EP3122494A1 - Dispositif de coulée sous pression d'une pièce métallique - Google Patents

Dispositif de coulée sous pression d'une pièce métallique

Info

Publication number
EP3122494A1
EP3122494A1 EP15707393.3A EP15707393A EP3122494A1 EP 3122494 A1 EP3122494 A1 EP 3122494A1 EP 15707393 A EP15707393 A EP 15707393A EP 3122494 A1 EP3122494 A1 EP 3122494A1
Authority
EP
European Patent Office
Prior art keywords
feed channel
molten metal
cavity
valve
die casting
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP15707393.3A
Other languages
German (de)
English (en)
Other versions
EP3122494B1 (fr
Inventor
Hubert Lang
Lucas Schulte-Vorwick
Richard Schächtl
Jean-Marc Segaud
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Bayerische Motoren Werke AG
Original Assignee
Bayerische Motoren Werke AG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Bayerische Motoren Werke AG filed Critical Bayerische Motoren Werke AG
Publication of EP3122494A1 publication Critical patent/EP3122494A1/fr
Application granted granted Critical
Publication of EP3122494B1 publication Critical patent/EP3122494B1/fr
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Classifications

    • 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
    • B22D17/08Cold chamber machines, i.e. with unheated press chamber into which molten metal is ladled
    • 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
    • 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
    • B22D17/2015Means for forcing the molten metal into the die
    • B22D17/2023Nozzles or shot sleeves
    • 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
    • B22D17/2015Means for forcing the molten metal into the die
    • B22D17/203Injection pistons
    • 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
    • B22D17/2272Sprue channels
    • 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
    • B22D17/2272Sprue channels
    • B22D17/2281Sprue channels closure devices therefor
    • 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
    • B22D17/30Accessories for supplying molten metal, e.g. in rations
    • 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
    • B22D17/32Controlling equipment

Definitions

  • the present invention relates to a device for die casting a metallic component.
  • Die casting is an industrial casting process for the mass production of components.
  • metallic materials with a low melting point such as aluminum and magnesium, are used.
  • molten metal is pressed under high pressure of about 10 to 200 MPa and with a high mold filling rate of up to 120 m / s into the cavity of a die, where it then solidifies. This is done with a permanent form, i. without model, worked.
  • the ratio of the sprue mass to the mass of the component to be produced is one and greater.
  • die casting thus more material waste is generated as material is used for the component. This is uneconomical for several reasons.
  • significantly more material has to be melted down for each component than is actually needed for the component.
  • the material waste must be disposed of after separation or remelted for reuse.
  • the feed channels are regularly designed with comparatively large flow diameters in order to keep the cooling of the melt in the gate system and the flow resistance as low as possible.
  • the melt in the gate system regularly solidifies much later than in the cavity of the die itself. The achievable cycle times are thus limited by the time required for the material to set in the gate system.
  • the size of the die casting mold and the closing forces required for closing the two-part die casting mold are increased by the gating system, and thus the plant outlay is increased.
  • the disadvantages caused by the sprue system of a pressure casting apparatus can in principle also occur in the technologically similar injection molding of synthetic materials.
  • this can be avoided by designing an injection molding apparatus with a so-called hot runner system.
  • the sprue system is heated to a higher temperature and thermally insulated from the rest of the injection molding tool. This prevents the material from solidifying in the sprue system.
  • Valves located in the transition from the gate system to the cavity decouple the solidifying material in the cavity from the material in the gate system and allow the demoulding of the solidified component without the gate.
  • the invention provides that the feed channel forms an annular channel, is conveyed in the molten metal by means of a conveyor in the circuit.
  • the feed channel as an annular channel
  • this allows the permanent delivery of the material located in the feed channel and thus also when no material is being introduced into the cavity, as is the case for example during curing of the material in the cavity to form the component or during demoulding of the component. Permanent delivery and thus movement of the material in the feed channel ensures thorough mixing and thus also prevents local hardening of the material in the feed channel.
  • Another relevant advantage, which can be realized by the inventive design of the device, is that the pressure conditions in the supply channel can be influenced better due to the annular configuration. This is especially true if, as is preferably provided, more than one conveyor is provided. An influence on the pressure conditions in the Zuliteka- In particular, it can be advantageous if, as is preferably provided, a plurality of pouring valves are distributed along the feed channel.
  • the molten metal may in particular be a melt of a light metal, in particular aluminum or magnesium, or of an alloy comprising such a light metal.
  • the feed channel is integrated in a stationary part of the die casting mold.
  • the die casting mold then still has at least one mobile part, which can be removed from the stationary part in order to enable demolding of the component.
  • the source of the molten metal comprises a Vorhalteraum and a separable connected to the Vorhalteraum metal melt reservoir. The separation of the source of molten metal in a Vorhalteraum and a
  • Metal melt reservoir allows to isolate a defined amount of the molten metal, then to introduce an appropriate amount of the molten metal into the cavity to pressure-mold the component.
  • the metal melt contained in the Vorhalteraum can be discharged by means of pressure generating means in the feed channel.
  • the pressure generating means may preferably be at least one piston, which may in particular be designed to be hydraulically displaceable in order to change the volume of the Vorhalteraums.
  • a controllable valve may be provided which closes or at least partially releases a transition opening formed between the Vorhalteraum and the molten metal reservoir, if necessary.
  • the feed channel opens into the Vorhalteraum at least two places.
  • the holding space can be advantageously integrated into a circulation promotion of the molten metal in the feed channel.
  • this can also positively influence the introduction of the molten metal into the cavity via a plurality of pouring valves, since in this way the flow paths of the molten metal from the holding space to the individual pouring valves can be kept comparatively short.
  • the supply channel is formed in at least a portion of pipe sections, in particular straight pipe sections and connecting pieces of pipe pieces.
  • a supply channel can be formed, which is simple in construction and at the same time can compensate for the considerable loads exerted by the molten metal on the components forming the supply channel, in particular the different thermally induced elongations.
  • To connect the pipe sections with the connecting pieces can be provided that the ends of the pipe sections are inserted into corresponding receiving openings of the connecting pieces.
  • a defined longitudinal mobility of the ends of the pipe sections can be provided in the receiving openings to compensate for different thermally induced elongations of the pipe sections on the one hand and the connecting pieces on the other hand.
  • the connecting pieces integrate a curved channel section and / or a pouring valve.
  • the integration of curved sections of the feed channel and of functional elements of the device thus takes place preferably in the optionally large-volume designed connecting pieces.
  • These also offer the possibility of a good integration of a heating device to actively heat the connectors and thus the guided inside the corresponding feed channel metal melt and thus keep it liquid.
  • the pipe sections of the feed channel are passively heated, ie by the molten metal flowing through them itself.
  • the pipe sections and the connecting pieces can preferably be provided to form the pipe sections and the connecting pieces at least in large part from the same material.
  • a material for the pipe sections and / or for the connecting pieces in particular a ceramic material, such as, for example, aluminum titanate and / or silicon nitride, can be used.
  • the conveyor is designed to act electromagnetically. This is thus designed so that moving magnetic fields are generated, which cause the movement of the molten metal by magnetic force. This makes it possible to position all parts of the conveyor outside the molten metal. A positioning of conveying elements, such as a pump wheel, within the molten metal can be avoided.
  • a pouring valve for a device according to the invention may preferably have a transversely and in particular perpendicular to the longitudinal axis of the feed channel movable valve body which closes a supply channel connecting the outlet opening in a closed position and at least partially releases the outlet opening in an open position.
  • a valve seat is formed for the valve body, which is widening in the direction of the feed channel.
  • a head of the valve body may be tapered in the direction of the cavity.
  • the quality of the component to be produced can be positively influenced in a known manner.
  • a reduction of pores and air pockets can be achieved.
  • a device for densification of the molten metal introduced into the cavity can take place at several suitable points of the casting mold.
  • an integration of a Nachdrückkolbens movable into a position projecting into the cavity into the pouring valve and in particular the valve body may be advantageous.
  • the forcing piston can be moved into a sprue system which is present anyway (according to the invention, however, very small volume) between the outlet of the pouring valve and the cavity of the casting mold. This not only avoids an additional surface defect on the component produced by the forcing piston, but optionally also further reduces the volume of the sprue system and thus a sprue remaining on the component.
  • the valve body and / or the Nachdrückkolben may preferably be independently operable independently in both directions (retraction and extension).
  • at least one corresponding adjusting device can be provided, which can be designed to be particularly hydraulically effective. Further preferably, it may be provided to thermally isolate the adjusting device (s) from the feed channel in order to minimize the thermal load on the adjusting device by a heat transfer from the molten metal guided in the feed channel.
  • the thermal insulation can, for example, by a structural separation with Intermediate arrangement of insulating elements or air-filled spaces done.
  • FIG. 1 shows a device according to the invention for die casting a metallic component in a view from above
  • FIG. 2 shows a part of the device according to FIG. 1 in a longitudinal section
  • FIG. 3 shows a cross section through the representation of FIG. 2 along the sectional plane III-III
  • FIG. 4 shows a part of the feed channel of the device according to FIG. 1 in one
  • FIG. 5a to 5f different positions of a pouring valve of the device according to FIG. 1 during the die casting of a metallic component
  • FIG. 6 shows a pouring valve for a device according to FIG. 1 in a side view
  • FIG. 7 shows a section through the pouring valve according to FIG. 6 along the FIG
  • FIG. 8 shows the pouring valve according to FIGS. 6 and 7 in a front view
  • FIG. 9 shows a section through the pouring valve according to FIG. 8 along the
  • Section plane IX - IX, 10 shows a section through the pouring valve according to FIG. 8 along the sectional plane X - X, FIG.
  • Figure 1 1 a section through the pouring valve according to FIG. 8 along the
  • FIGS. 12a and 12b a longitudinal section through an alternative embodiment of a pouring valve for a device according to FIG. 1 in two switching positions,
  • FIGS. 14a and 14b a longitudinal section through an alternative embodiment of a pouring valve for a device according to FIG. 1 in two switching positions
  • FIGS. 14a and 14b a longitudinal section through an alternative embodiment of a pouring valve for a device according to FIG. 1 in two switching positions
  • FIG. 15 shows a front view of an alternative embodiment of a pouring valve for a device according to FIG. 1,
  • FIG. 16 shows the pouring valve according to FIG. 15 in a longitudinal section
  • FIG. 17a and 7b show a front view through an alternative embodiment of a pouring valve for a device according to FIG. 1 in two switching positions, FIG.
  • Figures 18a and 18b longitudinal sections through the pouring valve according to FIGS. 17a and
  • FIGS. 19a and 19b show a front view through an alternative embodiment of a pouring valve for a device according to FIG. 1 in two switching positions
  • FIGS. 20a and 20b show longitudinal sections through the pouring valve according to FIGS. 17a and 17b
  • Fig. 1 shows schematically a device according to the invention for die casting a metallic component.
  • the device comprises a die-casting mold 1, which can be exchangeably mounted in a press device 2. To replace the die casting mold 1, for example, along the double arrow 3 out of the press device or be moved into this.
  • the die casting mold 1 comprises a lower part shown in FIG. 1, which can be fixedly connected to a stationary part of the press device 2 shown in FIG.
  • the die-casting mold can be closed, in which case the upper part of the die-casting mold 1 rests sealingly on the lower part of the die-casting mold 1. In this case, a largely closed cavity 5 is formed centrally within the die 1, which represents the negative mold of the component to be produced.
  • the die 1 can be opened after die casting and solidification of the component and the component thus be removed from the mold.
  • a feed channel 6 for molten metal, from which the component is to be pressure-cast integrated In the die casting mold 1, surrounding the cavity 5, a feed channel 6 for molten metal, from which the component is to be pressure-cast integrated.
  • the integration of the feed channel 6 into the die casting mold 1 can be interchangeable provided, for example by the corresponding elements (pipe sections 7 and connectors 8) of the feed channel 6 interchangeable in corresponding receiving openings or Recesses of a body of the die 1 are arranged.
  • the feed channel is composed of straight pipe sections 7 and connecting pieces 8. As can be seen from FIG.
  • connection between the pipe sections 7 and the connecting pieces 8 takes place by inserting an end of a pipe section 7 adjoining a connecting piece 8 into a corresponding receiving opening of this connecting piece 8
  • Receiving openings have a defined excess in both the radial and longitudinal axial direction of the pipe sections 7 in order to compensate for a occurring during operation, thermally induced elongation of these elements.
  • a sealing of the between the outside of the inserted ends of the pipe sections 7 and the inner walls of the corresponding receiving openings can be effected by a separate sealing element 9, for example in the form of a metal O-ring, in particular a so-called Wills ring.
  • connecting pieces 8 are curved by 90 ° extending channel sections 10 integrated.
  • each a pouring valve 1 1 is integrated in the two centrally located connecting pieces 8 each a pouring valve 1 1 is integrated.
  • the pouring valves 11 serve to introduce the molten metal contained in the feed channel 6 into the cavity 5 during die casting of the component. If the cavity 5 is filled, it is separated from the feed channel 6 by closing the pouring valves 11. As a result, the molten metal contained in the cavity 5 can harden independently of the molten metal contained in the feed channel 6, and the component can be removed from the mold after it has hardened.
  • the connecting pieces 8 are actively heated.
  • these each include a heater, not shown. This can be operated in particular electrically. For the pipe sections 7, however, no active heating is provided (but possible).
  • a connecting piece 8 which serves only as a connecting sleeve 12 for two pipe sections, and thus neither a curved channel portion 10 nor a pouring valve 11 integrated.
  • Such a connecting piece 8 can in particular serve to keep the length of the individual pipe sections 7 connected thereto low.
  • the pipe sections 7 and the connecting pieces 8 can preferably be provided that the pipe sections 7 and the connecting pieces 8 as far as possible from the same material form.
  • a ceramic material such as aluminum titanate and / or silicon nitride, are suitable.
  • Such a ceramic material can be characterized in particular by a good high-temperature resistance and a good chemical resistance to the molten metal (especially in an aluminum-metal melt).
  • the device according to the invention further comprises a supply and supply part 13.
  • a source for the molten metal is integrated.
  • the Vorhalteraum 14 is fluidly connected via a transfer line 16 to the molten metal reservoir 15, wherein the fluid-conducting connection by means of a controllable melt valve 17 is closed as needed, creating a pressure-tight separation between the Vorhalteraum 14 and the molten metal reservoir 15 can be achieved.
  • the Vorhalteraum 14 is connected via two likewise tempered connecting portions 18 of the feed channel 6 with the formed in the die 1 section of the feed channel 6. In the connecting portions 18, a conveyor 19 is interposed in each case, which are designed as electromagnetic circulation pumps.
  • the connecting sections 18 are connected via preferably automatically detachable coupling devices 20 to the section of the feed channel 6 integrated in the die-casting mold 1.
  • the molten metal reservoir 15 is formed in the present embodiment as an open at its top container, which can be filled in a known manner, for example, a dosing spoon or a dosing.
  • Transfer line 16 is at the bottom of the molten metal reservoir 15 and leads to a transfer opening 2, which opens at the lowest point in the cylindrically shaped Vorhalteraum 14.
  • the transfer opening 21 is closed or released by means of a casting piston 22 as a function of the switching position of the melt valve 17.
  • the Vorhalteraum 14 is first prefilled.
  • the melt valve 17 is opened, whereby the Vorhalteraum 14 is filled by the hydrostatic pressure of the molten metal contained in the molten metal 15.
  • the level in the molten metal reservoir 15 should always be at least as high as the highest point of the Vorhalteraums 14.
  • Bleeding the Vorhalteraums 14 in the pre-filling with molten metal can be done via the supply channel 6 and the open G veiventile 11 (or one or more separate (not shown) vent valves). Further, operation of the conveyors 19, in which both promote toward the Vorhalteraums 14 (ie, "backwards"), overflow of molten metal entering from the molten metal reservoir 15 in the Vorhalteraum 14 via the connecting portions 18 in the integrated into the die 1 section of the Feed channel 6 prevents and thus a largely complete pre-filling of the Vorhalteraums 14 can be achieved.
  • the feed channel 6 can be filled with the molten metal.
  • the melt valve 17 is opened again and at the same time the two conveyors 19 are switched so that this molten metal is conveyed in the direction of the feed channel 6 (i.e., "forward")
  • the conveyors 19 can be driven at full power, resulting in a filling of the feed channel 6 with the molten metal under a pressure of, for example, a maximum 5 bar can lead.
  • a pressure of, for example, a maximum 5 bar can lead.
  • one of the conveyors 19 is further forwarded with a reduced power of, for example, 20%, while the second conveyor 19 further advances with increased, for example, full power.
  • This circuit of the delivery devices 19 is referred to as "circulation circuit.”
  • the circulation circuit of the delivery devices 19 creates a pressure difference between the two connection sections 18 of the supply channel 6, which form a ring channel for continuous circulation of the molten metal (together with the storage area 14) Feed channel 6 provides.
  • a casting piston 22 is extended in the case of a filled holding space 4 and feed channel 6 by means of a hydraulic drive 23, in particular, such that the molten metal contained in the holding space 14 and the feed channel 6 is pressurized. Then, the pouring valves 1 1 are opened and the amount of molten metal required for the casting over the casting piston 22 in the feed channel 6 nachgeschoben. After complete filling of the cavity 5 with the molten metal, the pouring valves 1 1 close again. During die casting, the circulation circuit of the conveyors 19 remains activated. The Vorhalteraum 14 can then be refilled to prepare the die casting of another component.
  • the melt valve 17 is opened and the casting piston 22 is moved back so that molten metal - assisted by the hydrostatic pressure - is sucked in from the metal reservoir 15 into the holding space 14.
  • the Vorhalteraum 14 is filled with an amount of molten metal, which corresponds approximately to the amount of material required for the component. The volume and thus the amount of molten metal which can be introduced into the holding space 14 can be adjusted via the position of the retracted casting piston 22. If the Vorhalteraum 14 completely filled, the melt valve 17 is closed. When refilling the Vorhalteraums 4, the circulation circuit of the conveyor devices 19 also remains activated. By doing taking place forward conveying both conveyors 19 can be avoided that the supply channel 6 is partially emptied when refilling the Vorhalteraums 14 and the filling of the Vorhalteraums 14 required melt rather exclusively from the
  • Metal melt reservoir 15 is sucked.
  • Metal melter reservoir 15 are emptied.
  • both conveyors 19 are switched backwards and the melt valve 17 and the venting the pouring valves 1 1 (or the separate vent valves) opened.
  • the molten metal is then conveyed into the molten metal reservoir 15.
  • a drain valve 16 integrated in the transfer line 16 By opening a drain valve 16 integrated in the transfer line 16, the molten metal reservoir 15 and also the storage compartment 14 can be completely emptied.
  • the emptied die 1 can be automatically decoupled and moved out of the press device 2.
  • the actuation of a pouring valve 11 during the die casting of a component is shown in FIGS. 5a to 5f in six steps or switching positions.
  • Fig. 5a shows the switching position of the pouring valve 11, in which this is, while the cavity 5 of the die casting mold 1 is prepared for die casting. It can be cleaned and sprayed with a release agent.
  • a valve body 25 of the pouring valve 11 is located in an outlet opening
  • the Nachdrückkolben 27 positioned in an extended in the direction of the cavity 5 position.
  • the Nachdrückkolben 27 protrudes beyond the valve body 25 into a gate section 28 of the cavity. 5
  • the forcing piston 27 is first moved into a retracted position (see Fig. 5b) and then the valve body 25 is moved into an open position (see Fig. 5c).
  • the switching position according to FIG. 5e is maintained until the material solidifies in the cavity 5 and is cooled in a defined manner and can thus be removed from the mold.
  • the forcing piston 27 is moved to the retracted position (see Fig. 5f).
  • FIGS. 6 to 11 A possible embodiment of the pouring valve 11 is shown in FIGS. 6 to 11 in various views and sectional views.
  • the pouring valve 1 comprises a housing 29, which may also be a housing of the corresponding connecting piece 8 of the feed channel 6 or which is integrated in an additional housing of such a connecting piece 8.
  • the housing 29 comprises two housing parts 30, 31.
  • a first housing part 30 integrates a first through-opening, which forms a section of the feed channel 6, and two receiving openings 32, which serve to receive one end each of a pipe section 7 of the feed channel 6 (see FIG. Furthermore, in this first housing part 30, a second passage opening is integrated, which extends perpendicular to the first passage opening and in one section, the outlet opening 26 of the pouring valve 1 1 forms and serves in another portion of the guide of the movable valve body 25. A portion of the outlet opening 26 lying adjacent to the first passage opening is designed to taper in the direction of the cavity 5. This section of the outlet opening 26 serves as a valve seat for the valve body 25. Its front, the outlet opening 26 facing the end is also formed tapered.
  • the angle which the conical lateral surface of the valve body 25 encloses with the longitudinal axis of the valve body 25 is smaller than the angle which the conical wall section of the outlet opening 26 encloses with the longitudinal axis of the outlet opening. Furthermore, it can be provided that the conical section of the lateral surface of the valve body 25 and / or the conical wall section of the outlet opening 26 have a slightly curved course, whereby a secure Vollumfnatureiiches concern the valve body 25 can be ensured in the valve seat.
  • a second housing part 31 comprises two adjusting devices in the form of coaxially aligned hydraulic cylinders.
  • a first, closer to the first housing part hydraulic cylinder is used for the method of the valve body 25, while the Nachdrückkolben 27 is movable over the second hydraulic cylinder.
  • the end of the Nachdschreibkolbens 27 spaced from the cavity 5 is directly connected to a piston 33 which can be displaced within a cylinder tube 34 by generating a pressure difference on the two sides separated from the piston 33.
  • the first hydraulic cylinder also comprises a piston 35, which is displaceable by the generation of a pressure difference within a cylinder tube 41 of the first hydraulic cylinder.
  • the annular disk-shaped piston 35 is movably guided on the Nachdschreibkolben 27, which thus extends through the first hydraulic cylinder, but without affecting this functionally.
  • About the two housing parts 30, 31 connecting spacer 37 made of a thermally comparatively good insulating material is a heat transfer from the held in the first housing part 30 molten metal over the first housing part 30 on the second housing part 31 and the hydraulic cylinder integrated therein low.
  • FIGS. 12 to 20 also show various alternative embodiments for pouring valves 11, which can be used in the device according to the invention according to FIG.
  • Figs. 12a and 12b a pouring valve 1 1, in which a cylindrical valve body 25 is mounted perpendicular to the longitudinal axis of the formed by a housing 29 of the pouring valve 1 1 portion of the feed channel 6 movable.
  • the outlet opening 26 of the pouring valve 1 1 is cylindrical with a roughly the outer performed by measuring the valve body 25 corresponding inner diameter. In the closed position, the valve body 25 closes the outlet opening 26 by radial contact with its inner wall (see Fig. 12b).
  • the pouring valve 1 1 shown in FIGS. 13a and 13b differs from the pouring valve 11 shown in FIGS.
  • the outlet opening 26 is stepped and comprises a first, the cavity 5 adjacent portion in which the inner diameter is smaller than the outer diameter of the valve body 25.
  • Located adjacent to the feed channel 6 is a second section of the outlet opening 26, in which the inner diameter is slightly larger than the outer diameter of the valve body 25. In the closed position of the valve body 25, this thus abuts the front side on the shoulder formed between the two sections of the outlet opening 26.
  • the valve body 25 is arranged around a portion of the feed channel 6 formed perpendicular to the longitudinal axis of the housing 29.
  • the valve body 25 comprises a first passage opening 38 extending in the direction of the longitudinal axis of the section of the feed channel 6. From this first passage opening 38, a second through-opening 39 extends in an eccentric arrangement with alignment extending perpendicular to the longitudinal axis of the first passage opening 38. In the open rotational position of the valve body 25, this second through-opening 39 merges into the outlet opening 26, whereby the supply channel 6 is fluid-conductively connected to the outlet opening 26 via the two through-openings 38, 39.
  • the maximum outer diameter of the valve body 25 is smaller than the width or diameter of the portion of the feed channel 6 formed by the pouring valve 11.
  • the valve body 11 can always be flowed around by the molten metal whereby a continuous circulation of the flow of the molten metal is made possible in the feed channel 6 forming an annular channel.
  • the pouring valve 11 shown in FIGS. 15 and 16 comprises a valve body 25 in the form of a displaceable valve plate arranged on the outside of the housing 29 of the pouring valve 11.
  • two exhaust nozzles 26 arranged offset in the direction of the longitudinal axis of the section of the feed channel 6 formed by the pouring valve 11 are merely exemplified, which are in an open position of the valve plate, each with a passage opening 40 in the valve plate in overlap. Moving the valve plate to a closed position results in covering the outlet openings 26 through the valve plate.
  • the sleeve-shaped valve body 25 is used, which rests against the wall of the formed by the pouring valve 11 portion of the feed channel 6.
  • the sleeve-shaped valve body 25 comprises a radially extending passage opening 40, which is in an (opening) rotational position in overlap with the outlet opening 26.
  • the pouring valve 1 1 shown in FIGS. 19 and 20 likewise comprises a bush-shaped valve body 25 with a passage opening 40 which can be brought into overlap with the outlet opening 26, in which case the opening or closing of the pouring valve 11 is displaced by displacing the bush-shaped valve body 25 in the direction the longitudinal axis of the portion of the feed channel 6 formed by the pouring valve 11 is effected.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Molds, Cores, And Manufacturing Methods Thereof (AREA)

Abstract

L'invention concerne un dispositif de coulée sous pression d'une pièce métallique au moyen d'un moule de coulée sous pression (1) qui comporte une cavité (5) formant la pièce, la cavité (5) étant reliée à une source de métal fondu par le biais d'au moins un conduit d'alimentation à température contrôlée (6) et le métal fondu étant introduit dans la cavité (5) par le biais d'au moins une vanne de coulée (11). L'invention est caractérisée en ce que le conduit d'alimentation (6) forme un conduit annulaire dans lequel le métal fondu peut être mis en circulation à l'aide d'un moyen transporteur (19).
EP15707393.3A 2014-03-24 2015-03-04 Dispositif de coulée sous pression d'une pièce métallique Active EP3122494B1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE102014205388.9A DE102014205388A1 (de) 2014-03-24 2014-03-24 Vorrichtung zum Druckgießen eines metallischen Bauteils
PCT/EP2015/054458 WO2015144398A1 (fr) 2014-03-24 2015-03-04 Dispositif de coulée sous pression d'une pièce métallique

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EP3122494A1 true EP3122494A1 (fr) 2017-02-01
EP3122494B1 EP3122494B1 (fr) 2020-07-08

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US (1) US10092950B2 (fr)
EP (1) EP3122494B1 (fr)
CN (1) CN105848809B (fr)
DE (1) DE102014205388A1 (fr)
WO (1) WO2015144398A1 (fr)

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE102018211053A1 (de) * 2018-07-04 2020-01-09 Volkswagen Aktiengesellschaft Druckgießform und Druckgießverfahren zur Herstellung eines mit einem hohlzylindrischen Bereich ausgebildeten Druckgussbauteils
AT523251A1 (de) * 2019-12-13 2021-06-15 Fill Gmbh Verfahren zum Gießen von Schmelze mittels eines Schmelzebehälters in welchem ein Schmelzeaufnahmeraum ausgebildet ist
CN115971447A (zh) * 2023-01-05 2023-04-18 重庆美利信科技股份有限公司 一种薄齿散热器的压铸模具和压铸方法

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DE1290672B (de) * 1964-09-19 1969-03-13 Mahle Werk Gmbh Druckgiessform
US4086953A (en) * 1975-02-24 1978-05-02 Kraklau David M Shot sleeve
DE4444092C2 (de) 1994-10-12 1997-02-13 Werner Kotzab Verfahren und Anordnung zum Temperieren einer Spritzgießform mit wenigstens einer beheizten Düse oder einem Heißkanal
US5711363A (en) * 1996-02-16 1998-01-27 Amorphous Technologies International Die casting of bulk-solidifying amorphous alloys
JP3793644B2 (ja) * 1998-07-17 2006-07-05 修 山本 多層構造のスリーブ、及びダイカストマシン
DE10047735A1 (de) * 2000-09-27 2002-04-11 Rauch Fertigungstech Gmbh Verfahren zum Druckgiessen und Füllbüchse hierfür sowie Druckgiessmaschine
CA2453170C (fr) * 2002-12-20 2012-02-21 Mold-Masters Limited Appareil de moulage par injection a entree laterale
US6945310B2 (en) 2003-05-19 2005-09-20 Takata Corporation Method and apparatus for manufacturing metallic parts by die casting
US20070277953A1 (en) * 2006-06-01 2007-12-06 Ward Gary C Semi-solid material formation within a cold chamber shot sleeve
CN202114235U (zh) * 2011-06-08 2012-01-18 宁波思进机械有限公司 压铸机出油变速系统
CN202291259U (zh) * 2011-08-30 2012-07-04 镇江同舟螺旋桨有限公司 大型船用铜质螺旋桨铸件浇注系统
DE102012010923A1 (de) 2012-06-04 2013-12-05 Gebr. Krallmann Gmbh Fördervorrichtung für eine Metallschmelze in einem Spritzdruckaggregat
DE102013105435B3 (de) * 2013-05-27 2014-07-10 Schuler Pressen Gmbh Gießventil mit einem Nachverdichtungskolben
DE102013105433B3 (de) * 2013-05-27 2014-05-22 Schuler Pressen Gmbh Gießvorrichtung mit einer Ringleitung und Gießverfahren

Also Published As

Publication number Publication date
US10092950B2 (en) 2018-10-09
US20170008078A1 (en) 2017-01-12
EP3122494B1 (fr) 2020-07-08
CN105848809A (zh) 2016-08-10
CN105848809B (zh) 2018-06-08
DE102014205388A1 (de) 2015-09-24
WO2015144398A1 (fr) 2015-10-01

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