SE434303B - TRANSPORTABLE Melt-casting furnace for metals, especially for dental technicians - Google Patents

Description

Portable, transportable melting and casting furnace, in which the advantages of the melting and casting of the metal are maintained by vacuum and the subsequent influence of the cast melt in the mold is maintained by compressed air, however, rotary bushings must avoided. This is achieved in a portable melting and casting furnace of the type described in the invention according to the invention in that the melting crucible is surrounded by an induction coil, which is fixedly connected to a generator via coolable busbars, which generator in turn is stationary fixed in a Faraday's cage 17, which on its side facing the melting crucible is attached to a flange of the housing, which is vacuum and pressure tightly connected to a sealing plate, and which on its opposite side has a pivot shaft to which a drive device is connected, the pivot shaft is stored in a chamber, which carries a bearing between the housing and the housing flange.

Further advantageous features of the invention are set out in the appended subclaims.

The invention is described in more detail below with reference to the accompanying drawing, in which Figs. 1 and 2 schematically show the design of a preferred embodiment of a portable melting furnace according to the invention, Fig. 2 being a cross-section along the section plane A-B through the housing.

The reference numeral 1 denotes a housing which, by means of a lid 2, is vacuum- and pressure-tight sealable. The housing has a flange 3. A melting crucible 4 is arranged in the housing 1, which is surrounded by an induction coil 5. The melting crucible 4 preferably consists of ceramic material. It has proved advantageous to arrange a graphite or choline insert 6 in the melting crucible 4. This insert is suitable when precious metals are to be melted and cast. The crucible 4 has a casting chute 7 as a melt outlet. When using the insert 6, this is provided with an opening 8 for the casting of the molten metal. The casting gutter 7, which can also be designed as a casting duct, extends through a thermal insulation plate 9, which is arranged between a mold 10 and the melting crucible 4. The induction coil 5 is fixedly connected via coolable busbars 11 to a generator 12, which via a flexible power supply cable 13 is connected to an alternating current ball 14. Furthermore, the generator is connected to a flexible coolant supply line 15 and a flexible coolant drain line 16. By means of struts 18, the generator is fixedly fixed in a Faraday cage 17. The Faraday cage is fixedly connected to the flange 3. In and for vacuum and pressure-tight sealing of the housing 1, a sealing plate 19 is attached to the flange 3 and a sealing ring 20 is arranged between the plate and the flange. The busbars 11 are vacuum- and pressure-tight passed through the sealing plate 19. The Faraday cage 17 has on its side facing away from the melting crucible a rotating shaft 21, which is rotatably mounted in a housing 22. On the shaft 21 is arranged a drive device 23, for example an electric so-called motor, which is fixedly connected to the housing 22. Instead of the motor, a pneumatic or hydraulic drive device known per se can be used. The housing 22 is connected on its side facing the melting crucible 4 to a bearing 24, for example a sliding bearing, which can also be replaced by a roller or roller bearing. This bearing is arranged between the housing 1 and the housing flange 3. The housing is evacuated through the connection sockets 25, while the compressed air supply takes place through the connection sockets 26, flexible hoses being connected partly to a vacuum pump 27 and partly to a compressed air generating device 28.

Preferably, the housing 1 is at least partially double-walled and has connecting sockets 29 and 30 for supply and 7910428-7 TO 15 20 '25 7910428-7 discharge of a coolant, the supply and the drain being ensured by means of flexible supply and drain lines.

With the molten casting furnace according to the invention, the following work processes can be carried out.

The metal to be melted is introduced through the lid 2 into the insert 6 of the melting crucible 4, a preheated mold being arranged in front of the melting crucible 7 of the melting crucible. After closing the lid, the housing 1 is evacuated by means of the vacuum pump 27. Upon reaching a certain pressure, the induction coil is fed from the generator, whereby the metal in the melting crucible melts and is heated to casting temperature.

During this phase, the housing is cooled by means of a coolant. As soon as the melt has reached the casting temperature, the drive device 23 rotates the Faraday cage 17 with the generator 12 fixed therein, the housing 1 and the melting crucible 4, which is fitted in the induction coil, preferably with an insulating mat located between the melting crucible 4 and the induction coil. whereby the melt flows via the casting tube 7 into the mold 10. As soon as the mold is filled with melt, the vacuum pump 27 is disconnected at the same time as the compressed air supply unit 28 is caused to introduce compressed air into the housing 1, which compresses the still liquid, cast melt into the fine branches. in the mold. After solidification of the cast melt in the mold, the whole unit is turned back to the initial position by means of the drive device 23. Thereafter, the compressed air is vented from the housing 1. Through the lid 2 the mold can then be removed and a new melting and casting process initiated.

Claims (8)

10 15 20 25 30 7910428-7 PATENT REQUIREMENTS A portable molten casting furnace for metals, in particular for dental purposes, which furnace inside a housing (1) gas-tight closable with lid (2) has an electric heating device surrounding a molten crucible (4), and a mold (10), which is fixed in front of a melt outlet (7) of the melt crucible (4), the housing (1) being provided with connecting nozzles (25, 26) for evacuation and compressed air supply and pivotally mounted around a horizontal hinge shaft (21), k characterized in that the molten crucible (4) is surrounded by an induction coil (5), which is fixedly connected to a generator (12) via cooling drill busbars (11), which generator (12) in turn is stationary fixed in a faraday's cage ( 17), which on its side facing the melting crucible (4) is fixed to a flange (3) of the housing (1), which is vacuum- and pressure-tightly connected to a sealing plate (19), and which on its opposite side has a twist shaft (21) to which a drive device (23) is connected, the rotary shaft (21) being mounted on a housing (2) 2), which carries a bearing (24) between the housing (1) and the housing flange (3). 2. An oven according to claim 1, characterized in that the housing is at least partially designed double-walled and has connecting sockets (29,30) for supplying and diverting a coolant. Furnace according to claim 1 or 2, characterized in that the melting crucible (4) has as a melting outlet a casting channel or a casting channel (7) extending through a thermal insulation plate (9), which is arranged between the melting crucible (4) and the mold (10). 4. An oven according to claim 2 or 3, characterized in that the connecting nozzles (25, 26 and 29.30, respectively) for evacuation and compressed air supply and coolant supply and coolant discharge, respectively, are connected by flexible hoses. Furnace according to one of Claims 1 to 4, characterized in that a flexible coolant supply line (15) and drain line (16) and a flexible power supply cable (13) are connected to the generator (12). Furnace according to one of Claims 1 to 5, characterized in that the molten crucible (4) consists of ceramic material. Oven according to claim 6, characterized in that a graphite insert (6) is arranged in the molten crucible. 8.1. Furnace according to claim 1, characterized in that the drive device consists of an electric motor or a pneumatic or hydraulic drive device (23), which is fixedly fixed to the housing (22).