DE496820C - Device for simultaneous casting of several hollow blocks made of real bronze - Google Patents

Description

Device for the simultaneous casting of several hollow blocks from real Bronze The subject of the invention is a device for the simultaneous casting of several Real bronze hollow blocks, d. H. of copper-tin alloys with 9o to 92 per cent Copper and eight to ten per cent tin.

It was previously not possible to produce thick-walled hollow bodies from this alloy to be converted into tubular form by pulling, because the necessary thick-walled hollow bodies could not be generated without errors and this always, even if often only microscopically Contain fine cracks that enlarge when you pull them later, making them unusable Pipes result.

According to the invention, useful hollow blocks made of real bronze are obtained using several with their sides butting molds, each of which is provided with an elastic core and by a common retaining strap with each other are connected. The molds of round cross-section are at their abutting one another Pages flattened by planing so far that they fit into the planed sides as much as possible be brought into close contact. About the mutual connection. the molds still To facilitate, each mold is further provided with lugs that the connecting screws receive, and there are also provided for guiding the retaining strap ribs that are designed so that a quick and even dissipation of the heat . he follows.

The combination of a large number of molds into one unit and their loading of metal through a common hopper is known.

It is also known to use shrink anchors and multiple individual molds Unite anchor plates. The molds used, however, have a rectangular cross-section and therefore cannot be compared with the new molds according to the invention, which have an essentially round cross-section which is only machined as far as appears necessary to establish an intimate connection of all molds to form a unified one Bring about the aggregate.

Molds with a round cross section are also known. These show but no facilities that allow a larger number of molds to form an aggregate can be combined with a satisfactory heat output and would therefore be used for production flawless bronze hollow body not suitable.

Elastic cores for casting molds are known per se. To the generation However, they are not yet of hollow bronze bodies with a large wall thickness in molds has been proposed.

An example embodiment is shown in the accompanying drawing the new mold shown, namely shows Fig. 1 a single Mold with core in longitudinal section, Fig. 2 the top view of an assembly from eight Molds, Fig. 3 the bottom view and Fig. 4 the top view of a mold in diagrammatic form Depiction.

The molds are usually made of gray cast iron.

I is the mold body with ribs 2. The base piece 3 is at 4 rounded and carries a recess 5 for receiving the bottom 6 of the core rod 7. The core body B. 9 is the centering ring of the mold. By the centering ring 9 and the base piece 6, the core is reliably held. 1o is the sprue for the metal that separates the space i 1 between the mold walls and Core fills. 1.2 is the overflow for the molten metal.

In Fig. 2 an assembly of eight molds is shown. These Chill molds are connected to each other by screws, which are fastened by lugs 13 on each Go through the mold. The molds are on the sides 14 where they collide, planed in their entire length so that there is a sufficient connection between them arises and the cooling conditions are the same on all sides of the mold. The aggregate of the eight molds shown is held together by a strong band, which is inserted into the recess 15 between the ribs 2. Below this band Another weaker band is then placed around the molds. All molds stand on a common base plate. They are attached to this base plate by screws 'attached, which are screwed into the lugs r6 of the mold. It will just be two screws used to give the molds some play. The filling of all Molds are made through a common pouring funnel. The outlets for the individual Chill molds are designed so that each mold is fully poured in 15 to 20 seconds. Once this is done, the metal begins lengthwise and also in diameter to dwindle. Stresses are avoided in that the core is elastic and yields in all directions. Indeed, it is also observed that regularly the middle, loosely tamped part of the core of the upper, consisting only of sand hard part ripping off. By attaching the ribs, planing the contact points of the individual molds, correct choice of their wall thickness, provision is made for this that the cooling takes place completely evenly on all sides. The wall thicknesses must also be chosen so that the casting can solidify in the right time. When choosing cast iron as the building material and the wall thicknesses shown in the drawing there is initially a somewhat sudden cooling. But this is necessary for a good To obtain drawable material, in particular to get enough pipe sockets made of real bronze to be able to move on. In any case, however, tensions must be avoided, which lead to the formation of cracks and thereby the further pulling of the obtained Would make trimming impossible. It was found that those coming out of the molds Nozzle when using the flexible cores and the molds described above have completely undamaged cast skins both outside and inside. But this is after The experience gained is a prerequisite for further processing by drawing. Nozzles that are produced according to the method described can except for 'h and 1/6, in some cases even less, of the original wall thickness will. Up to now, this was completely impossible with tubes made of real bronze. These Machinability is also absent when pouring into sand molds.

Claims (1)

YATZNTANSPRU.CII Device for the simultaneous casting of several hollow blocks made of real bronze using several sides butting together and by a common holding band enclosed molds, which with elastic Cores are provided, characterized in that the Kökillen of round cross-section flattened so far on their abutting sides by planing and the to mutual connection of the molds serving approaches (13) and the guide of the retaining strap required ribs (2) are designed such that a fast and the heat is dissipated evenly from the molds.