DE10061806A1 - Process for die casting metals - Google Patents

Abstract

The invention relates to a casting chamber for the pressure casting of metal, with an outer jacket (2) and an inner cylinder (3) inserted into the outer jacket (2) and connected to it in particular by a shrink fit, which is characterized in that between the outer jacket (2) and Inner cylinder (3) at least one electric heating means (5) is provided for preheating the casting chamber (1), which extends at least over part of the axial length of the casting chamber (1).

Description

The present invention relates to a method for Die casting of metals in a casting chamber, with a Outer jacket and one inserted in the outer jacket and associated with it in particular through a shrink fit Inner cylinder. Furthermore, the invention relates to a Casting chamber for carrying out the process.

Casting chambers of the type mentioned above (DE 44 40 933) are primarily used in die casting machines for printing casting of metals such as aluminum, magne sium and brass. This will be mainly horizontal casting chambers used on their one, machine-side end pour a casting material opening and at its other, mold-side end, one Have molding material outlet opening.

The casting chambers are sometimes very stressful during operation exposed primarily to the high tempe moldings. So prevail in the Casting chamber between the machine side, where the hot casting material is poured into the casting chamber, and the mold side,  where the casting material leaves the casting chamber, Temperature differences of up to 300 ° C that lead to this can cause the casting chamber to warp in a banana shape.

Another problem is that due to the un different filling levels of the casting material the casting chamber becomes differently hot during die casting, with the fol ge that it deforms out of round. Furthermore, at Filling process below the filling opening temperatures of significantly more than 600 ° C. At this tempera iron atoms from the surface of the casting chamber Diffuse steel body, making the surface brittle will and flake off, so that washouts occur.

In order to counter this problem, it is proposed in the publication Patent Abstracts of Japan, Volume 10 , No. 234 (M-507), August 14, 1986 to arrange a coolant channel between the inner cylinder and the outer jacket of the casting chamber, through which a coolant is passed in order to lower the conversion temperature in the middle of the casting chamber.

Furthermore the article "Cooled die casting hot sleeve "Research Disclosure, UK, Industrial Opportunities Limited Havant, No. 321, January 1, 1991, p. 73 XP 000164457 in front of the molding material opening lying area of the casting chamber a coolant channel to be provided in the filling opening area counteract.  

However, none of the known measures is suitable Overall problem with the high temperatures and Differences in temperature in the casting chambers is linked to remedy.

The object of the invention is therefore a casting chamber trained in such a way that deformations due to temperature stresses and washouts in the Area of the filling opening can be largely prevented.

This object is achieved in that the Casting chamber before pouring metal onto a tempera is preheated from 450 ° C to 600 ° C. The invention the underlying idea is that the casting chamber is possible preferably evenly to such a high temperature zen and then keep that wall temperature during die casting due to the one poured into the chamber hot metal does not change or only changes magically. To this In this way, deformation of the casting chamber can be effectively prevented be changed.

In a casting chamber, the task is there according to the invention solved by that between the outer jacket and inner cylinder at least one electric heating means for preheating the Casting chamber is provided, which is at least one Part of the axial length of the casting chamber extends.  

It is essential here that the heating means an even Warm heating of the casting chamber to the above temperatures. To apply the requ heating power, it may be sufficient heating only in the bottom area of the casting chamber make. A faster warming can be achieved len, if the electrical heating medium over a large extends outer circumferential area. The electrical Heating medium in an axial section of the casting chamber meandering, towards the mold side and again have backward heating sections. Alternatively or in addition it is possible to use an electric heating medium to be used with heating coils that reverse the inner cylinder ben.

In a manner known per se, the casting chamber can be axially in a base body and a filler opening for the Casting material having exchangeable bushing can be divided. In In this case, the heating medium should at least in the basic body be provided by, also in the interchangeable socket a heating means can be provided, but does not have to. The Heating medium in the change socket can either be independent electrically supplied by the heating medium in the base body be, or with the heating medium in the base body electrically be connected. Otherwise, a control loop for the Temperature may be provided.

With regard to further advantageous embodiments of the Invention is based on the subclaims and the successor description of an exemplary embodiment with reference  refer to the attached drawing. In the Drawing shows:

Fig. 1 shows a first embodiment of a one-piece from the casting chamber according to the present invention in side view with a helical heating means and

Fig. 2 shows a second embodiment of a one-piece casting chamber according to the present invention in side view with meandering heating sections.

In Figs. 1 and 2 are different Ausführungsfor men a horizontal casting chamber 1 according to the present illustrated the invention as it is used in die casting machines for die casting of metals such as alu minium, magnesium or brass. The casting chambers 1 are made in one piece, ie not divided in their axial direction, and comprise an outer jacket 2 and an inner cylinder 3 shrunk into the outer jacket 2 . At the machine end of the casting chamber 1 , a filling opening 4 is provided through which che liquid or solidified metal can be filled or inserted into the interior of the casting cylinder 1 , and at the other, mold-side end of the casting chamber 1 is an outlet opening, not shown intended.

In the annular gap between the outer jacket 2 and the inner cylinder 3 , an electrical heating medium 5 is provided in both embodiments to the casting chamber 1 to a temperature of 450 ° C-600 ° C, preferably 450 ° C-550 ° C and in particular 500 ° C Evenly preheat -550 ° C. before metal is introduced into the casting chamber, and in this way prevent or at least counteract deformations of the casting chamber 1 which would otherwise occur due to temperature differences. The electrical heating medium 5 , of which only the heating wire is shown in the drawing, is designed differently in the different embodiments shown in FIGS. 1 and 2:
In the illustrated in Fig. 1 molding chamber 1, the electrical connections of the heating means 5 are both nenseitigen maschi at the end of the casting chamber 1. The heating wire is formed in the manner of a two-start thread and has a first section 5 a, which extends from the inlet to the mold-side end of the casting chamber 1 , and a second section 5 b, which connects to the first section 5 a and runs back to the machine end.

In the embodiment shown in Fig. 2, the connections of the heating means are also both on the inlet side of the casting chamber. However, the heating wire extends here in a meandering shape with heating sections A, B from the machine side to the mold side and back again around the inner cylinder.

In a manner known per se, the casting chamber can also be axial be divided, then a reason body and a change that can be connected to it on the machine side selsel bushing with the filling opening. In this case a heating wire is provided at least in the base body hen, with a heater in the interchangeable socket can be trained, but does not have to.

Claims (11)

1. A method for die-casting metal in a casting chamber ( 1 ) with an outer jacket ( 2 ) and one in the outer jacket ( 2 ) inserted and connected to it in particular by shrink fit inner cylinder ( 3 ), characterized in that the casting chamber ( 1 ) is preheated to a temperature of 450 ° C to 600 ° C before filling metal. 2. The method according to claim 1, characterized in that the casting chamber ( 1 ) is preheated to a temperature of 450 ° C to 550 ° C before the filling of metal. 3. The method according to claim 2, characterized in that the casting chamber ( 1 ) is preheated to a temperature of 500 ° C to 550 ° C before the filling of metal. 4. The method according to any one of the preceding claims characterized in that the casting chamber during the Die casting is kept at the preheating temperature. 5. casting chamber for die casting of metal, with an outer jacket ( 2 ) and one in the outer jacket ( 2 ) a set and with him in particular by shrink fit inner cylinder ( 3 ), characterized in that between the outer jacket ( 2 ) and Innenzy cylinder ( 3 ) at least one electric heating means ( 5 ) is provided for preheating the casting chamber ( 1 ), which extends at least over part of the axial length of the casting chamber ( 1 ). 6. Casting chamber according to claim 5, characterized in that the electrical heating means ( 5 ) extends over the entire axial length of the Gießkam mer ( 1 ). 7. casting chamber according to claim 5 or 6, characterized in that the electric heating means ( 5 ) in the nenzylinder ( 3 ) over at least one axial section of the casting chamber ( 1 ) surrounds helically. 8. casting chamber according to claim 7, characterized in that the pitch of the helix is constant. 9. Casting chamber according to one of claims 5 to 8, characterized in that the electrical heating means ( 5 ) at least in an axial section of the casting chamber ( 1 ) meandering with in the direction of the mold side and back again extending sections (A, B) by at least part of the circumference of the casting chamber ( 1 ) extends. 10. Casting chamber according to claim 9, characterized in that the electrical connections of the heating means ( 5 ) are on the machine side of the casting chamber ( 1 ). 11. Casting chamber according to one of claims 5 to 9, characterized characterized that a temperature control vorese hen is.