DE102010041568A1 - Positioning adaptor used for positioning elongated profile element e.g. rail of fastening clamp, has clamping mechanism that is connected with receiving portion so as to clamp elongated profile element in rotary structure - Google Patents

Abstract

The adaptor (1) has a rotary structure (10) including a cavity (11) along a longitudinal axis. The rotary structure is mounted pivotally in a cavity (21) of a receiving portion (20). A fastening element (40) is connected to the receiving portion through a screw or a bolt at a hole of a mounting table. A clamping mechanism (30) is connected with the receiving portion so as to clamp the elongated profile element in the rotary structure relative to the receiving portion. The rotating structure and the receiving portion are made of aluminum.

Description

The invention relates to a positioning adapter for the spatial positioning of a straight, elongate profile piece, preferably a rail of a screw clamp to push the profile piece quickly in a desired position and orientation on a device and rotatably secure.

From the state of the art, so-called 3D work tables or 3D clamping systems are known. Such clamping systems are based on a work table, also called Zuricht- or welding table, which has arranged in the table top and along the table edges and serving directly for receiving clamping elements cylindrical through holes, which are evenly distributed over the surface. Such a table is for example from the EP-A 05 41 904 B1 known. A work table with such a perforated grid system, in conjunction with a variety of stop, clamping and positioning a 3D clamping system can be constructed by means of the very short time on the table very complex and modular devices. 3D clamping systems are used, for example, in steel construction, sheet metal processing, robot technology, as well as laser welding, laser cutting, and prototype or body construction.

When constructing a device or for positioning a workpiece on the work table, screw clamps are frequently used as clamping means in order to fix a component in a desired machining position. Here, it is necessary to releasably secure the screw clamp in a variety of positions and orientations on the system table or on a variety of stop, clamping and positioning elements.

It is therefore an object of the present invention to provide a fastener for the spatial positioning of a straight, elongated profile piece, preferably a rail, a screw clamp, which allows a precise, flexible and quick positioning of such a profile piece on a stop, tensioning or positioning element ,

This object is achieved by a positioning adapter for the spatial positioning of a straight, elongate profile piece according to the features of patent claim 1. The dependent claims relate to advantageous embodiments of the invention.

The positioning adapter according to the invention has a rotary body which has along a longitudinal axis a cavity (rotary body cavity) for receiving a straight, elongated profile piece. The rotary body is preferably cylindrical. The cavity is dimensioned so that it is adapted to the dimension of the male profile piece. If the male profile piece is a commercially available screw clamp, the cross section of the cavity is adapted to the cross section of the rail of a commercial screw clamp. Thereby, the rail of the screw clamp can be inserted into the rotary body cavity and is rotatably mounted in this.

Furthermore, the rotary body may comprise an integrated fastening means for fixing a profile piece located in the first cavity relative to the rotary body. The integrated fastening means is for example located in a bore of the rotary body stud. By means of the integrated fastener can continue to a smaller profile piece, d. H. a profile piece whose cross section is smaller than the cross section of the rotary body cavity, are fixed.

Furthermore, the positioning adapter according to the invention comprises a receiving body, which also has a cavity (receiving body cavity) in which the first rotary body or at least one cylindrical portion of the rotary body is pivotally mounted. The conditional by the receiving body cavity recess of the receiving body is dimensioned so as to be able to receive the rotary body rotatably mounted in this cavity. In other words, the cavity-related recess of the receiving body is adapted to the shape of the rotating body.

Furthermore, the rotary body may have a circumferential groove extending perpendicular to the longitudinal axis. By means of such a groove-like depression in the cylindrical surface of the rotary body, the pivotably mounted profile piece can be secured against displacement in the longitudinal direction. Preferably, the circulation groove is mounted centrally on the rotary body.

The positioning adapter according to the invention further comprises a clamping mechanism, which is in communication with the receiving body directly or via another component. In an open, ie not clamped state, the rotary body is rotatably and slidably mounted in the receiving body. In other words, the rotary body and the receiving body form a rotary push joint. In a clamping position of the clamping lever blocks a rotational and pushing movement of the rotary body against the receiving body. Preferably, the clamping mechanism is designed as a clamping lever. The clamping mechanism can also be designed as a screw integrated in the receiving body. If the rotary body is formed with a circumferential groove, a clamping pin of the clamping lever preferably to engage in the circumferential groove of the rotary body to apply a clamping force to set the rotary body relative to the receiving body. Preferably, the rotary body is rotationally and shear-resistant clamped to the receiving body.

Furthermore, the positioning adapter comprises a fastening means, which is suitable for fastening the receiving body by means of a screw or a system bolt to a system bore of a welding or assembly table, a bar, a stop, angle or clamping element of a 3D clamping system. Preferably, the attachment means is attached to the open side of the receiving body opposite to the receiving body. The attachment means may also be attached to the side surfaces of the receiving body. For the fastener a variety of known from the prior art fasteners can be used, for example, screws or positioning and clamping bolts, which are suitable to attach the receiving body to, for example, a stop, angle, perforated plate or a bracket. When using a clamping system with predetermined system bores, the fastener is preferably adapted to the system bores to secure the receiving body with the fastener to the system bores can.

By attaching the receiving body to a system bore of a welding or assembly table, a bar, a stop, angle or clamping element of a 3D clamping system and simple insertion of the profile piece in the cavity of the rotating body, then rotating the rotating body in the desired position and actuation of the Clamping lever, the profile piece is fixed in the desired orientation. The positioning adapter according to the invention thus enables a fast, extremely flexible, little work space consuming positioning and fastening mechanism for a straight, elongated profile piece.

Furthermore, the rotary body can be open through the first cavity along the longitudinal axis to one side. The rotary body can then have a substantially U-shaped cross section due to the rotary body cavity. Thereby, the profile piece located in the rotary body cavity can be clamped by the clamping lever located on the receiving body both against a longitudinal displacement and the rotary body are secured relative to the receiving body against rotation. Another advantage is that the fastener integrated in the rotary body is not necessary when the rotary body is open to one side. In other words, a laterally open rotary body can be formed with or without integrated fastening means.

Furthermore, the cavity of the rotary body on the non-open side may comprise a slot-shaped recess. Such a slot-shaped recess increases the clamping elasticity of the rotary body, in order to be able to transfer this, when exerting a clamping force on the rotary body, via the limbs encompassing the cavity to the workpiece located in the cavity.

Furthermore, the receiving body can be open by the receiving body cavity to one side, so that the profile piece can be inserted through the opening in the rotary body cavity and does not need to be threaded laterally into the rotary body.

Preferably, an end portion of the rotary body protrudes in the direction of the longitudinal axis of the receiving body and has in this end portion a bore into which a fastening means is introduced to clamp a profile piece located in the first rotary body cavity. For example, such a fastening means may be a stud, by means of which a profile piece located in the cavity can be secured against movement in the longitudinal direction. Preferably, both end portions of the rotary body protrude left and right sides of the receiving body and are provided in these end portions with the fastening means to additionally clamp a profiled piece located in the cavity.

Furthermore, the rotary body and the receiving body may be made of metal, preferably of aluminum.

In order to use the clamping lever flexible at different locations on the receiving body, the receiving body may have a plurality of bores, preferably with an internal thread, in order to accommodate the clamping lever or the clamping pin of the clamping lever at these holes can.

In summary, the present invention provides an extremely easy and quick-to-use positioning adapter that not only tightens but also quickly aligns a profile piece or rail of a screw clamp with a desired orientation and position on a fixture of a system table. Due to the extremely compact design, the positioning adapter allows a quick positioning without wasting valuable work space.

Preferred embodiments of the present invention will now be described by way of example and by way of example with reference to the accompanying drawings.

1 shows a schematic perspective view of an embodiment of the positioning according to the invention;

2A and 2 B show a front view and a side view of an embodiment of the positioning according to the invention;

2C and 2D show sectional views of the views 2 B and 2A ;

3A shows a schematic perspective view of an angle element, in which an embodiment of the positioning according to the invention is used to attach the rail of a screw clamp to the angle element; and

3B shows a side view of 3A ,

1 shows a schematic perspective view of a positioning according to the invention 1 , A rotary body 10 is pivotally in a receiving body 20 stored. For this purpose, the receiving body 20 one to the dimensions of the cylindrical rotary body 10 adapted cavity 21 on, so that the rotary body 10 at least partially into the cavity 21 of the receiving body can be recorded. The receiving body 20 is to one side 22 open and partially surrounds the outer periphery of the rotating body 10 , The rotary body 10 also has a cavity along its longitudinal axis 11 on. The cavity is sized to receive a profile piece, such as a rail of a screw clamp. In other words, the cavity 11 adapted to the dimensions of the male profile piece (not shown), so that this easily into the cavity of the rotary body 10 can be inserted and is encompassed by this fit. The cavity 11 the rotating body is also to one side 12 open so that the profile piece (not shown) can also be quickly inserted into the rotating body via this opening. For this purpose, the rotary body 10 such in the cavity 21 be twisted that the open side of the rotating body at the open side 22 the cavity is located. In 1A However, the rotary body is rotated 180 ° to this position, so that the open 12 Side of the rotary body 10 and the open side 22 of the recording body 20 about 180 ° twisted to each other. The cavity 11 of the rotary body 10 also has a slot-shaped recess on the non-open side 14 on that the elasticity of the rotating body 10 increases, as when exerting a force on the rotating body 10 the upper and lower half over the at the slot-shaped recess 14 adjacent narrow jetty 17 can slightly rock against each other. The cylindrical rotary body 10 has centrally on its surface a groove-like depression, whereby a circulation groove 13 is formed.

The rotary body 10 has left and right sides of the receiving body 20 outstanding end sections 15 on. At these outstanding end sections 15 are holes 16 mounted in each of which a stud (not shown) is located, which additionally in the cavity 11 located profile piece (not shown) can clamp against displacement in the longitudinal direction. A slight tightening the studs is sufficient here. Too much tightening would lead to a spreading of the rotating body 10 lead and thereby the rotating body 10 against the receiving body 20 jam.

Due to the lateral opening 12 of the rotary body 10 The additional studs are not absolutely necessary because of the cavity 11 encompassing jaws of the rotating body 10 upon exertion of a clamping force by the clamping lever 30 already secure the recorded profile piece in the longitudinal direction.

The positioning adapter 1 also has a fastener 40 that serves the receiving body 20 to attach to a device, in particular a system bore of a welding or assembly table, a bar, a stop, angle or clamping element (see also 3A and 3B ).

At the top of the positioning adapter is a commercially available clamping lever 30 appropriate. By operating the lever, a clamping pin is integrated in the clamping lever integrated threaded insert 31 moved to the rotary body 10 against the receiving body 20 to clamp or to release the clamping. Preferably, the threaded insert of the clamping lever 30 by a serration (not shown) releasably connected to the clamping handle, so that by raising (pulling) of the handle, the serration free and the clamping lever can be pivoted in the most favorable clamping position. The in 1 shown rotating body 10 and the receiving body 20 are made of aluminum.

The structure of the positioning adapter is again based on the 2A to 2D explained in more detail. In 2A and the corresponding section view in 2D the positioning adapter is shown in a front view. 2D shows the positioning adapter in a clamped position in which the clamping pin 31 of the clamping lever 30 in the circumferential groove 13 engages and thereby the rotating body 10 against the receiving body 20 pushes and secures against twisting. Furthermore, the engaging clamping pin causes 31 in that the rotating body 10 not in the longitudinal direction, illustrated by the dashed straight line 2 in 2A , can move. This is the rotary body 10 against falling out of the receiving body 20 secured.

2D continues to show the holes 16 for receiving the stud bolts, by means of which one in the cavity 11 located profile piece against movement in the longitudinal direction 2 can be secured. Thus, the recorded profile piece is secured in the clamped state both rotationally and shear-resistant. In 2D also illustrated is the second hole 23 , which is provided with an internal thread, so that the clamping lever 30 Depending on the available work space can also be used on the lower side.

2 B shows the positioning adapter in a side view. The fastening means used in the present embodiment 40 is configured to be in a predetermined system bore 61 (see. 3A ) can be inserted and attached. For this purpose, the cylindrical outer piece 43 fit into the predetermined system bore 61 plugged. Integrated on the outer piece is an O-ring 41 , the inserted fastener 40 in the system bore 61 secures against slipping. Then a countersunk screw 42 in the fastener 40 plugged in and lies there in an existing 90 ° reduction. By tightening the screw, the fastener 40 to the plane surface of the device 60 drawn.

When comparing the 2 B and 2C is again the through the Umlaufnut 13 conditional groove-like depression clear, in which the clamping pin 31 intervenes.

The 3A and 3B illustrate an application example in which a screw clamp on a system bore 61 an angle element 60 is attached in a desired orientation. For this purpose, the positioning adapter 1 into a system bore 61 of the angle element 60 plugged in and with the fastener 40 attached. The rail 51 the screw clamp 50 gets into the cavity 11 of the turned part 10 inserted, twisted in the desired orientation and then fixed by pressing the clamping lever. The entire positioning adapter 1 can also be rotated about the attachment means so as to be rotatable on the angle member 60 is attached. This allows the screw clamp 50 quickly brought into a desired position and fixed there.

The individual features of the invention are of course not limited to the described combinations of features in the context of the presented embodiments and can also be used in other combinations depending on predetermined device parameters.

In particular, the outer circumference of the rotary body may be closed to include the rotary body cavity or formed open to one side. If the rotary body is designed to be closed, a fastening means integrated in the rotary body is advantageous in order to fix the recorded profile piece relative to the rotary body. If the rotary body is designed to be open towards one side, the recorded profile piece can already be clamped against the rotary body by the clamping mechanism attached to the receiving body. Furthermore, the fastener 40 not limited to the illustrated embodiment, but may be suitably selected depending on the system table to be used or the device to which the positioning adapter is to be attached. Furthermore, the dimensions of the positioning adapter, in particular the rotary body cavity 11 after the male profile piece.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 0541904 B1 [0002]

Claims (11)

Positioning adapter for the spatial positioning of a straight, elongated profile piece, preferably a rail of a screw clamp, with a rotary body ( 10 ), which along a longitudinal axis ( 2 ) a first cavity ( 11 ) for receiving a straight elongated profile piece; a receiving body ( 20 ) with a second cavity ( 21 ), in which the rotating body ( 10 ) is pivotally mounted; a fastener ( 40 ), which is suitable for holding the receiving body ( 20 ) by means of a screw or a system bolt to a system bore of a welding or assembly table, a bar, a stop, angle or clamping element of a 3D clamping system to attach; and a clamping mechanism connected to the receiving body ( 20 ) and ( 30 ) the rotary body ( 10 ) relative to the receiving body ( 20 ). Positioning adapter according to claim 1, characterized in that the rotary body ( 10 ) comprises an integrated attachment means to engage a first cavity ( 11 ) located profile piece relative to the rotary body set. Positioning adapter according to claim 2, characterized in that the rotary body ( 10 ) through the first cavity ( 11 ) along the longitudinal axis ( 2 ) after a first page ( 12 ) is open. Positioning adapter according to at least one of the preceding claims, characterized in that the first cavity ( 11 ) on the non-open side a slot-shaped recess ( 14 ). Positioning adapter according to at least one of the preceding claims, characterized in that the receiving body ( 20 ) through the second cavity ( 21 ) after a second page ( 22 ) is open and dimensioned such that the cylindrical portion on the second side ( 22 ) from the receiving body ( 20 ) stands out. Positioning adapter according to at least one of the preceding claims, characterized in that the rotary body ( 10 ) with a perpendicular to the longitudinal axis ( 2 ) running circumferential groove ( 13 ) and the clamping mechanism is a clamping lever ( 30 ), wherein in a clamping position a clamping pin ( 31 ) of the clamping lever ( 30 ) the rotary body ( 10 ) relative to the receiving body ( 20 ). Positioning adapter according to at least one of the preceding claims, characterized in that an end portion ( 15 ) of the rotary body ( 10 ) in the direction of the longitudinal axis ( 2 ) from the receiving body ( 20 ) and in this end section ( 15 ) the fastening means are inserted around a in the first cavity ( 11 ) to clamp located profile piece. Positioning adapter according to claim 7, characterized in that fastening means are attached to both end portions. Positioning adapter according to at least one of the preceding claims, characterized in that the rotary body ( 10 ) and the receiving body ( 20 ) are made of aluminum. Positioning adapter according to at least one of the preceding claims, characterized in that the circumferential groove ( 13 ) in the middle of the rotary body ( 10 ) is attached. Positioning adapter according to at least one of the preceding claims, characterized in that the first cavity ( 11 ) to the dimension of a rail ( 51 ) a commercially available screw clamp ( 50 ) is adjusted.

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