DE102014105595B3 - Forming tool with anti-rotation as well as floating tool components - Google Patents

Abstract

The invention relates to a molding tool (2) for the molding of workpieces, which has at least one first molding part 4, which in turn has a cavity (8) for the shaping of the workpiece. Furthermore, a holding device (10) serves for holding components (12) on the shaping part (4, 6). The invention is characterized in that the holding device (10) has storage means (14) for floating component storage, which are set up and configured such that at least one component (12) is secured against rotation in the circumferential direction (16) to its component axis (18) and radially whose component axis (18) is movably mounted along at least one first guide direction (20).

Description

The invention relates to molds for the molding of workpieces, which are equipped with at least one first molding part having a cavity for the molding of the workpiece.

Forming tools of the type in question are known for use in particular with machine tools, as they will be described in more detail below, and are used to form workpieces during a molding process by forming or prototyping.

For the molding of workpieces in larger quantities molds of the type concerned are often used with a long service life, which are also known as permanent molds. Forming tools of the type in question in their training as so-called permanent molds can be used to produce a variety of workpieces by means of only a copy of a corresponding mold, whereby they are suitable for the production of series parts.

In contrast, for the production of individual parts or small series molding tools of the type concerned are designed as so-called lost forms, which have over the aforementioned variant of a permanent mold on a much shorter life.

Against this background, molds for forming workpieces of the type in question are equipped with at least one first molding part, which has a cavity for the shaping of the workpiece. The cavity may be formed during the molding process as an open or closed cavity.

In the cavity for forming a workpiece, a semifinished product or a casting compound is introduced in order to adapt it to the desired shape or the desired volume by molding during the molding process.

In particular, in casting tools, for example, for aluminum as well as gray cast iron, moreover mold cores are used, which may lose their usability after the molding process. In this respect, a mold of the type concerned for the essential shape determination of the workpiece only have a molding part, the u. a. is added to mold cores, which are used for the molding process in the tool or arranged on the tool, for example, to determine the wall thickness or set the inner surface of the workpiece.

Furthermore, known molds of the type in question are set up and designed as an injection mold, for example for processing plastics for the shaping of a workpiece.

Furthermore, slides are common, which serve to realize undercuts in a workpiece. The respective slides are arranged on at least one forming part, and are moved during the molding process in a shaping position, while being moved to the demolding, which adjoins the molding operation in an initial position to remove the workpiece from the mold can ,

Often, in a mold of the type in question, a first molding part is used with a second molding part, in which the first molding part is detachably attachable to a second molding part which, when joined together, defines a cavity which determines the shape and volume of the workpiece to be molded ,

In particular, at least one of the molding parts consists of different components that are held in the use state for the formation of a workpiece on the relevant tool part. They can be used for the shaping of different components that determine the shape and the volume of the workpiece to be produced during the molding process. In order to hold the necessary components on at least one or the forming part, molds of the type in question are equipped with a holding device for holding components on the molding part, are held by the components corresponding to the mold for their function provision or fulfillment.

These components assume different functions and can be arranged substantially immovable as well as movable on the relevant tool part.

In the case of an aforementioned molding tool as a casting or injection molding tool, various components are provided which, on the one hand, determine the shaping of the workpiece to be formed and also contribute to the demolding of a workpiece from the molding tool following the molding process.

The same applies analogously to casting tools in which a molding tool is constructed similar to an injection molding tool. To produce a workpiece, at least two tool parts are likewise provided which, in an assembled state, form or delimit a cavity, a cavity, the / the Volume and the shape of the workpiece to be generated pretends.

In order to be able to remove a workpiece, which has been produced by a respective molding tool as a cast or injection molded part of the mold or demold this, so-called ejector are used in an ejection (direction along the component axis of the ejector) movable at least are held one of the forming parts.

The abovementioned components in their design as ejectors serve, in particular, to enable a workpiece produced by a molding tool of the type in question to be better removed from this molding tool after the molding process (demoulding). This is necessary in particular if the shape of the workpiece produced has undercuts or has a shape which makes demolding from the molding tool more difficult.

Furthermore, the aforementioned components may be formed as a slide, column, quill, mold core and the like.

In the known molds of the type concerned, the problem is shown to hold components more precisely to the mold, for example, and in particular to achieve the desired shape of the workpiece to be formed as little or no Nachbearbeitungsaufwand as possible.

This results in a difficulty in the previously known molds characterized in that components as components of a mold concerned to store such that these components to compensate for u. a. Shape as well as position tolerances, tolerance chains as well as caused by wear or temperature fluctuations geometric dimensional changes with a lower movement tolerance are movably held on the mold.

However, the currently known molds have a restriction to the effect that the currently used holding means do not allow sufficiently accurate storage or leadership of the meeting components.

For example, this is off DE 10 2005 012 204 A1 a fast clamping for a shaping part by means of a pin, wherein the pin is moved to its movement from a locked state in that it is fixed in terms of its mobility, in a Bewegbarkeitszustand so that it is movably mounted to the upper mold part.

Against this background, the invention has the object to improve an arrangement of components on a mold of the type in question, in particular to cause the leadership of a corresponding component can be made more precise and also tolerances of the component as well as tolerances of the component surrounding areas to be able to compensate better.

The invention moves away from the task given her first by the idea of providing fixed restraints for the component in question to achieve a positive guidance by appropriate Anformungen or a corresponding shape of the component, which causes the component in question more accurately or more precisely a mold of the type in question is stored.

Furthermore, the invention is based on the idea of changing the materials used of a component in such a way that it is of a form-flexible design in order to compensate for corresponding tolerances by deformation of the component.

The following statements on the invention relate to a state of use of a mold according to the invention, in which the individual components are arranged in order to fulfill the function for the intended use of a mold according to the invention or the mold is used for its use.

Rather, the invention solves their task by the fact that the component in question is mounted so floating that a guide for the component is provided, through which the component is guided radially to the component axis in at least one direction along a guide direction.

The invention has the objective of leaving the previously known components as components of a mold according to the invention as unchanged as possible.

To this end, the invention provides for a mold according to the invention that the holding device has a floating component storage means, which are set up and configured so that at least one component in the circumferential direction to the component axis against rotation and radially mounted to the component axis along at least one first guide direction movable or is guided by movement.

According to the invention, the component axis of a component is the axis in which a component is elongated. The axis in which a component is elongated results in the sense of the invention first by the geometric dimensions, so that the geometric length in the direction of the component axis with respect to the other length dimensions is the largest. Furthermore, in the context of the invention, the component axis may possibly also result from the provision of a function, so that the component in the direction of the component axis has an expression for functional provision, which in particular does not serve its own bearing on the molding tool.

The specification of the movement tolerance within a floating component mounting can be effected according to the invention in that at least one guide body is used, on which a guide for the component is formed, which in turn causes the component to be guided in one direction.

For this purpose, the invention is provided in a further advantageous embodiment, the mobility of the component provided radially to the component axis by means of a guide body. This allows the mobility of the component in a direction radially to the component axis, while the guide itself is arranged in a direction transverse to the aforementioned direction and also radially to the component axis movable on at least one of the forming parts.

This results for the floating component storage by the respective storage means a crossed motion guide of the component in two radial directions to the component axis.

Accordingly, it is advantageously achieved that a dependence of the guides to each other is used to guide the movement of the component by the storage means for the floating component storage, which make structurally complex adjustments dispensable.

In this respect, arises by the possibility of compensation of geometrical tolerances, as they were mentioned in extracts, an advantage of the invention in an increase in the service life of a corresponding mold or its duration of use. In addition, advantages arise in the maintenance of a mold according to the invention, since when a wear limit is reached, this guide body can be exchanged without subjecting the tool to further processing.

Another advantage is that the realization of a floating component storage is made possible in a simple manner by a guide body. This in turn results in cost advantages.

Therefore, a corresponding advantageous development of the invention that the storage means for floating component storage at least have a guide body on which the component is arranged radially to its component axis and relative to the guide body on a guide, in particular a linear guide, movable in the first guide direction, wherein the guide body is in turn arranged to be movable transversely to the first guide direction and radially to the component longitudinal axis on at least one of the shaping parts on a second guide in a second guide direction.

There is the advantage that a more precise motion control in a simple manner and inexpensively feasible, which is achieved at the same time that an undesired rotation of the component is prevented about the component axis, whereby a rotation for the component is realized by the storage means for Bautteillagerung.

The advantage of a mold according to the invention is u. a. in that in a simple manner an anti-rotation of a component around its component axis is made possible, while still allowing lateral / radial displacement of the component to the component axis.

Furthermore, it is achieved that the mobility of the component is adjustable radially to the component axis by the motion guide means of the storage means for floating component storage. In this respect, it is inventively possible to limit the possible distances of the component in the radial direction to the component axis. Furthermore, advantageously, the mobility of the component in the direction of its component axis can be limited.

As a result, according to the invention, it is possible to guide the component more precisely in relation to the existing holding means in the corresponding directions and likewise to prevent an internal rotation of the component about its component axis.

It is determined by the guide body, in which manner a movement of the component can take place in a guide direction. Thus, the guide may be formed as a linear guide for the component, along which the component is at least partially or substantially rectilinearly guided by movement. Likewise, it is possible that a movement path for the mobility of the component is predetermined, which can be designed differently from or in addition to a linear guide for the component.

It creates the advantage that allows in the invention by a floating mounting of the component as well as causes this is held against rotation about its component axis on at least one molding of a mold according to the invention. This has the goal that an undesired rotation of the component about its component axis is prevented or limited to a tolerable extent.

A corresponding rotation for the component can be achieved according to the invention in many ways. Thus, it is possible to exploit the shape of the component and form the guide for the component so complementary to at least one mold portion of the component, that a rotatability about the component axis is prevented, however, a mobility of the component is allowed in at least one direction radially to the component axis.

Furthermore, the invention provides the advantage that when a component is designed as an ejector, the motion control of the ejector is improved along a component axis, insofar as the shape of the tool to be positioned during the forming process by contact of the ejector with the workpiece in by an inventive freedom of movement of the ejector unwanted way is not unnecessarily negatively affected.

As a result, it is likewise achieved according to the invention that a respective ejector essentially leaves the dimensional accuracy of the workpiece undisturbed. It is advantageously achieved that the post-processing of a corresponding workpiece can be omitted, so in addition to time also cost advantages.

Furthermore, the invention favors a lower production price or the production of a workpiece.

• – Druckguss (Al, Mg, und deren Legierungen),
• – Spritzguss (Kunststoff),
• – Kernkästen (Organik, Anorganik, Coldbox, Hotbox),
• – Kokillen,
• – Umformtechnik (Schmieden, Tiefziehen).

The invention has broad application fields, so that a molding tool according to the invention can be used, for example, and in particular in the fields of:

• Die casting (Al, Mg, and their alloys),
• - injection molding (plastic),
• - core boxes (Organik, Inorganik, Coldbox, Hotbox),
• - molds,
• - Forming (forging, deep drawing).

The invention provides particular advantages in the use of a mold according to the invention in conjunction with a machine tool for forming workpieces by the use period or the service life is increased, whereby the production of corresponding workpieces can be done over a longer period. In this respect, a mold according to the invention is provided, for example, and in particular also for use for a machine tool.

The term machine tool in the context of the invention also includes machines for the shaping of workpieces by Ur- or forming. In this respect, a machine tool, for example, and in particular a forming press, an extrusion machine, a press or punch, or a machine for plastics processing as well as a machine for the production of cast workpieces may be within the meaning of the invention. For this purpose, at least one inventive mold on a particular machine tool for the formation of a workpiece, in particular removable, held.

In this respect, molds according to the invention can be designed as permanent molds which serve to define a mold for a tool piece which assumes the desired shape or volume after the molding process.

Therefore, a mold according to the invention can be constructed or designed and configured in different ways. In this case, the mold may be determined by a shaping molding part, which is filled, for example, with a casting material, so that after reaching a sufficiently solid state of the casting material of the molding process is completed. Then, the workpiece can be removed after its formation of the mold according to the invention during the demolding process.

For complex shaping of workpieces, the mold for the workpiece can be divided into at least two shaping parts of a molding tool according to the invention.

In this respect, an advantageous development of the invention provides a mold for the shaping of workpieces, which is characterized by at least a first forming part, which is releasably attachable to a second forming part such that the forming parts in the joined state limit a cavity, the shape and the Volume of the workpiece to be formed determined.

Components which serve, for example, and in particular the provision of a guide or the shape specification for a workpiece to be formed, are to be stored by a mold according to the invention such that they are either held or stored for their intended function provision either relatively immovable or movable on at least one of the forming parts , To the design effort of the storage means or an arrangement of the storage means on the To keep mold small, provides an advantageous development of the invention that the storage means for floating component storage provides the desired mobility for the component in the direction of its component axis without the storage means for floating component storage itself must perform a corresponding movement in the direction of the component axis of the component ,

In contrast, the invention also takes into account that the storage means for floating component mounting of the component in the direction of the component axis are slidably disposed on at least one or the forming part, thereby enabling a corresponding mobility of the component.

Therefore, the advantageous development of the invention provides that the component is mounted in the direction of its component axis relative to the storage means for floating component storage movable or immovable. As a result, a proper movement of the storage means for floating component storage is dispensable, whereby the design effort is reduced accordingly.

The realization of a floating storage can be done in many ways. For example, it is possible to provide the component, which is to be stored in a floating manner, with shapes which cause, for example, a rotation / rotatability of the component about its component axis (self-rotation) to be prevented.

For this purpose, the invention for a movement guidance of the component takes into account that the component is accommodated on at least one of the linear guides such that it is held against rotation, in particular to its component axis, on one of the linear guides. Accordingly, the invention also provides that the aforementioned linear guide is in turn guided by a second linear guide such that it is guided transversely to the movement direction provided by it for the component on a tool part of a molding tool according to the invention.

This results in a related leadership combination of linear guides, is caused by the fact that two directions of movement, which are directed transversely to each other, are predetermined by a corresponding inventive floating storage.

For this purpose, an advantageous development of the invention is provided that the guide or the second guide is a linear guide.

To limit the mobility of the component in at least one radial direction to the component axis, a further advantageous embodiment of the invention based on the fact that the guide body has a hole in which the component is at least partially received between the free ends, wherein the hole edge of the hole limits the mobility of the component along the first guide direction or radially to the component axis.

According to the invention, it is achieved that the movement tolerance of a component can be further restricted or specified. Moreover, it is advantageously achieved in the context of the invention that the directions or the mobility by which the component is allowed to move in one direction are determined by the floating position. Moreover, it is possible to perform the floating component storage such that the means for floating component storage provides adjustability of the guide, whereupon movement tolerances are also adjustable. This can be achieved for example by the shape of the hole, which can be shaped as a slot, oval as well as circular hole and the like.

An inexpensive and simple design of the hole can be realized by a substantially circular hole, wherein the mobility of the component in the radial direction to the component axis in turn by the type or shape of the guide, which is provided by the guide body for the component, can be limited.

To realize an anti-rotation device to prevent an internal rotation of the component about its component axis, an adapter for the component is provided in a further advantageous embodiment of the invention, by means of which the component is arranged to move on the guide body. For this purpose, it is correspondingly taken into account that a free end, in particular the head, of the component is held in a force-fit or positive fit to an adapter by means of which the component is movably arranged on the guide of the guide body along the first guide direction.

In order to leave the components, which are to be stored by the storage means for floating component storage, as possible uninfluenced, is provided in a further advantageous embodiment of the invention that the leadership of the guide body for positive guidance of the component, in particular by means of the head of the component formed is.

For the purposes of the invention, the head of the component is formed at one of its free ends, which serves in particular for the mounting of the component.

The holding of the component to the adapter can be done in different ways. So this example, and in particular by welding, gluing or clamping as well as by means of a screw and the like to be held on the adapter.

It results according to the invention the advantage that an adaptation of the component for the floating storage can be omitted, which in turn cost advantages. Furthermore, a simple interchangeability of the component is achieved in case of wear. Furthermore, the storage means according to the invention can be used for floating Bautteillagerung for various components, with only the adapter must be matched to the component accordingly.

Therefore, in order to avoid further adaptations of the component, it is provided in a development of the invention that an adapter is used, via which the component is guided on the guide groove.

This creates the advantage that no further requirements are placed on the component for its floating storage. The adaptation of the component to the motion guide by the guide body is realized in accordance with the adapter. This makes it possible to use standards for the construction of a mold, which are commercially available and therefore inexpensive to purchase.

Accordingly, it is provided in a further advantageous embodiment of the invention that a free end, in particular the head of the component force or form or materially held on an adapter, by means of which the component on the guide of the guide body along the first guide direction is movably arranged.

For this purpose, it is provided in a further advantageous development of the invention that the guide body for forming a guide for the component has at least one guide along which the component is guided via the adapter. Accordingly, for example and in particular a linear guide in a simple manner can be realized. The adapter can interact by its outer edges with the Nuträndern to, in particular linear, leadership of the component.

Alternatively, it is possible to directly use the shape of the component for its movement guidance by the floating component storage means for dispensing with the use of an adapter for moving the component for the purpose of its floating mounting.

This results in the advantage that a free end of a component can be used to store the component by the storage means for floating component storage and to guide regarding its mobility.

According to the invention, it is achieved by a form-fitting guide that the component is guided in a guided manner along the guide or in the guide direction by means of the shape of the component and its interaction with the shape of the guide. In addition, it is possible to guide the free end of the component or its head along a guide groove for guiding the movement of the component. For this purpose, in a simple manner, the guide body have at least one guide groove through which the component is guided, for example, and in particular by means of the head thereof.

The guide body itself can be held by means for supporting the guide body on at least one molding part of a mold according to the invention. The arrangement of the guide body on the molding part is achieved that the movement tolerance of a component by the mutually acting guides can be specified by the storage means for floating component storage, for example, the mold has at least one guide, for example, and in particular by a recess in a simple way and manner is feasible.

Furthermore, it is possible to hold or arrange the guide body via further fastening means on the molding part. For this purpose, it is possible inter alia to realize the motion guide for the guide body by means of at least one second guide body, which in turn is arranged on the molding part of a molding tool according to the invention. This part is dispensable in that the motion guide for the guide body is provided directly to the relevant molding part.

The movement tolerance, which can be specified by the storage means for floating component storage, can be achieved in a simple manner, for example, by a recess, a motion guide for the guide body, wherein the edges or the edges of this recess a guide for the component specify or specify its movement tolerance. For this purpose, it is provided in an advantageous development of the invention that the guide body is at least partially arranged in a recess of a forming part such that the mobility of the guide body along the second guide direction guided and limited by the Ausnehmungsränder or edges of the recess.

For the further motion control of a component is considered in a further advantageous embodiment of the invention that at least one of the forming parts has a component guide for the component in which the component is guided for movement along its component axis movement. In cooperation with the storage means for floating component storage according to the invention the advantage is achieved that a restriction of movement is achieved by the aforementioned interaction.

Further advantages result in the case of a component which is mounted movably in the direction of its component axis on at least one of the molded parts. For this purpose, taken into account in an advantageous development of the invention, that the storage means for floating component storage for storage of at least one ejector are set up and designed, which serves the simplified demolding or removal of the workpiece after its formation by a mold according to the invention.

According to the invention, the problem is solved that the individual tool components in the manufacturing process high temperature differences lead to corresponding thermally induced geometric changes of the component or ejector, which are inventively countered by a corresponding mounting of the component. Among other things, resulting from thermal stresses form, position or geometry changes of the component or its dedicated arrangement, which can be counteracted by a flexible inventive storage of a corresponding ejector unnecessarily high load on the component or its failure.

The invention provides, inter alia, the advantage that is caused by an inhibition or significant restriction of the rotation of the ejector about its component axis that the ejector for demolding of the workpiece can act on the outer or inner contour targeted.

Finally, it is provided in an advantageous development of the invention that a molding tool, as has been described above, is used with a machine tool in order to be able to form a workpiece, for example, and in particular during a molding process.

Thus, the invention also includes the use of a molding tool according to the invention with a machine tool, whose expression has been explained in the introduction.

Furthermore, it is provided according to the invention, in each case in one piece or in one piece to design or execute the guide body or the adapter for the component. This results in further cost advantages by the invention.

Advantageously, it is achieved by the invention that different thermal expansions due to different temperatures, manufacturing tolerances of the components as well as a compensation of tolerance chains in a simple and effective manner are realized.

The invention will be explained in more detail with reference to the accompanying drawing, in which an exemplary embodiment of a molding tool according to the invention is shown as representative of a plurality of molds formed according to the invention.

All claimed, described and illustrated in the drawings features taken alone and in any combination with each other the subject of the invention, regardless of their summary in the claims and their back references and regardless of their description or representation in the drawing.

The figures of the drawing show a possible embodiment of a mold according to the invention in each case a schematic representation. The representations are therefore in particular not to scale and for a better overview of the understanding supporting elements / components / components reduced.

It shows:

1 An embodiment of a mold according to the invention in a sectional view of a forming part of the mold according to a side view in a schematic representation of the principle representation,

2 the embodiment of a mold according to the invention from 1 in a further illustration of a side view in a schematic representation, wherein the representation is reduced to the ejector and its floating mounting,

3 the embodiment of a mold according to the invention from 1 respectively. 2 in the same way as in 2 , wherein the individual components are arranged at a distance from each other for a better overview,

4 the embodiment of a mold according to the invention in a sectional view of a side view in a schematic representation.

In the figures, identical or corresponding components / components or elements are provided with the same reference numerals. Furthermore, the description is reduced to the differences between the embodiments or figures with the same or similar structure for a better overview.

In 1 is a first embodiment of a mold according to the invention 2 for the formation of workpieces (not shown) in a sectional view of a schematic side view shown.

The illustrated embodiment of a mold according to the invention 2 (in the following also briefly as a mold 2 designated) is set up and designed as an injection molding tool for plastics and in this case initially has a first molding part 4 (Illustrated by dashed line), which is so detachable with at least one second molding part 6 (illustrated by dashed lines) is available that the forming parts 4 . 6 in the assembled state a cavity 8th limit, which determines the shape and the volume of the workpiece to be formed.

In the opening state, in which the molding parts 4 . 6 , Are spaced apart, is the cavity 8th opened for a removal of the workpiece.

Furthermore, the mold has 2 via a holding device 10 for holding components 12 at the molding part 4 , The holding device 10 again has storage means 14 for floating component storage, which are set up and designed such that at least one component 12 in the circumferential direction 16 to its component axis 18 secured against rotation and radially to the component axis 18 along at least a first guide direction 20 is movably mounted. Here is the component 12 in the direction 24 its component axis 18 relative to the storage means 14 stored or held immovable for floating component storage.

The storage means 14 for floating component storage have a guide body 26 on, on which the component 12 radially to its component axis 18 and relative to the guide body 26 at a guided tour 28 as a linear guide 28 ' is set up and designed, in the first guide direction 20 is movably arranged.

Here is the guide body 26 again transversely to the first guide direction 20 and radially to the component longitudinal axis 18 at the molding part 4 at a second tour 30 in a second guiding direction 32 movably arranged.

Both guides 28 . 30 are as a linear guide 28 . 30 ' for due motion control of the component 12 educated.

To limit the mobility of the component 12 indicates the guide body 26 a hole 34 on, in which the component 12 between its free ends 36 . 38 is added in sections, with the hole edge 40 of the hole 34 the mobility of the component 12 radial to the component axis 18 , in particular along the first guide direction 20 , limited.

A free end 36 of the component 12 (especially the head 42 of the component) is positively connected to an adapter 44 held by means of which the component 12 at the lead 28 of the leadership body 26 along the first guide direction 20 is movably arranged.

The guide body 26 again indicates the training of leadership 28 for the component 12 a guide groove 46 on, along which the component 12 by means of the adapter 44 is guided by movement.

Furthermore, the guide body 26 in sections in a recess 48 of the molding part 4 arranged such that the mobility of the guide body 26 along the second guide direction 30 guided and through the Ausnehmungskanten or edges 50 is limited.

Further, in this embodiment, a mold according to the invention 2 the guide body 26 as well as the adapter 44 made in one piece.

The representation of the mold according to the invention 2 is in 1 as well as in the other figures for better understanding of the aforementioned, provided with reference numerals components of a mold according to the invention 2 limited.

The other figures show the storage means 14 for floating component storage in further views.

Claims (11)

Mold for forming workpieces, with at least one first molding part ( 4 ), which is a cavity ( 8th ) for the shaping of the workpiece, with a holding device ( 10 ) for holding components ( 12 ) at the forming part ( 4 ), characterized in that the holding device ( 10 ) Storage means ( 14 ) to the floating component storage, which are set up and designed such that at least one component ( 12 ) in the circumferential direction ( 16 ) to its component axis ( 18 ) and secured radially to its component axis ( 18 ) along at least one first guiding direction ( 20 ) is movably mounted, wherein the storage means ( 14 ) for floating component storage at least one guide body ( 26 ), on which the component ( 12 ) radially to its component axis ( 18 ) and relative to the guide body ( 26 ) at a guided tour ( 28 ), in particular a linear guide ( 28 ' ), in the first direction ( 20 ) is arranged movable, wherein the guide body ( 26 ) again transversely to the first guide direction ( 20 ) and radially to the component axis ( 18 ) on a second tour ( 30 ) in a second guiding direction ( 32 ) is arranged movable. Mold for forming workpieces according to claim 1, characterized by at least one first molding part ( 4 ) releasably connected to at least one second forming part ( 6 ) is available that the forming parts ( 4 . 6 ) in the joined state, a cavity ( 8th ), which determines the shape and volume of the workpiece to be formed. Mold according to claim 1 or 2, characterized in that the component ( 12 ) in the direction ( 24 ) of its component axis ( 18 ) relative to the storage means ( 14 ) is mounted to the floating component storage movable or immovable. Mold tool according to one of the preceding claims, characterized in that the guide ( 28 ) or the second guide ( 30 ) a linear guide ( 28 ' . 30 ' ). Mold tool according to one of the preceding claims, characterized in that the guide body ( 26 ) a hole ( 34 ), in which the component ( 12 ) between its free ends ( 36 . 38 ) is received at least in sections, wherein the hole edge ( 40 ) of the hole the mobility of the component ( 12 ) along the first guiding direction ( 20 ) limited. Mold tool according to one of the preceding claims, characterized in that a free end ( 36 . 38 ), especially the head ( 42 ), of the component ( 12 ) positively or positively or cohesively on an adapter ( 44 ) by means of which the component ( 12 ) at the leadership ( 28 ) of the guiding body ( 26 ) along the first guiding direction ( 20 ) is arranged movable. Mold tool according to claim 6, characterized in that the guide body ( 26 ) for the training of the leadership ( 28 ) for the component ( 12 ) at least one guide groove ( 46 ), along which the component ( 12 ) by means of the adapter ( 44 ) is guided by motion. Mold tool according to one of claims 1 to 5, characterized in that the guide ( 28 ) of the guiding body ( 26 ) for the positive guidance of the component ( 12 ), in particular by means of the head ( 42 ) of the component ( 12 ), is trained. Mold tool according to one of the preceding claims, characterized in that the guide body ( 26 ) at least in sections in a recess ( 48 ) of a molding part ( 4 ) is arranged such that the mobility of the guide body ( 26 ) along the second guide direction ( 32 ) and through the Ausnehmungsränder ( 50 ) is limited. Mold tool according to one of the preceding claims, characterized in that at least one of the molding parts ( 4 . 6 ) a component guide for the component ( 12 ), in which the component ( 12 ) for a movement in the direction ( 24 ) of its component axis ( 18 ) is guided by motion. Mold tool according to one of the preceding claims, characterized in that the storage means ( 14 ) for the floating component storage of at least one ejector ( 12 ' ) are furnished and designed.

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