DE102016011060A1 - Casting, assembly with casting, casting tool and casting process - Google Patents

Abstract

The invention relates to a casting (100, 300) having an end face (101, 301) which is arranged at the front on the casting (100, 300), a side face (102, 302) extending from the end face (101, 301). extending rearwardly, and a mounting recess (103, 303) which extends from the end face (101, 301) parallel to a Hauptentformungsachse (104, 304) of the casting (100, 300) rearwardly, wherein the mounting recess (103 , 303) is open towards the side surface (102, 302) or is separably closed towards the side surface (102, 302) by means of a separation membrane (305), so that a fastening element can be inserted from the side surface (102, 302) into the fastening recess (10). 103, 303) is insertable.

Description

The invention relates to a casting, an assembly with a casting, a casting tool and a casting method for producing a casting.

Castings made of metal, light metal, metal alloys or plastic are frequently used in the automotive sector and in other industries. To produce such a casting, a molten material, for example a heated metal alloy, is pressed or injected under high pressure into a cavity of a casting tool. Subsequently, the material cools in the casting tool and solidifies to the desired shape.

A typical casting tool in the field of metal injection molding has two tool sides, the nozzle side and the ejector side, whose inner contours together form a cavity, the cavity of the casting tool. The cavity defines the outer shape of the casting to be produced. For the injection molding process, the two tool sides of the casting tool are brought together and mechanically closed or locked. Subsequently, the molten metal is injected or injected under pressure on the nozzle side. Once the metal has cured, the casting tool is opened and the casting removed from the casting tool, in other words demolded. Usually, the ejector is designed to be movable for this purpose, so that the ejector can be moved away from the nozzle side. Further, the ejector side is typically provided with mechanical, hydraulic, pneumatic or electromechanical ejection pins or ejection pistons or the like which press the finished casting from the casting tool. An axis along which the nozzle side and the ejector side of a casting tool are movable relative to each other during closing and demolding is referred to as a "main ejection axis". The direction of the main demolding axis into which the ejector side is moved away from the nozzle side during demolding is called the "main demolding direction".

Since the casting tool is closed and opened along the main demolding axis, special precautions must be taken in the event that an undercut, that is, a free protrusion (also referred to as a "positive undercut") or a recess (also referred to as a "negative undercut") ") Is intended to be formed with a deviating from the main ejection axis alignment, for example, transversely or obliquely to the main ejection axis, on or in the casting. Such a recess may inter alia serve for inserting a fastener into the casting transverse to the main mold axis to secure the fastener to the casting, for which reason the recess is referred to as a "mounting recess". Since such a mounting recess is typically not demoulded along a main release axis, the mounting recess presents a particular challenge in the design and manufacture of a casting. In order to realize the mounting recess, auxiliary devices must be provided on the casting tool. Thus, it is possible to attach a mold core, for example a pin-shaped piston, to the casting tool transversely to the main release axis, which is introduced into the cavity after or during the closing operation and is removed again before the casting is removed from the mold. In general, different movable auxiliary devices may be used, for example a slider, a core pin or a mold insert, in which a partial area or several partial areas of the contour of the fastening recess are incorporated. Such an auxiliary device is moved out of the casting during or after opening of the casting tool in an additional demolding direction, thereby exposing the mounting recess before the casting is expelled from the casting tool.

To withstand large injection pressures of, for example, more than 200 tons and large temperature differences during the production of a casting, for example, a slider is particularly robust to design, which requires an increased space and material requirements and thus leads to an increase in manufacturing costs. In addition, the above auxiliary devices are relatively prone to failure due to the high load they are exposed to.

The object of the invention is thus to provide a simple solution for molding a casting with a mounting recess into which a fastener is to be inserted across a main drafting axis of the casting.

This object is achieved with a casting according to the invention. The casting has an end face which is located at the front of the casting. The casting also has a side surface which extends rearwardly from the end face. The casting further includes a mounting recess extending rearwardly from the end face parallel to a main draft axis of the casting. The attachment recess is open towards the side surface or closed severably by means of a separation membrane towards the side surface. so that a fastening element can be inserted from the side surface into the fastening recess.

The object is further achieved with an assembly. The assembly comprises a casting according to the invention and a component which is fastened to the casting with a fastening element inserted in the fastening recess of the casting.

The object is further achieved with a casting tool for producing a casting according to the invention. The casting tool has a mold core for forming the mounting recess of the casting. The mandrel protrudes from a nozzle side of the casting tool or from an ejector side of the casting tool parallel to the main draft axis of the casting into a cavity of the casting tool disposed between the nozzle side and the ejector side.

The object is further achieved by a method in which a casting is produced according to the invention with a casting tool according to the invention.

One idea underlying the present invention is to introduce a special geometric structure into a casting parallel to a main drafting axis of the casting, the structure serving as a fastening means for a fastener to be inserted into the casting transverse to the main drafting axis of the casting. This has the advantage that no additional demolding direction and no associated auxiliary device, such as a side gate, is necessary for producing the structure. Instead, a mold core is provided only on the nozzle side of the casting tool and / or the ejector side of the casting tool, which protrudes from the nozzle side and / or the ejector side into the cavity of the casting tool in such a way that a fastening recess is created in the casting which runs parallel to the casting die Main Entbildungsachse extends from the end face of the casting into the casting and is open to the side surface of the casting out. Proper profiling of the mounting recess may allow a fastener such as a screw, rivet, mounting pin, clamp, snap hook, snap hook, spring or the like to be secured to the casting transverse to the main mold axis by removing the fastener from the side surface of the casting is inserted from the mounting recess. Since the mounting recess is parallel to the main draft axis of the casting, the space required for the mandrel can be kept to a minimum, especially when compared to a slide displaceable transversely to the main draft axis. The mandrel can also be used as an ejector beyond, for example, in mechanical, pneumatic, hydraulic and / or electromechanical design. Consequently, the present invention makes it possible to produce a fastening recess for a fastening element introduced transversely to the main relief axis in a particularly simple manner. The casting tool used for this purpose can be designed much easier and cheaper than a conventional casting tool. An elaborate slide valve solution is avoided, so that above all the susceptibility can be reduced and the process stability can be improved. The mounting recess can also be formed during the actual formation of the casting and does not have to be laboriously incorporated later by means of milling processes or the like. This reduces the cost of producing a casting.

In an alternative embodiment of the invention, it is provided that the mounting recess is closed towards the side surface by means of a severable separation membrane. For example, the separation membrane can be made so thin that it can be pierced during assembly of a fastening element with the corresponding fastening element. As a result, the fastening recess is closed a priori in relation to the side surface and is only opened when the fastening element is introduced. Depending on the geometric design and material of the casting, different thicknesses or thicknesses of the separation membrane can be advantageous. For example, the thickness of the separation membrane may be proportional to the size of the casting.

In one embodiment of the invention, the fastening recess has a fastening profile for fixing a fastening element. Thus, the mounting recess is geometrically designed to implement the fastening of the fastener as needed and application. For example, non-destructively detachable or non-detachable connection techniques may be used. It is also possible to achieve non-positive and / or positive connection connections between the casting and the fastening element. The skilled person will be based on the present teaching and his knowledge of the basic joining techniques open up a variety of possible configurations of the mounting recess and the mounting profile, which are advantageous for the particular application. Depending on the requirements, it may be desirable, for example, for the connection to be as easy as possible to produce. In particular, a fastener in its geometry such be designed that the pressing or insertion of the fastener into the mounting recess for a fitter is easy, that is, without much effort is possible. For example, a locking connection or a screw connection is suitable. In another application, a stable connection with high holding power may be more appropriate.

In one embodiment of the invention, the fastening recess of the casting has a fastening profile corresponding to a fastening element for fixing the fastening element. For example, the fastening profile may be designed to be complementary to the profile of the fastening element. For example, the fastening recess and the fastening element can form a latching connection or a snap connection, for which purpose the fastening element is simply inserted into the fastening recess during assembly. For this purpose, the fastening element may be elastic and / or elastically deformable. For example, the fastener may be formed as a resilient latching arm, latching hook, snap arm, snap hook, snap ball or the like and the mounting recess may be designed as a complementarily shaped and rigidly formed receptacle. The fastener is temporarily deformed when plugged into the mounting recess and then springs back so that the mounting recess and the fastener are positively connected with each other. Of course, it may also be provided that the fastener is permanently deformed.

The fastening element may comprise a screw, a rivet, a fastening pin, a clamp, a latching hook, a snap hook, a spring or the like. In a concrete example, the fastening element may be designed as a blind rivet or similar. Those skilled in the art will readily appreciate from the teachings herein that only exemplary embodiments may be presented herein and that alternative known joining techniques may be used. For example, the fastening element may be formed as a bolt. Furthermore, the fastening element may be formed as a clamping element or as a clamping element. Furthermore, different connection techniques can be combined.

The fastening profile of the casting may have a groove profile, a tooth profile, a rectangular profile, a wave profile or the like. The diameter of the mounting recess or of the fastening profile can hereby be optimized to the profile of the respective fastening element. For example, the fastening element can be helical. In this case, the fastening profile may have a groove profile or be generally designed as a screw guide or screw structure. Such a groove profile can be matched in analogy to an internal thread to a screw diameter of the fastener. Furthermore, the fastening profile may be formed with an internal thread-like contour. In another example, the fastening profile can be designed as a tooth profile and the fastening element can have complementary shaped teeth, so that a toothing is formed when the fastening element is introduced into the fastening recess.

In one embodiment of the invention, the mounting recess narrows from the side surface into the casting. For example, the fastening element may be formed as a screw or have a screw. The fastening profile may in this case have a groove profile which optionally narrows into the casting. The person skilled in the art will immediately appreciate that he can specify the possible screw-in positions and the necessary screw resistance or the necessary screw torque by the design of the fastening profile.

In one embodiment of the invention, the separation membrane has a thickness of about 2 mm, 0.2 mm to 2 mm or less than 0.2 mm. Depending on the material and application, different thicknesses or thicknesses of the separation membrane may be advantageous. For example, the separation membrane may be formed so thin that the separation membrane is easily cut manually by pressing a bolt or screwing a screw.

In one embodiment of the invention, the attachment recess extends from the side surface into the casting almost perpendicular to the main release axis.

In one embodiment of the invention, the casting comprises a metal, a light metal, a metallic material combination, a metallic alloy or a plastic. For example, the casting comprises or consists essentially of aluminum or an aluminum alloy.

In one embodiment of the invention, an assembly according to the invention has a printed circuit board, through which the fastening element is guided.

The above embodiments, refinements and developments of the invention leave to combine with each other, if appropriate. Further possible embodiments, refinements, developments and implementations of the invention also include not explicitly mentioned combinations of features of the invention described above or below. In particular, the person skilled in the art will also add individual aspects as improvements or additions to the respective basic form of the present invention.

The present invention will be explained in more detail below with reference to the embodiments given in the schematic figures. Show it:

1 a perspective view of a casting from obliquely forward according to an embodiment of the invention;

2a a front view of an assembly according to an embodiment of the invention with the casting from 1 ;

2 B a side perspective view of the assembly 2a and

3 a perspective view of a casting obliquely from behind according to another embodiment of the invention.

The figures are intended to provide a deeper understanding of the embodiments of the invention. The figures are used in conjunction with the description of the explanation of principles and concepts of the invention. In the figures, the same elements, features and components - unless otherwise stated - each provided with the same reference numerals.

1 shows a perspective view of a casting 100 according to an embodiment of the invention. 2a further shows a front view of an assembly 200 according to an embodiment of the invention with the casting 100 out 1 , 2 B shows a side perspective view of the assembly 200 out 2a ,

The casting 100 represents an embodiment of the invention. Furthermore, the illustrated assembly is used 200 with the casting 100 for illustrative purposes only, to illustrate the principles underlying the invention. Such castings and assemblies can be used in various applications and provided in different geometric configurations. For example, such a casting may be incorporated in a vehicle, for example in a motor vehicle with or without an internal combustion engine, such as a passenger car, a truck, a motorcycle, a bicycle, a rail vehicle such as a locomotive, a watercraft such as a ship, and an aviation-grade vehicle Vehicle such as an airplane, a helicopter or the like. In particular, such a casting can be used in an electronic device, for example in a radio receiver or in a radio navigation device of a vehicle. However, the application of such a casting or such an assembly is not limited to the transport sector. Rather, the casting can be used for one-off, large and small batch production and mass production of components of all kinds in the field of mechanical engineering and precision engineering, both for components simple and complex design. Other applications include, for example, the construction industry, power plant technology, etc.

This in 1 illustrated casting 100 has an end face or end face 101 on, which is perpendicular to a Hauptentformungsachse 104 of the casting 100 is aligned. That is, the surface normal of the face 101 is parallel to the main draft axis 104 oriented. The face 101 can thus act as a front of the casting 100 be considered. The casting 100 also has a side surface 102 which are parallel to the main draft axis 104 is oriented and from the frontal area 101 out to the back. In the illustrated embodiment of the casting 100 forms the side surface 102 a part of the lateral surface of a circular cylinder, one end surface of the end face 101 forms. The circular cylinder sits on a likewise cylindrical base, which on two opposite sides identically formed mounting arms 107 having. The attachment arms 107 each have a plurality of mounting holes 108 which are substantially parallel to the main draft axis 104 run.

The casting 100 also has a mounting recess 103 on which are from the frontal area 101 parallel to the main draft axis 104 or along the main draft axis 104 back into the casting 100 extends into, that is in the interior of the end face 101 and the side surface 102 limited circular cylinder. The mounting recess 103 is for laterally receiving a fastener 201 (see 2a and 2 B ) to the side surface 102 I am open. That is, the mounting recess 103 pierces the lateral surface of the end face 101 and the side surface 102 limited circular cylinder. The mounting recess 103 is in particular designed such that a fastening element 201 from the side surface 102 out in the mounting recess 103 is insertable. By contrast, the mounting holes 108 the attachment arms 107 parallel to the main draft axis 104 and thus can be used to attach the casting 100 serve on another component.

The mounting recess 103 has a fastening profile 106 for fixing the fastening element 201 on. In the 1 to 2 B is the fastening profile 106 designed as a groove profile. Each groove of the groove profile is parallel to the main demolding axis 104 aligned. The groove profile can serve for example for fixing a screw or a bolt, which or which of the side surface 102 of the casting 100 out in the mounting recess 103 is introduced. Here, the grooves of the fastening profile can 106 with the external thread of the screw form-fitting connect.

An assembly 200 with such a fastening is in the 2a and 2 B shown. At the casting 100 out 1 is a component 202 by means of the fastener formed as a screw 201 attached. The fastener 201 this was due to a hole in the device 202 in the mounting recess 103 of the casting 100 introduced. The component 202 is exemplary as a circuit board 203 educated.

The mounting recess 103 of the casting 100 therefore has one with the fastener 201 corresponding fastening profile 106 for fixing the fastening element 201 on. First, the fastening profile 106 , as already stated above, formed as a groove profile or wave profile, wherein the individual grooves or shafts with the thread of the fastener formed as a screw 201 make a positive connection. On the other hand, the mounting recess narrows 103 from the side surface 102 out into the casting 100 into (compare for example 1 ). The fastening profile 106 the mounting recess 103 thus has a V-shaped basic shape, that is, the mounting recess 103 tapers into the interior of the casting 100 into it. By a specific geometric profiling of the mounting recess 103 can be specified both, which type of fastener using the mounting recess 103 on the casting 100 can be attached, as well as how the necessary forces and moments are dimensioned. In this way, a certain predetermined holding force can be achieved in a certain screwed.

As mentioned above, the casting is 100 or the module 200 purely by way of example. Thus, the fastening profile can be formed not only as a groove profile, but depending on the application and needs as a tooth profile, a rectangular profile, a wave profile or the like. In principle, all profiled shapes familiar to the person skilled in the art are suitable here, which are suitable for joining components to a casting. Likewise, the fastener instead of a screw, a rivet, a fastening pin, a clip, a latching hook, a snap hook, a spring or the like. For example, the fastening element can be designed as a bolt, as a tensioning element, as a clamping element, as a latching hook or as a snap hook. In addition, different connection techniques and profile shapes can be advantageously combined. On the basis of the teaching according to the invention and its knowledge of joining techniques, it will be clear to the person skilled in the art that a large number of embodiments of the fastening recess and of the fastening profile are possible, which are advantageous in each case for an application. Depending on the requirement, it may be desirable, for example, for the connection connection to be easy to produce and to be easily detached. Alternatively, a stable connection with a large holding force may be desired, which is difficult to solve.

The casting 100 may comprise a metal, a light metal, a metallic material combination, a metallic alloy or a plastic. In particular, the casting can 100 consist of a material selected from the group of metallic materials, metallic material combinations and metallic alloys. Alternatively, the casting 100 Made of a plastic. For example, the casting is 100 made of aluminum or an aluminum alloy. Alternatively, the casting 100 made of a thermoplastic, a thermoset, an elastomer or a combination of materials thereof. In principle, all materials and material combinations for the casting are within the teaching of the invention 100 provided, which are suitable for a casting process for producing such a casting. In the case of plastics, the casting can 100 For example, be produced by thermoplastic injection molding, thermoset molding or elastomer injection molding. In the case of a material combination of different plastics, however, a multi-component injection molding can be used. Likewise, an internal pressure injection molding can be used in which castings with cavities are made for different purposes. In the case of metallic materials, other methods of making the casting may be used 100 be advantageous, such as metal injection molding, metal powder injection molding, extrusion injection molding, die casting and so on.

In one embodiment of the invention, a casting method for making the casting is provided. The casting tool used for this purpose may have two tool halves, a nozzle side and an ejector side, the inner contours of which together define the cavity of the casting tool, which defines the shape of the casting 100 has. The casting tool may further include a mold core for forming the mounting recess 103 exhibit. The mandrel protrudes from the nozzle side or from the ejector side parallel to the main draft axis 104 of the casting 100 into the cavity of the casting tool arranged between the nozzle side and the ejector side in such a way that in the casting 100 the mounting recess 103 is formed. The mounting recess 103 extends from the face 101 from parallel to the main demolding axis 104 back into the casting 100 into it. Furthermore, the mounting recess 103 to the side surface 102 opened so that the fastener 201 from the side surface 102 out in the mounting recess 103 is insertable. For the injection process, the nozzle side and the ejector side of the casting tool are brought together and sealed. Subsequently, a casting material, for example, a molten metal is injected under temperature and pressure. Once the metal has cooled and hardened, the casting tool is opened and thus the finished casting 100 removed from the mold. Due to the special geometric design of the mounting recess 103 this can be formed with a mold core, which is parallel to the main demolding axis 104 is aligned. The tools commonly used to form attachment locations transverse to the main demolding axis, such as side shifters or the like, can be avoided. Advantageously, the mold core used can even be designed as an ejector, for example as a mechanical, hydraulic, pneumatic, electromechanical ejection pin or ejection piston. The casting tool can thus be significantly easier and less expensive compared to conventional solutions. Furthermore, the susceptibility and the process stability can be significantly improved and the cost of producing a casting can be reduced.

Alternatively, a mounting recess 303 a casting according to the invention 300 to a side surface 302 of the casting 300 towards by means of a severable separation membrane 305 be closed (compare 3 ). The structure of the casting 300 similar to the structure of the casting 100 out 1 , That's the way the casting works 300 an end face 301 whose surface normal is along a main demolding axis 304 of the casting 300 is oriented. The casting 300 also has a side surface 302 on which along the main draft axis 304 is oriented and from the frontal area 301 out to the back. The through the side surface 302 and the frontal area 301 limited circular cylinder sits on a cylindrical base, which on two opposite sides identically formed mounting arms 307 having. The attachment arms 307 each have a plurality of mounting holes 308 which are substantially parallel to the main draft axis 304 run. The casting 300 also has a mounting recess 303 on which are from the frontal area 301 parallel to the main draft axis 304 back into the casting 300 extends into, that is in the interior of the end face 301 and the side surface 302 limited circular cylinder. The mounting recess 303 is for the lateral recording of the fastener 201 provided and therefore has a fastening profile 306 for fixing the fastening element 201 on. Unlike the mounting recess 103 of the casting 100 in 1 is the mounting recess 303 in 3 but not to the side surface 302 opened, but with the separation membrane 305 closed.

The separation membrane 305 may have a thickness of about 2 mm, 0.2 mm to 2 mm or less than 0.2 mm, for example 0.1 mm. The separation membrane 305 For example, is formed so thin that it can be easily pierced by the mounting element during assembly of a fastener. The mounting recess 303 is thus initially to the side surface 302 closed and is only at the attachment of a fastener 201 in the mounting recess 303 open. Depending on the geometric design of the casting 300 can different thicknesses or strengths of the separation membrane 305 be beneficial. For example, the strength of the separation membrane 305 proportional to the size of the casting 300 be.

The skilled person will appreciate that he the mounting recess 303 to achieve desired holding forces of the fastener 201 in a suitable way. In addition, the skilled person can take into account that for smooth and easy demoulding of the casting 300 from the casting tool suitable Entformungsschrägen or draft of the walls of the casting 300 may be advantageous. Such a draft is a slight slope provided to facilitate demolding of a casting from a casting tool. For example, a draft angle serves to minimize the frictional forces that occur during demoulding, thereby damaging the casting 300 to avoid. Surfaces that are exactly parallel to the main draft axis 304 run, can be a hindrance during demoulding. On the other hand, depending on the material and application, bevels or angles of up to several degrees relative to a main demolding axis can be advantageous. For example, the mounting recess 303 into the interior of the casting 300 slightly tapered towards the back. Furthermore, the person skilled in the art can determine a fastening position via the exact course of a draft angle. For example, a fastener may be formed as a screw. A chamfered inner wall of the mounting recess 303 defines in this case for a given screw diameter a suitable screwing.

Claims (12)

Casting ( 100 . 300 ) with - an end face ( 101 . 301 ), which at the front of the casting ( 100 . 300 ), - a side surface ( 102 . 302 ) extending from the face ( 101 . 301 ) extends to the rear, and - a mounting recess ( 103 . 303 ) extending from the face ( 101 . 301 ) parallel to a main demolding axis ( 104 . 304 ) of the casting ( 100 . 300 ) extends to the rear, - wherein the mounting recess ( 103 . 303 ) to the side surface ( 102 . 302 ) or by means of a separation membrane ( 305 ) to the side surface ( 102 . 302 ) is severable closed, so that a fastener ( 201 ) from the side surface ( 102 . 302 ) out in the mounting recess ( 103 . 303 ) is insertable. Casting ( 100 . 300 ) according to claim 1, wherein the mounting recess ( 103 . 303 ) with the fastening element ( 201 ) corresponding fastening profile ( 106 . 306 ) for fixing the fastener ( 201 ) having. Casting ( 100 . 300 ) according to claim 2, wherein the fastening profile ( 106 . 306 ) has a groove profile, a tooth profile, a rectangular profile or a wave profile. Casting ( 100 . 300 ) according to any one of the preceding claims, wherein the mounting recess ( 103 . 303 ) from the side surface ( 102 . 302 ) into the casting ( 100 . 300 ) narrowed. Casting ( 100 . 300 ) according to any one of the preceding claims, wherein the separation membrane ( 305 ) has a thickness of about 2 mm, 0.2 mm to 2 mm or less than 0.2 mm. Casting ( 100 . 300 ) according to any one of the preceding claims, wherein the mounting recess ( 103 . 303 ) from the side surface ( 102 . 302 ) from almost perpendicular to the main demolding axis ( 104 . 304 ) into the casting ( 100 . 300 ) extends into it. Casting ( 100 . 300 ) according to any one of the preceding claims, wherein the casting ( 100 . 300 ) comprises a metal, a light metal, a metallic material combination, a metallic alloy or a plastic. Assembly ( 200 ) with - a casting ( 100 . 300 ) according to one of claims 1 to 7, and - a component ( 202 ), which with a in the mounting recess ( 103 . 303 ) of the casting ( 100 . 300 ) introduced fastener ( 201 ) on the casting ( 100 . 300 ) is attached. Assembly ( 200 ) according to claim 8, wherein the fastening element ( 201 ) has a screw, a rivet, a fixing pin, a clamp, a latching hook, a snap hook or a spring. Assembly ( 200 ) according to one of claims 8 and 9, wherein the component ( 202 ) a printed circuit board ( 203 ), by which the fastening element ( 201 ) is guided through. Casting tool for producing a casting ( 100 . 300 ) according to one of claims 1 to 7 with a mold core for forming the mounting recess ( 103 . 303 ) of the casting ( 100 . 303 ), wherein the mandrel from a nozzle side or from an ejector side of the casting tool parallel to the Hauptentformungsachse ( 104 . 304 ) projects into a arranged between the nozzle side and the ejector cavity of the casting tool. Casting method in which a casting according to any one of claims 1 to 7 is produced using a casting tool according to claim 11.

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