The already in the description of the FIGS. 1 to 3 introduced reference numerals also apply to FIG. 4 , In this case, an opening 21 of the eccentric 8 corresponds to the shape of the pivot pin 9. The opening 21 receives the pivot pin 9 in itself. In this case, the opening 21 in the eccentric element 8 is arranged at a distance from the axis A. In FIG. 3 is the opening 21 corresponding to the 6-sided pivot pin 9 also formed 6-sided. The nose 2 opens into a bow-like region 22 of the body 3. At least part of a spring region 23 of the body 3 adjoining the region 22 is provided with recesses 4 and apertures 5 which have a fish-barb-like shape. The locking element 1 is formed flat from metal. When locking the inventive connector assembly of the 6-sided pivot pin 9 is actuated until a stop 24 with a counter-stop 25 into abutment brought is. A gap 26 is formed between the recess 7 and the eccentric element 8 inserted therein. The gap 26 extends between a U-shaped recess 26 to the counter-stop 25, which projects from the end portion 6 radially inwardly into the recess 7.

Fig. 5 shows an enlarged section according to FIG. 4 , In this case, the end region 6 of the surface-formed locking element 1 is shown enlarged. By turning the pivot pin 9 in the direction of arrow P2, the at least one predetermined breaking point 28 can be broken. The break-up of the predetermined breaking point 28 takes place only when the locking element 1 on the bolt (not shown in FIG FIG. 5 ). A web 29 forms the predetermined breaking point 28. The stop 24 is dimensioned such that it can be brought in the gap 26 to the stop with the counter-stop 25. When pressing the pivot pin 9 of the web 29 is destroyed. The recess 7 has a first semicircle HK1 with a larger semicircle in comparison to a second semicircle HK2. The semicircle HK1 has a radius R1 and the second semicircle HK2 has a radius R2. Between the two semicircles HK1 and HK2, the gap 26 is formed. The stop 24 protrudes radially from the second semicircle HK2. The counter-stop 25 also protrudes radially relative to the stop 24 from the first semicircle HK1. The stop 24 is formed, for example, like a runner. An edge of the stop 24 is formed such that this edge corresponds to a corresponding further counter edge of the counter-stop 25. The pivot pin 9 is 6-edged and rotatable in the opening 21 of the eccentric element eighth educated. But it is also conceivable that it is at least 3-edged or generally expressed, polygonal. Next, a peripheral region 35 of the Exzenterlementes 8 and a further peripheral region 35 'of the recess 7 are each formed semicircular.

FIG. 6 schematically shows a further locking element 1 'of a connector assembly according to the invention. Another eccentric element 8 'is arranged in a further recess 7'. In this case, a further end region 6 'of the locking element 1' encloses the eccentric element 8 '. Like in FIG. 5 are also shown in FIG. 6 an even further peripheral region 35 "of the eccentric element 8 'and an even further peripheral region 35'" of the further recess 7 'are each semicircular in shape .A further opening 21' is arranged eccentrically with respect to a further axis A ' 33, the eccentric element 8 'terminates in a further recess 34 of the end region 6' FIG. 6 another stop 24 'can be seen. The stop 24 'protrudes into the recess 34 at the first location 32 from the eccentric element 8'. Another counter-stop 25 'is formed approximately opposite the stop 24'. The counter-stop 25 'is formed by the second location 33. Further, another web 29 'between the stop 24' and the first point 32 is shown. The web 29 'forms another predetermined breaking point 28'. The locking element 1 'has a further nose 2' and a further body 3 ', which further recesses 4' and openings 5 'has.

FIG. 7 schematically shows a still further locking element 1 "of a connector assembly according to the invention FIG. 6 is that an even further lug 2 "is formed extended from a latching recess 35 of the still further latching element 1" to at most over a half width B of an even further body 3 " FIG. 7 the locking element 1 "with the still further nose 2" and an even further body 3 ", which also has further recesses 4" and apertures 5 "The locking recess 35 is substantially semicircular in shape to a longitudinal axis L of the locking element 1 "of Einrastausnehmung 35 against an outer side 36 of the body 3" from. The lug 2 "can be configured to be straight or concavely curved.The bolt 17 can engage in the bolt 17 over an entire stop surface 37 when locking the connector assembly according to the invention. The stop surface 37 extends from the latching point 35 provided with the bolt 17 up to one Bolt end 38. This ensures that the nose 2 "engages in the bolt 17 even with a possible Nachobenspringen the locking element 1".

FIG. 8 shows schematically a plan view of two interconnected by a corner joint construction elements 30, 31, such as two timber construction or construction elements. The construction elements 30, 31 are provided with one or more connector assemblies according to the invention. The already in the description of the FIGS. 1 to 5 introduced reference numerals also apply to FIG. 8 , This is the case Latch element 1 through the slots 13, 16. The nose 2 is engaged in the bolt 17. The bolt 17 is driven into the second beam element 14. The two guide sleeves 101, 102 in the form of metal tubes enclose the pivot pin 9. The hollow cylindrical guide sleeves 101, 102 are separated by the body 3 from each other. The guide sleeves 101, 102 are driven into the first beam element 11.

Claims (17)

A connector assembly for connecting two beam members (11; 14) to a latch member (1; 1 '; 1 "), said latch member (1; 1'; 1") having a lug (2; 2 '; 2 ") for engaging a bolt (17) and a body (3, 3 ', 3 ") provided with a recess (7, 7'), wherein in the recess (7, 7 ') an eccentric element (8) can be rotated about an axis (A) 8 ') having an opening (21; 21') spaced apart from the axis (A) for receiving a pivot pin (9), the pivot pin (9) being rotatably mounted in a beam element (11) and; Bolt (17) in the other beam element (14) is arranged. Connector assembly according to claim 1, characterized in that the pivot pin (9) is at least partially surrounded by at least one guide sleeve (10; 101; 102). Connector assembly according to claim 2, characterized in that the guide sleeves (10; 101; 102) are formed as cylindrical hollow bodies made of metal. Connector assembly according to claim 1 or 2, characterized in that a peripheral region (35; 35 ') of the Eccentric element (8, 8 ') and a further peripheral region (35', 35 "') of the recess (7, 7') are each formed semicircular, wherein the opening (21, 21 ') eccentric with respect to the axis (A). is arranged. Connector assembly according to one of claims 1 to 4, characterized in that the recess (7; 7 ') has a first semicircle (HK1) with a larger semicircle in comparison to a second semicircle (HK2) and a stop (24) radially from the second Semicircle (HK2) protrudes and opposite a counter-stop (25) protrudes radially from the first semicircle (HK1). Connector assembly according to one of claims 1 to 4, characterized in that a further stop (24 ') from the eccentric element (8') at the first point (32) protrudes into a further recess (34) of an end region (6) and wherein a further counter-stop (25 ') at the second location (33) is formed. Connector assembly according to one of claims 5 or 6, characterized in that a web (29), either between the stop (24) and the second semicircle (HK2) is formed or between the further stop (24 ') and the first point (32 ) and wherein the respective web (29, 29 ') in each case forms a predetermined breaking point (28, 28'). Connector assembly according to one of claims 1 to 6, characterized in that the body (3; 3 '; 3 ") is designed as a spring region (23). Connector assembly according to one of claims 1 to 7, characterized in that the locking element (1, 1 ', 1 ") at least partially recesses (4, 4', 4") and / or openings (5, 5 ', 5 ") , A connector assembly according to claim 9, characterized in that the recesses (4; 4 '; 4 ") and / or apertures (5; 5';5") form a fishbone-like shape. Connector arrangement according to one of claims 1 to 10, characterized in that the eccentric element (8; 8 ') is disc-shaped and the recess (7; 7') has a contour corresponding at least in regions to the eccentric element (8; 8 '). Connector assembly according to one of claims 1 to 11, characterized in that the locking element (1; 1 '; 1 ") and the eccentric element (8; 8') are each formed from metal. Connector assembly according to one of claims 1 to 12, characterized in that the locking element (1, 1 '; 1 ") and the eccentric element (8, 8 ') are each formed flat. Connector assembly according to one of claims 1 to 13, characterized in that a stop surface (37) of the nose (2, 2 ', 2 ") of the locking element (1, 1', 1"), starting from a Einrastausnehmung (35) to a maximum of Half the width (B) of the body (3, 3 ', 3'') is formed extended. Connector assembly according to one of claims 1 to 14, characterized in that the pivot pin (9) is formed at least triangular, preferably hexagonal and wherein the opening (21; 21 ') of the eccentric element (8; 8') a the pivot pin (9) corresponding Has contour. Connector assembly according to one of claims 2 to 15, characterized in that in the locked state, the nose (2; 2 '; 2 ") engaged with the bolt (17) and the pivot pin (9) are arranged on a line (L) , Beam elements (11; 15) for receiving a connector assembly according to one of claims 1 to 16, characterized in that slots (13; 16) are formed.

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