DE102010018644A1 - bolt - Google Patents

Abstract

The invention relates to a bolt (10) and a method for its production. The bolt (10) has a groove (22) for holding a further body, the groove (22) being at least partially cold-free-formed.

Description

The invention relates to a bolt, and a method for producing such a bolt.

A bolt is generally an elongate component which can be used in many ways and which can be designed as a connecting means (eg as a wheel bolt) or as a function carrier (eg as a trunnion for a ball joint of a ball joint). Such a bolt may be in the form of a cold-formed axial cylindrical piece.

A bolt may have on its outer peripheral surface a groove which serves for the axial positioning of a further component, which is in the assembled state in contact with the bolt. Is exemplary in the 3 and 4 each shown a bolt in the form of a conventional ball stud, which is used in a ball joint. The ball stud has a groove 60 for receiving a bellows mouth of a sealing bellows. The production of such a groove can be done by machining. Alternatively, it is known to produce the trunnion of such a ball stud by cold heading, wherein the contour of the groove is produced by an additional tool which is supplied laterally during upsetting, that is approximately at an angle of 90 ° with respect to the longitudinal axis of the trunnion. Under trunnion is the ball stud geometry without the ball to understand. Both of these production methods are complicated in terms of the required processing steps and the necessary tools and increase the manufacturing cost of the bolt.

Accordingly, the invention has for its object to provide a bolt and a method for its production, which is possible in a simplified manner.

This object is achieved by a bolt having the features of claim 1 and by a method having the features of claim 5, respectively. Advantageous developments of the invention are defined in the dependent claims.

A bolt according to the invention has a groove in order to hold or position another body therein. The groove is characterized in that it is made at least partially cold-free formed. Preferably, the groove may be bounded in the axial direction of the bolt by a Materialaufwurf that made cold-free formed and forms an undercut in the axial direction of the bolt.

The essence of the invention is that the groove of the bolt is at least partially cold-free-formed or cold-compressed in its axial direction, and this simple or standardized tools that are moved only axially in the direction of the longitudinal axis of the bolt during the molding process , can be used. To produce the material Aufwurfs a simply designed tool, the undercut or the contour of the groove are formed without an interaction with another tool. In other words, the contour of the groove is formed only by a mold half in a free-form process, wherein with an oppositely arranged mold half in a known manner acting on the trunnion holding force is ensured. In the production of the groove is therefore no additional mold into the groove to the shaping, d. H. orthogonal to the longitudinal axis of the bolt introduced. As a result, the nature of the tool and the actual forming process for cold-working the bolt are easy and result in low production costs of the bolt.

In an advantageous embodiment of the invention, the bolt may have a collar portion adjoining the groove, which is arranged on one side of the groove and opposite to the material Aufauf. This has the advantage that only one area of the groove, namely the abovementioned material throw, is produced by the cold heading with the undercut. The opposite region of the groove is formed or limited by the collar portion, which is usually provided anyway in a bolt in order to connect this suitably with other components. Thus, the collar portion assumes a dual function, whereby the bolt is inexpensive to produce overall.

• – Bereitstellen eines länglichen Metallelements, und
• – Kaltumformen des Metallelements in Richtung seiner Längsachse, so dass dabei zumindest ein Teil der Nut und/oder ein Materialaufwurf, der die Nut begrenzt, erzeugt werden.

According to a method according to the invention for producing a bolt with a groove, the following steps are provided:

• - Providing an elongated metal element, and
• - Cold forming of the metal element in the direction of its longitudinal axis, so that thereby at least a portion of the groove and / or a Materialaufwurf that limits the groove, are generated.

In a conventional method for producing a bolt by cold deformation by upsetting in the axial direction or longitudinal direction of the bolt is usually a tool is used, the two tool halves are moved toward the longitudinal axis of the metal element or the bolt relative to each other substantially. The basic idea of the method according to the invention lies in the fact that the production of the groove or at least a part thereof takes place by cold-working / compression of the metal element solely in the direction of its longitudinal axis. Conveniently, a material throw is generated here, which limits the groove axially. The Materialaufwurf forms an undercut in the axial direction of the trunnion, which forms part of the contour of the groove.

When performing the axial cold forming of the metal element, a tool with two tool halves is used, which are moved in the direction of the longitudinal axis of the metal element and toward each other. In an advantageous embodiment of the method according to the invention, the contour of the groove is formed only by a mold half in a free-form process. The feature freeform process in the sense of the invention means that the contour of the tool half, which comes into contact with the bolt during the formation of the groove, does not necessarily have to coincide with the resulting contour of the groove or a part thereof, since the resulting contour of the groove is solely from upsetting or cold forming of the metal element results.

In an advantageous embodiment of the method according to the invention, the contour of the groove is produced during cold forming of the metal element, without causing a mold into the groove to its shape, d. H. from a direction transverse to the longitudinal axis of the metal element is introduced. As a result, the bolt is made exclusively by tool movements that take place in the direction of the longitudinal axis of the trunnion. In this way, the forming process and the associated machine technology is simple and inexpensive.

The elongated metal element is expediently a rotationally symmetrical standard body which has no undercut. Such a standard body can be based on a semi-finished z. B. in the form of a metal wire or the like also by an axial cold forming or -auchuchen alone in the axial direction, d. H. in the direction of the longitudinal axis of the metal wire. The standard body without the undercut may, for example, have a stepped portion in the form of a shoulder portion or the like, with which a tool for subsequent cold working of the metal element comes into contact for producing at least a part of the groove and / or the material throw.

It is understood that the features mentioned above and those yet to be explained below can be used not only in the particular combination given, but also in other combinations or in isolation, without departing from the scope of the present invention.

The invention is illustrated schematically below with reference to an embodiment in the drawing and will be described in detail with reference to the drawing.

Show it:

1 a side view of a bolt according to the invention,

2 a sequence of steps, such as from an elongated metal element by means of an axial cold forming of the bolt according to 1 is produced, and

3 . 4 conventional bolts according to the prior art.

1 shows a bolt according to the invention 10 in a side view. The bolt 10 is with respect to its longitudinal axis 12 rotationally symmetrical. The bolt 10 has a first end area 14 on, for fixing a (in 1 not shown) further component is provided. The bolt 10 has a collar portion approximately in a central area 20 on, the maximum diameter range of the bolt 10 represents. Below the collar section 20 towards a lower second end region 16 , can on the bolt 10 Connecting means in the form of a thread 18 or the like, by means of which the bolt 10 can be connected to other components. Adjacent to the second end region 16 points the bolt 10 an attack surface 19 for an assembly tool.

The collar section 20 can form a contact area, by means of which the bolt 10 can be brought to rest on other components, so that a suitable power transmission between the bolt 10 and these components is guaranteed. Between the collar section 20 and the first end area 14 points the bolt 10 a groove 22 on top of that by a material throw 24 is limited. The material charge 24 forms in the axial direction of the bolt 10 an undercut whose function is explained in detail below. The representation of 1 clarifies that the groove 22 between the material throw 24 and the collar portion 20 is formed, wherein an edge region of the collar portion 20 the Materialaufwurf 24 opposite.

The material charge 24 and thus the upper portion of the groove 22 According to the invention by an axial cold upsetting of the bolt 10 in the direction of its longitudinal axis 12 produced. 2 illustrates a manufacturing process for the formation of the material Aufwurfs 24 ,

The production of the bolt 10 begins with the provision of a metal element in the form of a blank, for example a piece of metal wire 8th who in 2 is shown above. For simplicity, such a metal element is always referred to hereinafter as a wire, without being limited thereto. The wire 8th is elongated and cylindrical, thus rotationally symmetric. In a known manner, the wire 8th first by axial compression or axial cold forming to an intermediate product 9 ( 2 , middle representation) shaped, which has no undercuts. By means of such axial compression two halves of a tool are moved in a known manner in several steps relative to each other and thereby open and closed, namely in the direction of arrow A of 2 , The movement of the tool halves is thus in the direction of the longitudinal axis 12 of the wire 8th ,

The intermediate 9 is in 2 shown in the middle. Here is in the section between the first end region 14 and the collar portion 20 a shoulder section 26 formed, the diameter of which starting from the first end portion 14 in the direction of the collar section 20 increased. The shoulder area 26 go in the direction of the collar section 20 in a bolt section 27 above. In other words, the bolt portion 27 between the shoulder area 26 and the collar portion 20 arranged. The bolt section 27 and the shoulder section 26 meet in the production of the groove 22 an essential function, wherein the bolt portion 27 This forms a connection surface for the positioning of other components.

Starting from the intermediate product 9 In a next step, it becomes a suitable tool from the direction of the first end region 14 on the wire or bolt 10 placed. This tool comes into contact with the shoulder portion 26 , By an axial process of the tool (in the direction of arrow A of 2 ) down, ie in the direction of the collar portion 20 , the shoulder section becomes 26 to the Materialaufwurf 24 reshaped, leaving the bolt section 27 the groove 22 is produced. The shape of the groove 22 depends on the existence and the design of the bolt section 27 and the material throw-up 24 from. It is important that the bolt section 27 a sufficient length in the direction of the longitudinal axis of the wire 8th has, so that between the material throw 24 and the collar portion 20 the groove is created. In contrast, the shoulder section may 26 not directly in the collar section 20 pass.

In 2 are the groove in the lower picture 22 or the material throw 24 is shown in the finished state. The material charge 24 forms in the axial direction of the bolt 10 an undercut, so that in interaction with an edge region of the collar portion 20 out of it the groove 22 results.

Regarding the deformation of the shoulder section 26 The tool is to be understood that this is a free-form process. This means that when deforming the shoulder section 26 through the tool the contour of this area of the groove 22 forms independently, without causing a contact area of the tool with the resulting contour of the groove is complementary. It is understood that during cold diving of the shoulder section 26 through the tool another tool half in contact with the bolt 10 passes, for example at a lower edge of the collar portion 20 , wherein this edge of the collar portion 20 opposite to the shoulder section 26 is. By means of this further tool half, in contact with the lower portion of the collar portion 20 is, a necessary reaction force is generated. This additional tool half does not come into direct contact with the shoulder portion 26 and is therefore not at the free-form process for the material disposal 24 involved.

The bolt explained above 10 may be the basis for making a ball stud for a ball joint, wherein in the groove 22 a bellows mouth of a sealing bellows (not shown) is positioned axially with respect to the ball stud. Alternatively, the bolt may also be suitable for any other purposes if another component or another body in contact with the bolt 10 located axially with respect to the bolt 10 is to be positioned.

Claims (9)

Bolt ( 10 ), with a groove ( 22 ) for holding another body, characterized in that the groove ( 22 ) is made at least partially cold-free formed. Bolt ( 10 ) according to claim 1, characterized in that the groove ( 22 ) in the axial direction of the bolt ( 10 ) by a material throw ( 24 ) is made cold-free formed and an undercut in the axial direction of the bolt ( 10 ). Bolt ( 10 ) according to claim 2, characterized in that the material throw ( 24 ) by a cold freeforming in the axial direction of the bolt ( 10 ) is made. Bolt ( 10 ) according to claim 2 or 3, characterized in that the bolt ( 10 ) a collar portion ( 20 ), which is adjacent to the groove ( 22 ) and at a the Materialaufwurf ( 24 ) opposite side of the groove ( 22 ) is arranged. Method for producing a bolt ( 10 ) with a groove ( 22 ), with the steps: Providing an elongate metal element ( 8th . 9 ), and cold forming the metal element ( 8th . 9 ) in the direction of its longitudinal axis ( 12 ), so that at least a part of the groove ( 22 ) and / or a material throw-up ( 24 ), which the groove ( 22 ) are limited axially generated. Method according to claim 5, characterized in that during cold forming of the metal element ( 8th . 9 ) two opposing mold halves substantially in the direction of the longitudinal axis ( 12 ) of the metal element and are moved in the direction relative to each other, wherein the contour of the groove ( 22 ) is formed only by a mold half in a free-form process. Method according to claim 5 or 6, characterized in that during cold forming of the metal element ( 8th . 9 ) the contour of the groove ( 22 ) is produced, without causing a mold in the groove ( 22 ) for shaping it from a direction transverse to the longitudinal axis ( 12 ) of the bolt ( 10 ) is introduced. A method according to claim 6 or 7, characterized in that the contour of the mold half, which during cold forming of the metal element ( 8th . 9 ) comes into contact with the resulting contour of the groove ( 22 ) is not complementary. Method according to one of claims 5 to 8, characterized in that the metal element ( 8th . 9 ) is a rotationally symmetric body without undercut.

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