DE740453C - Electric furnace heated by a glow discharge - Google Patents

Description

Electrical; Furnace heated by means of glow discharge -The invention relates to an electrically heated furnace by means of a glow discharge, in which a das The material to be heated is and consists of a particularly electrically conductive crucible in that the crucible is supported by one or more electrodes that are permanently or temporarily connected as a cathode and isolated by the furnace wall and alr carried out shielded. are. The wall of the furnace can be connected as an anode; electrodes passed through the furnace wall can also be used as anodes will. Further features of the invention emerge from the description below an example of the invention, namely the Fig. i shows a section through an annealing and Melting furnace for negative pressure with inserted crucible for glow current heating, Fig.z is a plan view of the three crucible nozzles according to Fig.z, Fig. 3 a central sole support of the crucible on an enlarged scale, the Fig. ¢ a circuit diagram for direct current operation and Fig. 5 a circuit diagram for V47 AC operation.

In Fig. I, a section through an annealing and melting furnace i for negative pressure with inserted crucible filled with melting material z for glow current heating represents, is in the vacuum-tight closable by a lid 3 vessel q. the Crucible z on three supports 5, 6, 7 '(see. Also Fig. Z) stored at the same time to the Supply the negative voltage to the crucible. These supports and electrical feedthroughs are insulated in (las vacuum vessel ¢ and through the in small Metallic sheaths 8 arranged at a distance, shielded. guided. g are the Power supply cable, parts i o, ii and the pressure ring I2 are made of insulating material, the isolator i i. (thereby leaks the flange 13 of the power supply, which is hollow and coolable can be formed completely, so (do not leave any disruptive secondary discharges can arise. The crucible supports 5; 6, 7 wear shielding hoods, e.g. B. 15, 16, to prevent contaminants from entering the space between electrical feedthroughs and shells fall. The crucible 2 has a recess into which a thermocouple 17 is stored, which is insulated and shielded in a similar manner in the vacuum vessel 4 is introduced. 18 are the connection ends of the thermocouple, i9 is the metallic one Shielding cover, 2o and 21 are insulating rings.

The vacuum vessel 4 is provided with a cooling jacket 22, to which a coolant, such as water or oil, is fed through the nozzle 23 and discharged through the nozzle 24. 25 is a connection piece for the vacuum pump, not shown. Indifferent or reducing gases, such as hydrocarbons, can be supplied through the nozzle 26. The crucible 2 is provided with a finely perforated cover 27 . The cover of the vacuum vessel is also provided with a cooling jacket 28. Connections 29 and 3o for supply and discharge of the coolant vexsehen, and 31 is a viewing hole with a vacuum-tight window. 32 is a sealing ring, and 33 are clips for fixing the lid.

In Fig. 3, only one support 34 carries the crucible 2; it is at the same time Power supply and support of the thermocouple 17. 4 is part of the wall of the Vacuum vessel and 22 of the cooling jacket of the same: the support and current feedthrough 3q. is hollow and coolable, namely -when the coolant is through the line 35 led to and through the connecting piece 36. i8 are the connection ends of the thermocouple. The insulating ring 37 completely covers the flange 3 $ of the electrical feedthrough. 39 ' is a pressure ring made of insulating material, and 40 and 41 are two sealing rings, z. B. made of rubber or soft metal. 42 is the power supply. 43 is a protective catcher, and 44 is the z. B. divided into two parts and also with a dirt trap hood provided metallic shield. "q_5 is a second metal shell.

In Fig.4 showing a circuit diagram for direct current heating of the crucible, 46 is the direct current source, 47 is a variable resistor, and 48 and 49 are switches. 2 is the crucible, 4 the vacuum vessel, and 5o and 51 are auxiliary electrodes.

In Fig.5 showing a circuit diagram for AC heating of the crucible, 52 is an AC transformer and 53 is a switch.

The shield has the advantage that high electrical energies can be safely inserted into the vacuum vessel in the event of a glow discharge, without damaging the insulation or seals. The advantages of glow current heating consist in the fact that the electrical energy is released directly on the crucible material, the crucible material thus acts as a heating element, which results in favorable heat transfer is achieved with good efficiency. The walls of the vacuum chamber that are cooled or can be thermally insulated, are kept at such a temperature that -sie able to withstand atmospheric pressure. The otherwise necessary energy-consuming The heating up time of electrically heated crucibles is increased with this type of heating reduced to a minimum, which makes the plant extremely economical is guaranteed.

There is already an electric furnace to be brought into it for heating Objects become known, which is characterized by the fact that the heating Heat development 'of the negative glow light, preferably in a dilute gas atmosphere, especially an atmosphere of noble gases or other less electronegative ones Gases or a mixture of such gases, is used in such a way that the to be heated .The object either itself forms the negative electrode or is surrounded by it or is in good heat-conducting connection with it. This oven wasn't with bigger ones To operate energies and has not allowed itself to be introduced into technical operation.

Claims (3)

PATENT CLAIMS: i. Electric furnace heated by means of a glow discharge, in which an electric crucible holding the material to be heated is contained, characterized in that the crucible is held by one or more electrodes that are permanently or temporarily connected as cathodes * and are insulated and shielded by the furnace wall are. 2. Oven according to claim z, characterized in that that the furnace wall is connected as an anode. 3. Oven according to claim a, characterized in that one or more electrodes insulated through the oven wall are connected as anodes. Oven according to Claim t to 3, characterized in that the lid of the crucible is provided with holes DAB 'is - whose diameter as small. becomes that a discharge cannot take place within the crucible. To distinguish the subject of the notification from the state of the art is. Considered in the grant procedure: German Patent No. 375,235.