WO2006089442A1

WO2006089442A1 - Casting chamber

Info

Publication number: WO2006089442A1
Application number: PCT/CH2006/000104
Authority: WO
Inventors: Bernhard Fritsche; Bernd Watzinger
Original assignee: Bühler Druckguss AG
Priority date: 2005-02-28
Filing date: 2006-02-17
Publication date: 2006-08-31
Also published as: EP1853398A1; JP2008531290A; DE102005009669A1; US20080277088A1

Abstract

Disclosed is a casting chamber (1) of a die casting machine, comprising an inlet (2) and a casting plunger which is arranged so as to be movable along the longitudinal axis of the casting chamber (1). The casting chamber (1) is composed of an inner tube (3) which is coated with a thermally insulating layer and is shrunk into a steel jacket (5).

Description

casting chamber

The invention relates to a casting chamber for pressure casting of metallic materials in a die casting machine.

A die casting machine has at least one movable and a stationary mold part, which are divided along a parting plane, and a mold cavity enclosed by these mold parts. In this mold cavity to be cast metal is injected via a runner of the mold by means of a casting piston. The casting piston is displaceable in a casting chamber, into which the metal to be cast is insertable, by means of a drive along the longitudinal axis of the casting chamber. Such die casting machine is z. Example, the CH-A-689156 removable.

The introduction of the metal to be cast in the casting chamber via trough-shaped openings of the casting chamber, obliquely to perpendicular to the longitudinal axis of the casting chamber. The production cost of such a highly loaded casting chamber is correspondingly high. The high stress of the part of the casting chamber, which contains the filling opening of the pouring metal, results mainly from specific washouts depending on the type of dosage. In a metering from above, the filling opening opposite surface of the casting chamber is affected and at a dosage from below, especially the transition region of the filling itself. A consequence are surface erosion, clamping the casting piston and changing the casting chamber.

In addition to one-piece Giesskammem also two-piece Giesskammem were proposed to optimize material usage and Hersteilungsaufwand, especially with regard to the higher loaded part of the casting chamber containing the filling opening. This allows a replacement of the formerly wearing part of the casting chamber. The disadvantage of such a two-part design can be seen in increased assembly costs and a larger number of parts. The prior art, casting containers for die casting machines (DE-C-4439871) can be removed, which have a channel with a transfer piece, wherein the transfer piece is designed as a sleeve and is interchangeable held in a receptacle of the casting container.

It is also known in sand molds to provide a sprue with a heavy-duty, replaceable insert (EP-A-477119). The same describes EP-A-703027.

It is also known to provide Giesskammem or conveyor strands with thick, thermal insulation layers, both in sandwich execution as well as an outer envelope, the insulation is as consistently as possible. Filling openings form time-consuming interruptions.

The invention has the object of providing a generic casting chamber in such a way that in comparison to the prior art, a better thermal insulation of the casting chamber is achieved.

The problem is solved by the characterizing features of claim.

The invention is based on the recognition that a heat-optimized casting chamber can be achieved by passive measures. The casting chamber consists of an inner tube, on the outer surface of which an insulating layer is applied. The coated inner tube is covered by a steel jacket.

Particularly advantageous embodiments are achieved with the features of the subordinate claims.

Thus, only the inner tube, preferably with a wall thickness of only a few millimeters of a wear and heat-resistant steel and the outer steel shell of a cheaper tempered steel. The inner tube is preferably coated with a thin ceramic layer, for example made of ZrO 2, and is preferably shrunk into the steel jacket. The layer is applied by thermal spraying, eg plasma spraying.

A ceramic wear protection arrangement is provided in the inner tube below the filling opening for the molten metal to be cast, which is intended to prevent "washing out" of the inner wall of the inner tube The wear protection arrangement can be designed as a plate or disk, for example, and closes flush with the surface of the inner tube.

To the thermal benefits of a heated casting chamber, d. H. To use less pre-solidification in the casting chamber and the resulting higher component quality and lower rejects share, the casting piston must be moved at a higher temperature in the casting chamber. The temperature is adjusted so that, although a sufficiently thick ring of the melt solidifies (seal) but on the other hand, the lowest possible pre-solidification is ensured in the casting chamber. This requires the most accurate possible adjustment of the temperature of the casting piston at high cooling capacity, respectively. an intensive surface contact of the cooling medium with the casting piston.

According to the invention, the casting piston is cooled from the inside, preferably a water mist, wherein the evaporation enthalpy of the drops is used for the cooling. Preference is given to a temperature below 400 ⁰ C, so that the casting flask is maintained at a temperature below 400 ⁰ C. Preferably, the temperature of the casting piston in a range of about 15O ⁰ C moves below 400 ° C.

Alternatively, it is also conceivable to provide a heater instead of the insulating layer.

The invention will be described below in an embodiment with reference to a drawing. The drawing shows a casting chamber in section (schematized).

At a die casting machine, not shown, a stationary mold carrier is provided with a mold half attached thereto in a conventional manner. At these parts, a casting chamber 1 is arranged, in a known manner by means of a casting piston a not shown but familiar to those skilled drive and control device along the longitudinal axis of the casting chamber 1 is displaceable. The metal to be cast passes via a filling opening 2 into the casting chamber 1.

The casting chamber 1 consists of three layers. The inner layer forms an inner tube 3 with a wall thickness of a few millimeters, z. B. 5 mm, made of a high-strength steel, on the outer surface of which a thin, thermal insulation layer 4 of z. B. ZrO2 is applied. The insulation layer 4 is applied by plasma spraying. In the region of the filling opening 2, a ceramic wear protection ring 6 is embedded in the inner tube 3 on its opposite side.

The coated inner tube 3 is shrunk into a cylindrical, outer steel shell 5 made of a tempering steel.

The temperature of the casting chamber 1 is set to a value between 400 ⁰ C and 700 ⁰ C depending on the material to be cast.

Superheated water mist in which the temperature of the casting piston is also dependent on the material adjusted to a value between 150 ° C and 400 ⁰ C is fed with pressure into the interior of the casting piston through a carburetor. The casting piston is made of steel in combination with copper and / or titanium alloys.

reference numeral

Casting chamber Filling opening Inner tube Insulation layer Steel jacket Wear protection ring

Claims

claims

1. casting chamber, in particular a casting chamber (1) of a pressure casting machine with a filling opening (2) for the metal to be cast and a casting piston, which by means of a drive and control device along the longitudinal axis of the casting chamber (1) _. slidably disposed, characterized in that the casting chamber has an inner tube (3), on the outer lateral surface of a thermal insulation layer (4) is applied, wherein the inner tube (3) by a steel shell (5) is enveloped.

2. casting chamber according to claim 1, characterized in that the inner tube (3) and the steel shell (5) consist of different metallic materials.

3. casting chamber according to claim 1 or 2, characterized in that the insulating layer (4) is a ceramic material, preferably ZrO2.

4. casting chamber according to claim 3, characterized in that in the inner tube (3), the filling opening (2) opposite a Verschleissschutzelement is inserted.

5. A process for producing a casting chamber according to claims 1 to 4, characterized by the method steps:

> Coating of the outer surface of an inner tube (3) with a thermal insulation layer (4) and

> subsequent shrinking of the coated inner tube (3) in a steel jacket (5). A method according to claim 5, characterized in that before the coating of the inner tube (3) a wear protection element in the, a filling opening (2) opposite side of the inner tube (3) is arranged.