EP3636365B1 - Casting mould for manufaturing a casting part by having at least one internal contour and the use of such mold - Google Patents

Casting mould for manufaturing a casting part by having at least one internal contour and the use of such mold Download PDF

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Publication number
EP3636365B1
EP3636365B1 EP19200013.1A EP19200013A EP3636365B1 EP 3636365 B1 EP3636365 B1 EP 3636365B1 EP 19200013 A EP19200013 A EP 19200013A EP 3636365 B1 EP3636365 B1 EP 3636365B1
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EP
European Patent Office
Prior art keywords
mandrel
core segments
core
casting
casting mould
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EP19200013.1A
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German (de)
French (fr)
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EP3636365A1 (en
Inventor
Ulrich Rabus
Jörg Sauerwald
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Volkswagen AG
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Volkswagen AG
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22CFOUNDRY MOULDING
    • B22C9/00Moulds or cores; Moulding processes
    • B22C9/06Permanent moulds for shaped castings
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22CFOUNDRY MOULDING
    • B22C9/00Moulds or cores; Moulding processes
    • B22C9/06Permanent moulds for shaped castings
    • B22C9/064Locating means for cores
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22CFOUNDRY MOULDING
    • B22C9/00Moulds or cores; Moulding processes
    • B22C9/22Moulds for peculiarly-shaped castings
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22DCASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
    • B22D17/00Pressure die casting or injection die casting, i.e. casting in which the metal is forced into a mould under high pressure
    • B22D17/20Accessories: Details
    • B22D17/22Dies; Die plates; Die supports; Cooling equipment for dies; Accessories for loosening and ejecting castings from dies
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22DCASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
    • B22D17/00Pressure die casting or injection die casting, i.e. casting in which the metal is forced into a mould under high pressure
    • B22D17/20Accessories: Details
    • B22D17/22Dies; Die plates; Die supports; Cooling equipment for dies; Accessories for loosening and ejecting castings from dies
    • B22D17/229Dies; Die plates; Die supports; Cooling equipment for dies; Accessories for loosening and ejecting castings from dies with exchangeable die part
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22DCASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
    • B22D17/00Pressure die casting or injection die casting, i.e. casting in which the metal is forced into a mould under high pressure
    • B22D17/20Accessories: Details
    • B22D17/22Dies; Die plates; Die supports; Cooling equipment for dies; Accessories for loosening and ejecting castings from dies
    • B22D17/24Accessories for locating and holding cores or inserts

Definitions

  • the invention relates to a casting mold or a casting tool for the production of a metal cast part, which has a hollow-cylindrical area with a cylindrical inner contour. Furthermore, the invention relates to the use of such a casting mold.
  • a casting mold is a mostly metallic (reusable) permanent form for the production of cast (component) parts.
  • a casting mold has a mold cavity that can be filled with melt or liquid metal and forms the cast part. Hollow or inner contours provided in the cast part can be mapped with the help of immovable cores or movable slides.
  • a casting mold is constructed in several parts and consists, e.g. B. from a fixed and a movable mold half.
  • so-called drafts are required in order to be able to lift the cast part. Such drafts should also be provided on cores (if they are reusable permanent cores) or on slides.
  • the mold has a mold cavity (cavity).
  • the mold also has at least one multi-part slide for forming an inner contour (undercut) in the cast components.
  • the slide is designed in two parts with a first partial slide and a second partial slide. When retracting, the partial slides can be moved separately, ie separately from one another, with opposite oblique directions, so that extraction bevels or bevels are not required.
  • the first partial slide and the second partial slide are designed with corresponding inclined surfaces on which the partial slides can slide against one another when they are pulled back.
  • Injection molding tools with multi-part cores for imaging inner contours or undercuts are known for plastic injection molding, which have a centrally arranged mandrel or the like and arranged around the mandrel core segments, wherein the core segments can be displaced transversely to the direction of movement of the mandrel by longitudinal displacement of the mandrel.
  • the relevant prior art is on the US 4,541,605A ,
  • the invention is based on the object of specifying a further (ie alternative) advantageous casting mold for the production of a metal cast part, which has at least one core without the usual extraction bevels.
  • the object is achieved by the casting mold according to the invention of claim 1. That is, the invention now provides a further, particularly advantageous casting mold with the features mentioned in claim 1, which has at least one core without the otherwise usual drafts or drafts having.
  • Advantageous developments of the casting mold according to the invention result from the dependent patent claims, the following description of the invention and also from the figures.
  • the casting mold (casting tool) according to the invention is in particular a chill mold for chill casting or a die-casting or die-casting mold for die-casting metals, in particular light metals.
  • the invention is also suitable for other metal casting processes in which permanent molds are used.
  • Both the mandrel and the core segments are part of the mold and form a permanent core.
  • the mandrel can be moved in its longitudinal or axial direction and can use a suitable drive can be extended and retracted, which is comparatively easy to do. As it extends, the mandrel is advanced or pushed toward the mold cavity. During retraction, the mandrel is moved back or withdrawn in the opposite direction (ie, out of the mold cavity).
  • the core segments are moved outwards transversely, in particular essentially perpendicularly, to the direction of movement of the mandrel and assume a casting position.
  • the core is quasi expanded and takes on the shape of the inner contour to be imaged.
  • the core segments When the mandrel is retracted, the core segments are moved inwards transversely to the direction of movement of the mandrel and assume a demoulding position, whereby the cross-section of the core is reduced or narrowed, so to speak, and demoulding of the cast part produced is made possible without drafts or draft angles. Only small machining allowances are therefore required for the inner contour, which on the one hand reduces the post-processing effort and material consumption and on the other hand reduces the risk of defects.
  • the mandrel is centrally located and the core segments are arranged around the mandrel. This enables a compact core structure and ensures effective function.
  • the mandrel and core segments are formed with complementary ramps that form a wedge slide mechanism.
  • Wedge slide mechanisms are known in various designs from toolmaking.
  • the mandrel can, for example, have a conical or frustoconical section, on which the core segments formed with corresponding complementary surfaces can slide and are thereby displaced transversely to the direction of movement of the mandrel.
  • the core segments can be spring-loaded against the mandrel.
  • the springs which are in particular compression springs (coil springs), ensure physical contact between the core segments and the mandrel and can also cause the return (return) of the core segments (to the demoulding position).
  • the reset can also be hydraulic, pneumatic or mechanical (e.g. by means of an umbrella mechanism or other suitable linkage system).
  • the movement of the core segments is preferably guided by means of slot guides or the like.
  • the core segments can, for example, be mounted in grooves provided for this purpose by means of one or more sliding blocks.
  • the groove guides can also be designed with end stops that limit the movements of the core segments.
  • the core segments can have shape elements that enable the depiction of an undercut inner contour. This means that undercuts can already be created during casting on the inner contour of the cast part, which would no longer be demouldable with conventional permanent cores or slides.
  • the cast part to be produced has a hollow-cylindrical area, the cylindrical inner contour of which is reproduced with the multi-part core, this core having three or more movable core segments and the mandrel being designed with three or more pockets in which these core segments can be moved transversely are arranged.
  • the mandrel has three or more radially extending ridges extending (longitudinally and radially) between the pockets, the outer (radial) surfaces of these radial ridges together with the outer (radial) surfaces of those in the pouring position Core segments specify or define the inner contour to be mapped.
  • the (radial) outer surfaces of the radial webs are preferably designed with draft bevels so that the mandrel can be inserted or withdrawn more easily.
  • the casting mold according to the invention is preferably used to produce a stator pot for an electric machine, for which purpose a cast aluminum or magnesium alloy is used in particular.
  • a cast aluminum or magnesium alloy is used in particular.
  • the invention is not limited to this.
  • the die casting mold 100 shown has a lower, fixed mold half 110 and an upper, movable mold half 120 .
  • the lower mold half 110 is formed with a mold cavity 130 for the production of a ring-cylindrical die-cast part 200 .
  • the hollow-cylindrical inner contour is reproduced with the aid of a core 140, which will be explained in more detail below, and which is intended to keep the cavity free of melt during die-casting. That is to say, the mold cavity 130 is formed by an outer cavity wall of the lower mold half 110 and an inner cavity wall of the core 140, which together with the end cavity walls define the shape or form of the die-cast part 200 to be produced.
  • the standing orientation is only an example.
  • the mold halves 110, 120 can also be formed with a vertical division as right and left mold halves.
  • the die-cast part 200 is z. B. a thin-walled stator for receiving stator cores in an electric machine for the traction drive (electric drive) of a motor vehicle.
  • the die-cast part 200 is comparatively thin-walled (e.g. ⁇ 5 mm) in relation to its diameter (e.g. >200 mm).
  • high mechanical demands are placed on the die-cast part 200 .
  • the draft angles that usually have to be provided on the outer cavity wall and on the inner cavity wall result in high and unequal wall thicknesses, which means there is an increased risk of defects.
  • the core 140 is of multi-part design and has a plurality of transversely movable core segments 146 and a mandrel 141 which is arranged between these core segments 146 and can be displaced longitudinally or axially.
  • the 141 mandrel is how out 2 and 4 as seen, is formed with three uniform pockets 145 in which the identically shaped core segments 146 are located.
  • the mandrel 141 is also formed with a central cone or truncated cone 142 and three radial webs 143 which protrude in the radial direction R and extend like wings at an angular distance of approximately 120° between the pockets 145 .
  • the mandrel 141 is preferably manufactured in one piece, as in 4 shown.
  • the core segments 146 rest on their radial inner surfaces in a form-fitting manner on the cone 142 and are designed for this purpose with complementary partial cone surfaces.
  • the core segments 146 are moved radially outwards transversely to the direction of movement of the mandrel 141 by means of a wedge slide mechanism (the cone 142 acts like a driving wedge) (the displacement path and a Transmission ratio can be set) and assume a casting position, the radial outer surfaces 144 of the radial webs 143 together with the radial outer surfaces 147 of the core segments 146 defining the cylindrical inner contour to be imaged.
  • the core segments 146 have shaped elements 148 on their outer surfaces 147 (see 1 ) for forming undercut geometries on the inner contour. This allows undercut geometries such.
  • the mandrel 141 is retracted before the die-cast part 200 has reached its demoulding temperature (in order to keep the shrinkage forces small), for which purpose it is shown in 3 illustrated, is moved back or withdrawn downwards.
  • the core segments 146 are moved radially inwards transversely to the direction of movement of the mandrel 141 and assume their demolding position, with a circumferential gap S forming between the radial outer surfaces 147 and the inner contour of the die-cast part 200 (the core 200 is therefore no longer in contact with the die-cast part 200), which allows easy lifting of the die-cast part 200.
  • the die-cast part 200 is removed from the mold upwards.
  • the outer surfaces 144 of the radial webs 143 are designed with draft bevels (e.g. 1° to 3°), preferably over their entire length, so that they become detached from the die-cast part 200 when the mandrel 141 is pulled back be able.
  • the outer surfaces 147 of the core segments 146 are formed without drafts.
  • Conventional drafts may be present on the outer cavity wall of the lower mold half 110 .
  • the lower mold half 110 can also be designed with a vertical split for demoulding, so that no drafts are required at all.
  • the ring-cylindrical die-cast part 200 can thus be die-cast with a uniformly thin wall thickness and only small machining allowances (e.g. ⁇ 1.5 mm).
  • the core segments 146 are displaced transversely to the movement axis L of the mandrel 140 by extending the mandrel 141 and brought into a casting position, as in FIG 1 illustrated with arrows. By retracting the mandrel 141, the core segments 146 are brought into a demolding position or reset, as in 3 illustrated with arrows. In this case, the core segments 146 are only displaced in radial directions R (in contrast to a slider which is moved back and forth by extending and retracting). A radial movement guidance of the core segments 146 takes place both through the radial webs 143 and with the aid of slot guides.
  • the lower mold half 110 is formed with grooves 119 or the like, in which the core segments 146 are fastened by means of sliding blocks 149 or The like are movably mounted in the radial direction R and held in place in the circumferential direction and in the axial direction and secured against twisting and tilting.
  • the sliding blocks 149 can be screwed onto the core segments 146 or can also be designed in one piece with the core segments 146 .
  • springs 150 which bias the core segments 146 against the mandrel 141 and enable resetting.

Description

Die Erfindung betrifft eine Gießform bzw. ein Gießwerkzeug zur Herstellung eines metallischen Gussteils, welches einen hohlzylindrischen Bereich mit einer zylindrischen Innenkontur aufweist. Weiterhin betrifft die Erfindung die Verwendung einer solchen Gießform.The invention relates to a casting mold or a casting tool for the production of a metal cast part, which has a hollow-cylindrical area with a cylindrical inner contour. Furthermore, the invention relates to the use of such a casting mold.

Eine Gießform ist eine zumeist metallische (wiederverwendbare) Dauerform für die Herstellung von Guss(bau)teilen. Eine Gießform weist hierzu einen mit Schmelze bzw. flüssigem Metall befüllbaren Formhohlraum auf, der das Gussteil abbildet. Im Gussteil vorgesehene Hohl- bzw. Innenkonturen können mithilfe von unbeweglichen Kernen oder bewegbaren Schiebern abgebildet werden. Um nach dem Erstarren der Schmelze das hergestellte Gussteil entformen zu können, ist eine Gießform mehrteilig aufgebaut und besteht z. B. aus einer feststehenden und einer beweglichen Formhälfte. Ferner sind sogenannte Formschrägen erforderlich, um das Gussteil auszuheben zu können. Solche Formschrägen sind ebenfalls an Kernen (sofern es sich um wiederverwendbare Dauerkerne handelt) oder an Schiebern vorzusehen. Formschrägen führen am Gussteil jedoch zu Aufmaßen. Diese Aufmaße müssen dann bei der Gussteilnachbearbeitung entfernt werden (dies geschieht zumeist durch spanende Bearbeitung), was aufwändig ist und mit hohem Materialverbrauch einhergeht. Ferner können solche Aufmaße auch zu hohen Wanddicken führen, sodass eine erhöhte Gefahr für Fehlstellen (z. B. Schwindungslunker und Gaseinschlüsse) besteht.A casting mold is a mostly metallic (reusable) permanent form for the production of cast (component) parts. For this purpose, a casting mold has a mold cavity that can be filled with melt or liquid metal and forms the cast part. Hollow or inner contours provided in the cast part can be mapped with the help of immovable cores or movable slides. In order to be able to demould the casting produced after the melt has solidified, a casting mold is constructed in several parts and consists, e.g. B. from a fixed and a movable mold half. Furthermore, so-called drafts are required in order to be able to lift the cast part. Such drafts should also be provided on cores (if they are reusable permanent cores) or on slides. Drafts, however, lead to allowances on the cast part. These oversizes then have to be removed during the post-processing of the cast part (this is usually done by machining), which is complex and involves high material consumption. Furthermore, such allowances can also lead to high wall thicknesses, so that there is an increased risk of defects (e.g. shrinkage cavities and gas pockets).

In der nächstliegenden DE 10 2015 220 980 A1 ist eine Gussform zur Herstellung metallischer Gussbauteile beschrieben. Die Gussform weist einen Formhohlraum (Kavität) auf. Die Gussform weist ferner wenigstens einen mehrteiligen Schieber zur Ausbildung einer Innenkontur (Hinterschnitt) in den Gussbauteilen auf. Der Schieber ist zweiteilig mit einem ersten Teilschieber und einem zweiten Teilschieber ausgebildet. Die Teilschieber sind beim Zurückziehen separat, d. h. getrennt voneinander, mit gegensätzlichen Schrägrichtungen bewegbar, sodass Ausziehschrägen bzw. Formschrägen nicht erforderlich sind. Ferner sind der erste Teilschieber und der zweite Teilschieber mit korrespondierenden Schrägflächen ausgebildet, auf denen die Teilschieber beim Zurückziehen gegeneinander abgleiten können. Für das Kunststoffspritzgießen sind Spritzgießwerkzeuge mit mehrteiligen Kernen zur Abbildung von Innenkonturen bzw. Hinterschnitten bekannt, die einen zentral angeordneten Dorn oder dergleichen und um den Dorn herum angeordnete Kernsegmente aufweisen, wobei die Kernsegmente durch Längsverschieben des Dorns quer zur Bewegungsrichtung des Dorns verschiebbar sind. Zum diesbezüglichen Stand der Technik wird auf die US 4,541,605 A ,In the nearest DE 10 2015 220 980 A1 describes a mold for the production of metallic cast components. The mold has a mold cavity (cavity). The mold also has at least one multi-part slide for forming an inner contour (undercut) in the cast components. The slide is designed in two parts with a first partial slide and a second partial slide. When retracting, the partial slides can be moved separately, ie separately from one another, with opposite oblique directions, so that extraction bevels or bevels are not required. Furthermore, the first partial slide and the second partial slide are designed with corresponding inclined surfaces on which the partial slides can slide against one another when they are pulled back. Injection molding tools with multi-part cores for imaging inner contours or undercuts are known for plastic injection molding, which have a centrally arranged mandrel or the like and arranged around the mandrel core segments, wherein the core segments can be displaced transversely to the direction of movement of the mandrel by longitudinal displacement of the mandrel. The relevant prior art is on the US 4,541,605A ,

DE 10 2011 011 784 A1 , US 4,286,766 A , US 5,403,179 A , US 4,362,291 A , DE 26 19 064 A1 , und US 4,731,014 A verwiesen. DE 10 2011 011 784 A1 , US 4,286,766A , US 5,403,179 A , US 4,362,291A , DE 26 19 064 A1 , and US 4,731,014A referred.

Ausgehend von der DE 10 2015 220 980 A1 liegt der Erfindung die Aufgabe zugrunde, eine weitere (das heißt alternative) vorteilhafte Gießform zur Herstellung eines metallischen Gussteils anzugeben, die wenigstens einen Kern ohne übliche Ausziehschrägen aufweist.Starting from the DE 10 2015 220 980 A1 the invention is based on the object of specifying a further (ie alternative) advantageous casting mold for the production of a metal cast part, which has at least one core without the usual extraction bevels.

Die Aufgabe wird gelöst durch die erfindungsgemäße Gießform des Patentanspruchs 1. D. h., mit der Erfindung steht nun eine weitere, besonders vorteilhafte Gießform mit den im Patentanspruch 1 genannten Merkmalen zur Verfügung, die wenigstens einen Kern ohne die sonst üblichen Formschrägen bzw. Ausziehschrägen aufweist. Vorteilhafte Weiterbildungen der erfindungsgemäßen Gießform ergeben sich aus den abhängigen Patentansprüchen, der nachfolgenden Erfindungsbeschreibung sowie auch aus den Figuren.The object is achieved by the casting mold according to the invention of claim 1. That is, the invention now provides a further, particularly advantageous casting mold with the features mentioned in claim 1, which has at least one core without the otherwise usual drafts or drafts having. Advantageous developments of the casting mold according to the invention result from the dependent patent claims, the following description of the invention and also from the figures.

Die erfindungsgemäße Gießform bzw. Gussform zur Herstellung eines metallischen Gussteils, welches einen hohlzylindrischen Bereich mit einer zylindrischen Innenkontur aufweist, umfasst:

  • einen Formhohlraum, der den Abmessungen des (herzustellenden) Gussteils entspricht; und
  • wenigstens einen zumindest teilweise im Formhohlraum angeordneten bzw. in den Formhohlraum hineinreichenden Kern zur Abbildung der Innenkontur, wobei dieser Kern kein loser Kern, sondern ein (baulicher) Bestandteil bzw. Werkzeugteil der Gießform ist. Erfindungsgemäß ist vorgesehen, dass der Kern mehrteilig ausgebildet ist und mehrere bewegliche Kernsegmente sowie einen längsverschieblich zwischen den Kernsegmenten angeordneten Dorn aufweist, wobei die Kernsegmente beim Längsverschieben des Dorns quer zur Bewegungsrichtung des Dorns bewegt bzw. verschoben werden und durch Ausfahren des Dorns in eine Gießstellung bringbar sind und durch Einfahren des Dorns in eine Entformungsstellung bringbar sind.
The casting mold or casting mold according to the invention for the production of a metal casting, which has a hollow-cylindrical area with a cylindrical inner contour, comprises:
  • a mold cavity corresponding to the dimensions of the casting (to be produced); and
  • at least one core arranged at least partially in the mold cavity or extending into the mold cavity for imaging the inner contour, this core not being a loose core but a (structural) component or tool part of the casting mold. According to the invention, the core is designed in several parts and has a plurality of movable core segments and a mandrel that can be displaced longitudinally between the core segments, the core segments being moved or displaced transversely to the direction of movement of the mandrel when the mandrel is longitudinally displaced and can be brought into a casting position by extending the mandrel are and can be brought into a demolding position by retracting the mandrel.

Bei der erfindungsgemäßen Gießform (Gießwerkzeug) handelt es sich insbesondere um eine Kokille zum Kokillengießen oder um eine Druckgieß- bzw. Druckgussform zum Druckgießen von Metallen, insbesondere Leichtmetallen. Die Erfindung ist aber auch für andere Metallgießverfahren geeignet, bei denen Dauerformen eingesetzt werden.The casting mold (casting tool) according to the invention is in particular a chill mold for chill casting or a die-casting or die-casting mold for die-casting metals, in particular light metals. However, the invention is also suitable for other metal casting processes in which permanent molds are used.

Sowohl der Dorn als auch die Kernsegmente sind Bestandteile der Gießform und bilden einen Dauerkern. Der Dorn ist in seiner Längs- bzw. Axialrichtung verschiebbar und kann mithilfe eines geeigneten Antriebs ausgefahren und eingefahren werden, was vergleichsweise einfach zu bewerkstelligen ist. Beim Ausfahren wird der Dorn in Richtung des Formhohlraums vorbewegt bzw. vorgedrückt. Beim Einfahren wird der Dorn in die entgegengesetzte Richtung (d. h. aus dem Formhohlraum heraus) zurückbewegt bzw. zurückgezogen. Beim Ausfahren des Dorns werden die Kernsegmente quer, insbesondere im Wesentlichen senkrecht, zur Bewegungsrichtung des Dorns nach außen bewegt und nehmen eine Gießstellung bzw. Gießposition ein. Der Kern wird dabei quasi aufgeweitet und nimmt die Gestalt der abzubildenden Innenkontur an. Beim Einfahren des Dorns werden die Kernsegmente quer zur Bewegungsrichtung des Dorns nach innen bewegt und nehmen eine Entformungsstellung bzw. Entformungsposition ein, wobei sich der Kern quasi im Querschnitt verkleinert bzw. verengt und ohne Formschrägen bzw. Zugschrägen ein Entformen des hergestellten Gussteils ermöglicht wird. Für die Innenkontur sind somit nur geringe Bearbeitungsaufmaße erforderlich, wodurch einerseits der Nachbearbeitungsaufwand reduziert sowie der Materialverbrauch gesenkt und andererseits die Gefahr für Fehlstellen verringert werden.Both the mandrel and the core segments are part of the mold and form a permanent core. The mandrel can be moved in its longitudinal or axial direction and can use a suitable drive can be extended and retracted, which is comparatively easy to do. As it extends, the mandrel is advanced or pushed toward the mold cavity. During retraction, the mandrel is moved back or withdrawn in the opposite direction (ie, out of the mold cavity). When the mandrel is extended, the core segments are moved outwards transversely, in particular essentially perpendicularly, to the direction of movement of the mandrel and assume a casting position. The core is quasi expanded and takes on the shape of the inner contour to be imaged. When the mandrel is retracted, the core segments are moved inwards transversely to the direction of movement of the mandrel and assume a demoulding position, whereby the cross-section of the core is reduced or narrowed, so to speak, and demoulding of the cast part produced is made possible without drafts or draft angles. Only small machining allowances are therefore required for the inner contour, which on the one hand reduces the post-processing effort and material consumption and on the other hand reduces the risk of defects.

Der Dorn ist zentral angeordnet und die Kernsegmente sind um den Dorn herum angeordnet. Dies ermöglicht einen kompakten Kernaufbau und gewährleistet eine effektive Funktion.The mandrel is centrally located and the core segments are arranged around the mandrel. This enables a compact core structure and ensures effective function.

Der Dorn und die Kernsegmente sind mit komplementären Schrägflächen ausgebildet, die einen Keilschiebermechanismus bilden. Keilschiebermechanismen sind in diversen Ausführungen aus dem Werkzeugbau bekannt. Der Dorn kann bspw. einen konischen bzw. kegelstumpfförmigen Abschnitt aufweisen, auf dem die mit entsprechenden Komplementärflächen ausgebildeten Kernsegmente abgleiten können und dadurch quer zur Bewegungsrichtung des Dorns verschoben werden. Die Kernsegmente können mittels Federn gegen den Dorn vorgespannt sein. Die Federn, wobei es sich insbesondere um Druckfedern (Spiralfedern) handelt, gewährleisten einen Berührungskontakt zwischen den Kernsegmenten und dem Dorn und können zudem auch die Rückstellung (Rückholung) der Kernsegmente (in die Entformungsstellung) bewirken. Die Rückstellung kann auch hydraulisch, pneumatisch oder mechanisch (z. B. mittels Regenschirmmechanismus oder anderem geeigneten Gelenksystem) erfolgen.The mandrel and core segments are formed with complementary ramps that form a wedge slide mechanism. Wedge slide mechanisms are known in various designs from toolmaking. The mandrel can, for example, have a conical or frustoconical section, on which the core segments formed with corresponding complementary surfaces can slide and are thereby displaced transversely to the direction of movement of the mandrel. The core segments can be spring-loaded against the mandrel. The springs, which are in particular compression springs (coil springs), ensure physical contact between the core segments and the mandrel and can also cause the return (return) of the core segments (to the demoulding position). The reset can also be hydraulic, pneumatic or mechanical (e.g. by means of an umbrella mechanism or other suitable linkage system).

Bevorzugt sind die Kernsegmente mittels Nutführungen oder dergleichen bewegungsgeführt. Die Kernsegmente können bspw. mittels eines oder mehrerer Nutensteine in dafür vorgesehenen Nuten gelagert sein. Die Nutführungen können auch mit Endanschlägen, die die Bewegungen der Kernsegmente begrenzen, ausgebildet sein.The movement of the core segments is preferably guided by means of slot guides or the like. The core segments can, for example, be mounted in grooves provided for this purpose by means of one or more sliding blocks. The groove guides can also be designed with end stops that limit the movements of the core segments.

Die Kernsegmente können Formelemente aufweisen, die die Abbildung einer hinterschnittigen Innenkontur ermöglichen. Damit können bereits beim Gießen an der Innenkontur des Gussteils Hinterschnitte erzeugt werden, die mit konventionellen Dauerkernen oder Schiebern nicht mehr entformbar wären.The core segments can have shape elements that enable the depiction of an undercut inner contour. This means that undercuts can already be created during casting on the inner contour of the cast part, which would no longer be demouldable with conventional permanent cores or slides.

Es ist vorgesehen, dass das herzustellende Gussteil einen hohlzylindrischen Bereich aufweist, dessen zylindrische Innenkontur mit dem mehrteiligen Kern abgebildet wird, wobei dieser Kern drei oder auch mehr bewegliche Kernsegmente aufweist und der Dorn mit drei oder auch mehr Taschen ausgebildet ist, in denen diese Kernsegmente querbeweglich angeordnet sind. Außerdem weist der Dorn drei oder auch mehr sich radial erstreckende Stege bzw. Radialstege auf, die sich (in Längs- und Radialrichtung) zwischen den Taschen erstrecken, wobei die (radialen) Außenflächen dieser Radialstege zusammen mit den (radialen) Außenflächen der in Gießstellung befindlichen Kernsegmente die abzubildende Innenkontur vorgeben bzw. definieren. Die (radialen) Außenflächen der Radialstege sind bevorzugt mit Zugschrägen ausgebildet, damit der Dorn einfacher eingefahren bzw. zurückgezogen werden kann.It is envisaged that the cast part to be produced has a hollow-cylindrical area, the cylindrical inner contour of which is reproduced with the multi-part core, this core having three or more movable core segments and the mandrel being designed with three or more pockets in which these core segments can be moved transversely are arranged. In addition, the mandrel has three or more radially extending ridges extending (longitudinally and radially) between the pockets, the outer (radial) surfaces of these radial ridges together with the outer (radial) surfaces of those in the pouring position Core segments specify or define the inner contour to be mapped. The (radial) outer surfaces of the radial webs are preferably designed with draft bevels so that the mandrel can be inserted or withdrawn more easily.

Die erfindungsgemäße Gießform wird bevorzugt zur Herstellung eines Statortopfs für eine E-Maschine verwendet, wofür insbesondere eine Aluminium- oder Magnesiumgusslegierung eingesetzt wird. Gleichwohl ist die Erfindung nicht hierauf beschränkt.The casting mold according to the invention is preferably used to produce a stator pot for an electric machine, for which purpose a cast aluminum or magnesium alloy is used in particular. However, the invention is not limited to this.

Die Erfindung wird nachfolgend beispielhaft und in nicht einschränkender Weise mit Bezug auf die Figuren näher erläutert. Die in den schematischen und nicht-maßstabsgerechten Figuren gezeigten und/oder nachfolgend erläuterten Merkmale können, auch unabhängig von konkreten Merkmalskombinationen, allgemeine Merkmale der Erfindung sein und die Erfindung entsprechend weiterbilden.

Fig. 1
zeigt in einer Schnittdarstellung eine erfindungsgemäße Druckgießform mit einem mehrteiligen Kern, dessen Kernsegmente sich in ihren Gießstellungen befinden.
Fig. 2
zeigt eine Querschnittsdarstellung des zur Druckgießform der Fig. 1 gehörenden Kerns.
Fig. 3
zeigt die Druckgießform aus Fig. 1, wobei sich die Kernsegmente nun in ihren Entformungsstellungen befinden.
Fig. 4
zeigt in einer perspektivischen Darstellung den zum Kern der Fig. 2 gehörenden Dorn.
The invention is explained in more detail below by way of example and in a non-limiting manner with reference to the figures. The features shown in the schematic figures that are not true to scale and/or explained below can also be general features of the invention, independently of specific combinations of features, and develop the invention accordingly.
1
shows a sectional view of a die-casting mold according to the invention with a multi-part core, the core segments of which are in their casting positions.
2
shows a cross-sectional view of the die for the 1 belonging core.
3
shows the die 1 , with the core segments now in their demoulding positions.
4
shows a perspective view of the core of 2 belonging thorn.

Die in Fig. 1 gezeigte Druckgießform 100 weist eine untere, feststehende Formhälfte 110 und eine obere, bewegliche Formhälfte 120 auf. Die untere Formhälfte 110 ist mit einem Formhohlraum 130 zur Herstellung eines ringzylindrischen Druckguss(bau)teils 200 ausgebildet. Die hohlzylindrische Innenkontur wird mithilfe eines nachfolgend noch näher erläuterten Kerns 140 abgebildet, der den Hohlraum beim Druckgießen frei von Schmelze halten soll. D. h., der Formhohlraum 130 wird von einer äußeren Kavitätswand der unteren Formhälfte 110 und einer inneren Kavitätswand des Kerns 140 gebildet, die zusammen mit den stirnseitigen Kavitätswänden die Gestalt bzw. Form des herzustellenden Druckgussteils 200 definieren. Die stehende Ausrichtung ist nur beispielhaft. Ebenso können die Formhälften 110, 120 auch mit einer vertikalen Teilung als rechte und linke Formhälften ausgebildet sein.In the 1 Die casting mold 100 shown has a lower, fixed mold half 110 and an upper, movable mold half 120 . The lower mold half 110 is formed with a mold cavity 130 for the production of a ring-cylindrical die-cast part 200 . The hollow-cylindrical inner contour is reproduced with the aid of a core 140, which will be explained in more detail below, and which is intended to keep the cavity free of melt during die-casting. That is to say, the mold cavity 130 is formed by an outer cavity wall of the lower mold half 110 and an inner cavity wall of the core 140, which together with the end cavity walls define the shape or form of the die-cast part 200 to be produced. The standing orientation is only an example. Likewise, the mold halves 110, 120 can also be formed with a vertical division as right and left mold halves.

Bei dem Druckgussteil 200 handelt es sich z. B. um einen dünnwandigen Statortopf zur Aufnahme von Statorblechpaketen in einer E-Maschine für den Fahrantrieb (E-Antrieb) eines Kraftfahrzeugs. Einerseits ist das Druckgussteil 200 in Bezug auf seinen Durchmesser (z. B. > 200 mm) vergleichsweise dünnwandig (z. B. < 5 mm). Andererseits werden an das Druckgussteil 200 hohe mechanische Anforderungen gestellt. Die üblicherweise vorzusehenden Formschrägen an der äußeren Kavitätswand und an der inneren Kavitätswand führen abhängig vom Schrägungswinkel zu hohen und ungleichen Wanddicken, wodurch eine erhöhte Gefahr für Fehlstellen besteht.The die-cast part 200 is z. B. a thin-walled stator for receiving stator cores in an electric machine for the traction drive (electric drive) of a motor vehicle. On the one hand, the die-cast part 200 is comparatively thin-walled (e.g. <5 mm) in relation to its diameter (e.g. >200 mm). On the other hand, high mechanical demands are placed on the die-cast part 200 . Depending on the angle of inclination, the draft angles that usually have to be provided on the outer cavity wall and on the inner cavity wall result in high and unequal wall thicknesses, which means there is an increased risk of defects.

Bei der erfindungsgemäßen Druckgießform 100 ist der Kern 140 mehrteilig ausgebildet und weist mehrere querbewegliche Kernsegmente 146 sowie einen längs- bzw. axialverschieblich zwischen diesen Kernsegmenten 146 angeordneten Dorn 141 auf. Der Dorn 141 ist, wie aus Fig. 2 und Fig. 4 ersichtlich, mit drei gleichförmigen Taschen 145 ausgebildet, in denen die identisch geformten Kernsegmente 146 angeordnet sind. Der Dorn 141 ist ferner mit einem mittigen Konus bzw. Kegelstumpf 142 und drei davon in radialer Richtung R abragenden Radialstegen 143, die sich flügelartig im Winkelabstand von ca. 120° zwischen den Taschen 145 erstrecken, ausgebildet. Bevorzugt ist der Dorn 141 einstückig gefertigt, wie in Fig. 4 gezeigt. Die Kernsegmente 146 liegen an ihren radialen Innenflächen formschlüssig am Konus 142 an und sind hierzu mit komplementären Kegelmantelteilflächen ausgebildet.In the case of the die-casting mold 100 according to the invention, the core 140 is of multi-part design and has a plurality of transversely movable core segments 146 and a mandrel 141 which is arranged between these core segments 146 and can be displaced longitudinally or axially. The 141 mandrel is how out 2 and 4 as seen, is formed with three uniform pockets 145 in which the identically shaped core segments 146 are located. The mandrel 141 is also formed with a central cone or truncated cone 142 and three radial webs 143 which protrude in the radial direction R and extend like wings at an angular distance of approximately 120° between the pockets 145 . The mandrel 141 is preferably manufactured in one piece, as in 4 shown. The core segments 146 rest on their radial inner surfaces in a form-fitting manner on the cone 142 and are designed for this purpose with complementary partial cone surfaces.

Beim Ausfahren des Dorns 141, wozu dieser wie in Fig. 1 veranschaulicht nach oben bewegt wird, werden die Kernsegmente 146 mittels Keilschiebermechanismus (der Konus 142 wirkt wie ein Treibkeil) quer zur Bewegungsrichtung des Dorns 141 radial nach außen bewegt (über die Neigung der aufeinander abgleitenden Schrägflächen können der Verschiebeweg und ein Übersetzungsverhältnis eingestellt werden) und nehmen eine Gießstellung ein, wobei die radialen Außenflächen 144 der Radialstege 143 gemeinsam mit den radialen Außenflächen 147 der Kernsegmente 146 die abzubildende zylindrische Innenkontur definieren. Ferner weisen die Kernsegmente 146 an ihren Außenflächen 147 Formelemente 148 (siehe Fig. 1) zur Ausbildung hinterschnittiger Geometrien an der Innenkontur auf. Damit können hinterschnittige Geometrien, wie z. B. eine Innenringnut für einen Sicherungsring oder dergleichen, zumindest vorgegossen werden.When the mandrel 141 is extended, for which purpose this is done as in 1 is moved upwards, the core segments 146 are moved radially outwards transversely to the direction of movement of the mandrel 141 by means of a wedge slide mechanism (the cone 142 acts like a driving wedge) (the displacement path and a Transmission ratio can be set) and assume a casting position, the radial outer surfaces 144 of the radial webs 143 together with the radial outer surfaces 147 of the core segments 146 defining the cylindrical inner contour to be imaged. Furthermore, the core segments 146 have shaped elements 148 on their outer surfaces 147 (see 1 ) for forming undercut geometries on the inner contour. This allows undercut geometries such. B. an inner ring groove for a retaining ring or the like, at least be pre-cast.

Nachdem der Formhohlraum 130 mit Schmelze befüllt ist, wird der Dorn 141, noch bevor das Druckgussteil 200 seine Entformungstemperatur erreicht hat (um die Aufschrumpfkräfte klein zu halten), eingefahren, wozu dieser, wie in Fig. 3 veranschaulicht, nach unten zurückbewegt bzw. zurückgezogen wird. Dabei werden die Kernsegmente 146 quer zu Bewegungsrichtung des Dorns 141 radial nach innen bewegt und nehmen ihre Entformungsstellung ein, wobei sich zwischen den radialen Außenflächen 147 und der Innenkontur des Druckgussteils 200 ein Umfangsspalt S ausbildet (der Kern 200 hat also keinen Kontakt mehr mit dem Druckgussteil 200), der ein einfaches Ausheben des Druckgussteils 200 ermöglicht. (Das Druckgussteil 200 wird nach oben entformt.) Die Außenflächen 144 der Radialstege 143 sind mit Zugschrägen (z. B. 1° bis 3°) ausgebildet, bevorzugt über ihre gesamte Länge, damit sich diese beim Zurückziehen des Dorns 141 vom Druckgussteil 200 ablösen können. (Die Außenflächen 147 der Kernsegmente 146 sind ohne Form- bzw. Zugschrägen ausgebildet.) An der äußeren Kavitätswand der unteren Formhälfte 110 können konventionelle Formschrägen vorhanden sein. Die untere Formhälfte 110 kann zur Entformung auch mit einer vertikalen Teilung ausgebildet sein, sodass überhaupt keine Formschrägen erforderlich sind. Somit kann das ringzylindrische Druckgussteil 200 mit gleichmäßiger dünner Wanddicke und nur geringen Bearbeitungsaufmaßen (z. B. < 1,5 mm) druckgegossen werden.After the mold cavity 130 has been filled with melt, the mandrel 141 is retracted before the die-cast part 200 has reached its demoulding temperature (in order to keep the shrinkage forces small), for which purpose it is shown in 3 illustrated, is moved back or withdrawn downwards. The core segments 146 are moved radially inwards transversely to the direction of movement of the mandrel 141 and assume their demolding position, with a circumferential gap S forming between the radial outer surfaces 147 and the inner contour of the die-cast part 200 (the core 200 is therefore no longer in contact with the die-cast part 200), which allows easy lifting of the die-cast part 200. (The die-cast part 200 is removed from the mold upwards.) The outer surfaces 144 of the radial webs 143 are designed with draft bevels (e.g. 1° to 3°), preferably over their entire length, so that they become detached from the die-cast part 200 when the mandrel 141 is pulled back be able. (The outer surfaces 147 of the core segments 146 are formed without drafts.) Conventional drafts may be present on the outer cavity wall of the lower mold half 110 . The lower mold half 110 can also be designed with a vertical split for demoulding, so that no drafts are required at all. The ring-cylindrical die-cast part 200 can thus be die-cast with a uniformly thin wall thickness and only small machining allowances (e.g. <1.5 mm).

Wie vorausgehend erläutert, werden die Kernsegmente 146 durch Ausfahren des Dorns 141 quer zur Bewegungsachse L des Dorns 140 verschoben und in eine Gießstellung gebracht, wie in Fig. 1 mit Pfeilen veranschaulicht. Durch Einfahren des Dorns 141 werden die Kernsegmente 146 in eine Entformungsstellung gebracht bzw. rückgestellt, wie in Fig. 3 mit Pfeilen veranschaulicht. Die Kernsegmente 146 werden dabei nur in radialen Richtungen R verschoben (im Gegensatz zu einem Schieber, der durch Ein- und Ausfahren vor- und zurückbewegt wird). Eine radiale Bewegungsführung der Kernsegmente 146 erfolgt sowohl durch die Radialstege 143 als auch mithilfe von Nutführungen. Die untere Formhälfte 110 ist hierzu mit Nuten 119 oder dergleichen ausgebildet, in denen die Kernsegmente 146 mittels Nutensteinen 149 oder dergleichen in radialer Richtung R beweglich gelagert und in Umfangsrichtung sowie in axialer Richtung festgehalten sowie gegen Verdrehen und Verkippen gesichert sind. Die Nutensteine 149 können an die Kernsegmente 146 angeschraubt oder auch einstückig mit den Kernsegmenten 146 ausgebildet sein. In den Nuten 119 sind ferner Federn 150 angeordnet, die die Kernsegmente 146 gegen den Dorn 141 vorspannen und die Rückstellung ermöglichen.As previously explained, the core segments 146 are displaced transversely to the movement axis L of the mandrel 140 by extending the mandrel 141 and brought into a casting position, as in FIG 1 illustrated with arrows. By retracting the mandrel 141, the core segments 146 are brought into a demolding position or reset, as in 3 illustrated with arrows. In this case, the core segments 146 are only displaced in radial directions R (in contrast to a slider which is moved back and forth by extending and retracting). A radial movement guidance of the core segments 146 takes place both through the radial webs 143 and with the aid of slot guides. For this purpose, the lower mold half 110 is formed with grooves 119 or the like, in which the core segments 146 are fastened by means of sliding blocks 149 or The like are movably mounted in the radial direction R and held in place in the circumferential direction and in the axial direction and secured against twisting and tilting. The sliding blocks 149 can be screwed onto the core segments 146 or can also be designed in one piece with the core segments 146 . Also arranged in the grooves 119 are springs 150 which bias the core segments 146 against the mandrel 141 and enable resetting.

BezugszeichenlisteReference List

100100
Gießformmold
110110
Formhälftemold half
119119
Nutgroove
120120
Formhälftemold half
130130
Formhohlraummold cavity
140140
Kerncore
141141
Dornmandrel
142142
Konuscone
143143
Radialstegradial bar
144144
Außenfläche (am Radialsteg)Outer surface (at the radial web)
145145
Taschepocket
146146
Kernsegmentcore segment
147147
Außenfläche (am Kernsegment)Outer surface (on the core segment)
148148
Formelementfeature
149149
Nutensteinslot nut
150150
FederFeather
200200
Gussteilcasting
LL
Längsrichtunglongitudinal direction
RR
Radialrichtungradial direction
SS
Spaltgap

Claims (7)

  1. Casting mould (100) for producing a metallic cast part (200) which has a hollow-cylindrical region with a cylindrical inner contour, comprising:
    - a mould cavity (130) which corresponds to the dimensions of the cast part (200); and
    - at least one core (140), which is arranged in the mould cavity (130), for mapping of the inner contour, wherein this core (140) is a constituent part of the casting mould (100);
    wherein the core (140) is of multi-part form and has a plurality of movable core segments (146) and a mandrel (141) which is arranged so as to be longitudinally displaceable between the core segments (146),
    wherein the mandrel (141) is arranged centrally and the core segments (146) are arranged around the mandrel (141),
    wherein the mandrel (141) and the core segments (146) are formed with complementary oblique surfaces which form a wedge-type slide mechanism,
    wherein, during the longitudinal displacement of the mandrel (141), the core segments (146) are displaced transversely with respect to the movement direction of the mandrel (141) and can be brought into a casting position by extending of the mandrel (141) and can be brought into a demoulding position by retracting of the mandrel (141),
    wherein the multi-part core (140), with which the inner contour is mapped, has three or more movable core segments (146) and the mandrel (141) is formed with three or more pockets (145) in which these core segments (146) are arranged in a transversely movable manner,
    wherein the mandrel (141) also has three or more radial webs (143) which extend between the pockets (145), wherein the outer surfaces (144) of these radial webs (143) predefine, together with the outer surfaces (147) of the core segments (146) in the casting position, the inner contour to be mapped.
  2. Casting mould (100) according to Claim 1, characterized in that
    the core segments (146) are preloaded against the mandrel (141) by means of springs (150).
  3. Casting mould (100) according to either of the preceding claims,
    characterized in that
    the core segments (146) are guided in movement by means of groove guides (119, 149).
  4. Casting mould (100) according to one of the preceding claims,
    characterized in that
    the core segments (146) are formed with mould elements (148) which allow an undercut inner contour to be mapped.
  5. Casting mould (100) according to one of the preceding claims,
    characterized in that
    the outer surfaces (144) of the radial webs (143) are formed with pull slopes.
  6. Casting mould (100) according to one of the preceding claims,
    characterized in that
    the mandrel (141) is manufactured in one piece.
  7. Use of a casting mould (100) according to one of the preceding claims for production of a stator pot for an electric machine.
EP19200013.1A 2018-10-12 2019-09-27 Casting mould for manufaturing a casting part by having at least one internal contour and the use of such mold Active EP3636365B1 (en)

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DE102018217546.2A DE102018217546A1 (en) 2018-10-12 2018-10-12 Casting mold for producing a casting, which has at least one inner contour

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DE102020106059A1 (en) 2020-03-06 2021-09-09 Bayerische Motoren Werke Aktiengesellschaft Method for producing a cast component and casting station
DE102022209863A1 (en) 2022-09-20 2024-03-21 Volkswagen Aktiengesellschaft Method for producing a stator assembly with a cooling structure

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