DE202009012255U1 - Force-absorbing connecting element - Google Patents

Abstract

A force-absorbing connecting element (10) having a force-receiving element (16) with an internal thread (18) and a force introduction element (24) with a bore for a screw (26), characterized in that the force-receiving element (16) between the internal thread (18) and a the force introduction element (24) facing the base plate (14) has a hollow cylindrical portion (20) having an inner diameter which is significantly larger than the outer diameter of the screw (26), and the force introduction element (24) around the bore with a force on the element (16) extending hollow cylindrical projection (30) is provided whose outer diameter approximately to the inner diameter of the hollow cylindrical portion (20) of the force receiving member (16), and which is provided with parallel to its axial direction extending inner beads (32), slots or holes.

Description

The The present invention relates to a force receiving connector with a force receiving element with an internal thread and a Force introduction element with a hole for a screw.

Such force-absorbing connections are found, for example, in vehicle construction Use, especially in the connection of chassis and Subframe (axle). So far, simple screw connections have been made here used. This had the disadvantage that such screw connections can not be produced without play with reasonable effort. The power transmission always took place over the corresponding friction. As a result, on very uneven substrates the vehicle was prone to creaking or creaking noises, especially after a long time Running time is usually a loss of preload and friction then it becomes considerably smaller. So the connection starts below Force influence to move.

Furthermore had the frictional connection with the force application outside the vehicle frame has the disadvantage that at particularly high loads, especially in the case of an accident, a cancellation of the connection was to be feared on the screw.

It is therefore an object of the present invention, such a force-absorbing Further develop connecting element such that a backlash-free connection allows becomes, and thereby a demolition the screw even in case of misfortune can almost be excluded.

According to the invention this Task solved by that the force receiving element between the internal thread and a the force introduction element facing end face a hollow cylindrical Section having an inner diameter that is significantly larger than the outside diameter the screw is and the force introduction element around the hole around with a force extending toward the force receiving element hollow cylindrical approach is provided whose outer diameter is approximately the inner diameter of the hollow cylindrical portion of the force receiving element corresponds and the inner bead extending parallel to its axial direction, Slotted or holes provided is.

Especially it is preferred if the inner beads about to the Outside diameter of Extend the screw inwards. The screw then forms a kind of "stop" for the mobility of the Approach.

On that way a much better power distribution and even better destruction strength achieve the connection especially in the event of an accident.

in the Below is an embodiment of the Present invention explained in more detail with reference to the accompanying drawings. It shows:

1 an inventive force-absorbing connecting element in a sectional view from the side;

2 the force-absorbing connecting element of 1 in the uncut state in a spatial representation;

3 the section perpendicular to the axis of rotation of 2 ; and

4 a spatial representation of a connecting element according to the invention viewed obliquely from above,

1 shows an inventive force-absorbing connecting element 10 , This is in a frame part 12 , For example, the part of a chassis of a vehicle, for example, by welding.

The connecting element itself has a mounting plate 14 which is a force receiving element 16 includes, and the attachment of the connecting element 10 on the frame 12 for example by welding.

This force receiving element 16 has a substantially bell-shaped shape and carries at its upper end a bore 18 with an internal thread. The remainder of the mold is in the form of a stepped hollow cylinder which adjoins the bore 18 with the internal thread a hollow cylindrical section 20 having. The hole 18 with the internal thread and the hollow cylindrical section 20 are each coaxial and perpendicular to the surface of the frame part 12 arranged. The transition between them is stepped.

Next is a force introduction element 24 provided, which by means of a screw 26 and a possibly disposed below the screw head washer in the force receiving element 16 is screwed. This force introduction element 24 can be connected to the other component, such as a subframe or an axle of a vehicle.

The force introduction element 24 has the outer shape of a cylinder, wherein the passage opening for the screw 26 from a cylinder 30 is surrounded coaxially.

The cylindrical approach 30 that the passage opening for the screw 26 surrounds, has an outer diameter which is approximately the inner diameter of the hollow cylindrical portion 20 of the force receiving element 16 equivalent.

According to the invention, this cylindrical section 30 of the force introduction element 24 with five equally spaced around the circumference, parallel to the axis of rotation of the bore for the screw 26 running inside beads 32 Mistake.

According to the invention, these beads serve 32 to the cylindrical section 30 To make resilient in the circumferential direction, so that a positive connection between the cylindrical portion 30 of the force introduction element 24 and the hollow cylindrical inner surface of the section 20 of the force receiving element 16 is formed.

For this purpose, the outer diameter of the cylindrical portion 30 of the force introduction element 24 before mounting in the force receiving element 16 have a slightly larger outer diameter than the inner diameter of the hollow cylindrical portion 20 of the force receiving element 16 , Then, this section is slightly compressed in the circumferential direction during assembly of the two parts, and in this way a resilient positive locking is ensured.

Alternatively, the inner diameter of the cylindrical portion 30 of the force introduction element 24 in the area of the indented inside beads 32 an inner diameter of the passage opening for the screw 26 which is smaller than the outer diameter of the screw 26 , By inserting the screw 26 the corresponding diameter is then widened so that in this way the positive connection with the hollow cylindrical section 20 of the force receiving element 16 comes about.

2 shows the uncut representation of the 1 so that the "bell shape" of the force receiving element 16 is also very clear from the outside.

3 shows the section perpendicular to the axis of rotation of 2 , In this illustration, the inner beads 32 especially clear. It is particularly preferred if the inner beads 32 pushed so far that they are inside the shaft of the screw 26 abut while the outer surface of the cylindrical section 30 against the inner wall of the hollow cylindrical section 20 of the force receiving element 16 is pressed. Alternative to the inside beads 32 Slots or holes may also be provided.

4 finally shows an inventive force-absorbing connecting element 10 Seen in three-dimensional spatial representation obliquely from above, wherein the attachment of the connecting element 10 on the frame 12 becomes particularly clear.

in the Contrary to the prior art, in which a frictional connection was provided with a normal screw, the inventive elastic-positive connection has the huge Advantage on that in use in vehicles ground vibrations and other stresses no longer by creaking or squeaking Sounds shown in the displacement of the frictional connection become. Furthermore, the compound according to the invention is able to considerably larger lateral forces, in particular in case of an accident, take up as force introduction element and force receiving element are directly interlinked, so that the corresponding loads no longer over the shaft of the screw guided Need to become. this leads to namely in the prior art in the event of accidents often tearing off the Screw and thus to a destruction of the connection.

In addition, the introduction of force according to the invention into the frame 12 the advantage that the forces are more favorable, that is, without such large peaks are introduced into the frame, since the force transfer is no longer on the surface of the frame, but within the frame 12 he follows.

This will cause a possible buckling of the frame 12 delayed in the event of overload.

Claims (2)

Force-absorbing connecting element ( 10 ) with a force receiving element ( 16 ) with an internal thread ( 18 ) and a force introduction element ( 24 ) with a hole for a screw ( 26 ), characterized in that the force receiving element ( 16 ) between the internal thread ( 18 ) and a force introduction element ( 24 ) facing base plate ( 14 ) a hollow cylindrical section ( 20 ) having an inner diameter that is significantly larger than the outer diameter of the screw ( 26 ), and the force introduction element ( 24 ) around the bore with a force acting on the ( 16 ) extending hollow cylindrical approach ( 30 ) whose outer diameter is approximately equal to the inner diameter of the hollow cylindrical section ( 20 ) of the force receiving element ( 16 ), and the parallel with its axial direction extending inside beads ( 32 ), Slits or holes. Force-absorbing connecting element ( 10 ) according to claim 1, characterized in that the inner beads ( 32 ) down to the outer diameter of the screw ( 26 ) extend inwards.