DE676664C - Process for the production of finished metal castings by melting the latter in the mold - Google Patents

Description

Process for the production of finished metal castings by melting the latter in the casting mold. February 1936 onwards The main patent started on December 18, 1928. Patent was granted on May 17 , 1939. When casting liquid metals, it is preferred to use molds that can be made from a wide variety of metallic materials. These metallic molds have the disadvantage that they can warp when the highly heated metals are poured in, as a result of which internal stresses arise in the cast bodies. These stresses in the cast material naturally reduce the durability of the cast piece.

So, on the other hand, one has long had what are known as sand molds worked, in which the liquid metal was compacted wet in a cavity Molding sand was poured. This has the disadvantage that one for each piece new shape must be made because the shape is unusable after casting. In addition comes that impurities pass into the casting piece in the case of not entirely pure types of sand can and thus reduce its value. You want the contaminated casting still use, it becomes an expensive one due to the superficial impurities Rework necessary.

So one finally came to use ceramic materials as mold building material to use. Essentially, a process is used that is the production corresponds to the sand molds, however, the mold-forming substances before use to be burned. The molds produced in this way do not and can not warp used very many times. When choosing materials that are resistant to temperature deformation, the result In this case, it is a very convenient use and is very economical of the molds produced in the above-mentioned way.

In all of the casting processes mentioned above, there is a need to to melt the material in a special operation and then to shape it pour over. Turns non-conductive materials are used as mold building materials on, so is the melting of the goods to be potted in the known method Shape itself possible. In such cases one can take advantage of the effect of a high frequency field exploit. In practice, one usually proceeds in such a way that they are placed in a special cavity the casting mold previously introduced metals by inserting the entire mold into a High frequency coil melts, with the molten metal passing through a connecting channel between the charging cavity and the actual mold enters this. The relatively extensive filling out is advantageous with this method the casting molds and the avoidance of pouring over the metal from the furnace in the form of unavoidable heat loss.

Here, too, difficulties often arise if they arise are objects that have fine ramifications or the like. The metal that exclusively under its hydrostatic pressure and the action of gravity in the shape flows, the more distant ramifications of the cavity cannot completely to complete. One can also try the hydrostatic Increase pressure by means of higher, longer pouring channels. Also has a disadvantageous effect the electrodynamic pressure created by the induction coil and strives to move the liquid material in the direction of the axis of the induction coil to condense.

The invention overcomes these difficulties by one with a mold of the known. Kind at which the to be melted Metal is in the same lining as the cavity of the mold itself, pressure differences between the environment of the mold and its interior. It should be noted that that split ceramic molds are used in the special cavities are installed, which are filled with the solid material. The solid metals can be inserted directly into these cavities: The connecting channel between these metal-loaded cavities and the actual casting mold, which is the The pouring channel corresponds to conventional casting molds, is as possible according to the invention held long so that the hydrostatic fluid pressure of the metal is more favorable Way can affect the filling of the mold cavity. Through this particular long pouring channels is achieved that the melt material is evenly and without Void formation spreads throughout the mold.

The pressure difference to be generated can be achieved in that a vacuum is created inside the mold. On the other hand, of course, can a pressure can be exerted from the outside. Eventually it will be possible in some In particularly difficult cases, overpressure from the outside and underpressure at the same time to bring it into effect from within.

When using the rule according to the invention to produce a Pressure difference between the cavity of the casting mold and the surrounding area succeeds completely Also fill even branched voids. It becomes possible to prevent the appearance of small voids, especially reliable in parts of the casting mold with a smaller cross-section to prevent. It is advantageous to reinforce the usual hydrostatic Pressure by using elongated inner connecting channels.

An embodiment of the method according to the invention is shown in the figure by the interior view of a ceramic mold which can be used to carry out the new method. The ceramic material form z is composed of two parts, the front of which is taken away in the figure. The interior of the ceramic mold r is connected to the outside atmosphere through an upper tube attachment 2. A compressed air line can optionally be connected to this pipe socket 2. The cavity for receiving the solid, lumpy metal is denoted by 3 in the drawing. It stands through connecting channels q which are as elongated as possible. with the cavity @ of the actual mold j in connection. In the illustration, for example, a wheel-shaped structure is to be cast. Below the actual casting mold cavity there is a second pipe attachment 6, which can be closed or connected to a vacuum line. During operation, the whole is surrounded by an induction coil 7 , which generates the heat necessary for melting in the metal 3 as well as in the metal that has already penetrated into the casting mold by the action of eddy currents. .

Claims (1)

PATENT CLAIMS z. Process for producing finished castings made of metal by melting the latter in the casting mold, with the metal pieces Filled casting mold made of non-metallic building material in the alternating field of a high-frequency coil brought and after the metal has melted to regulate the cooling either the induction currents gradually are weakened or the melt material is brought out of the area of the alternating current fields, according to patent 554724, characterized in that during casting between the mold cavity and the surrounding mold Pressure difference is generated. z. Apparatus for practicing the method of claim r, characterized in that the vertical inlet channels between the melting and Mold cavity are extended beyond the usual extent.