DE3024337A1 - DEVICE FOR MANUAL IGNITION OF A PLASMA MATRON - Google Patents

Description

SHIP ν. FONER STREHL SCHÖBEL-HOPF EBBINGHAUS FINCK O Γ) O / OO Π

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DESCRIPTION

The invention relates to a device for manual ignition of a plasmatron and more particularly to one for operation under Water-specific plasmatrons, applicable in shipbuilding, in the manufacture of welded workpieces and in other areas of the technique.

A device for igniting a plasmatron, consisting of a hollow, closed metal cylinder, is known the front end of which is made a small directed cylindrical bore. In the hollow cylinder there is one on an insulator Rod-shaped electrode with an end piece made of difficult to melt Metal attached. The hollow cylinder is built into the housing of the cathode holder of the plasmatron, with the small directed cylindrical bore of the hollow cylinder connected to the space between the nozzle and the cathode of the plasmatron is. With the hollow cylinder and with the rod-shaped electrode are the poles of a capacitor battery with a large capacity tied together.

The disadvantage of this device is that it is operated with three-phase current and is therefore intended for operation under water Piasmatronen is not applicable.

The object of the invention is to provide a device for manual ignition of a plasmatron, which can be repeated several times Ignition of a standing plasma arc between the cathode and the plasmatron nozzle only by applying a voltage between them permitted both in air and under water, whereby a blocking is provided to protect the plasmatron from accidental repetition of the ignition process.

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The object of the invention is achieved by a device consisting of a hollow cylinder in which an electrode with infusible end piece is attached. A cylindrical spring is placed on the electrode, delimited between two guide discs - an upper and a lower - which are connected to each other by a conductor. At the upper end An elastic cylinder is attached to the electrode on an insulating sleeve, with the discs on the hollow cylinder by means of an isolation cylinder are attached. On the outer surface of the insulation cylinder, two L-shaped channels are made, which are opposite each other. The vertical parts The above two L-shaped channels are designed in one plane and their horizontal parts are directed against each other. On the insulation cylinder is a non-metallic cylinder, which is closed at its upper end, turned upside down. There are also threaded holes in the non-metallic cylinder Screws provided. Furthermore, in the upper shut-off area of the non-metallic cylinder, there is a large, with A conical spring connected screw attached, the end of the larger diameter in a cylinder in the insulation executed channel is attached.

Advantages of the device are:

It is both in the air and underwater when ignited operated Piasmatrone applicable. Furthermore, after the ignition of the plasma arc, the device is automatically in the starting position returned, whereby a blockage that protects the plasmatron from accidental repetition of the ignition process is secured.

An embodiment of the device according to the invention is on the drawing showing a longitudinal section of the device attached to the plasmatron.

The device for the manual ignition of a plasmatron consists from a hollow cylinder 1 in which an electrode 2 with an infusible end piece 3 is attached. On the electrode 2

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a cylindrical spring 4 is placed inside, delimited between an upper guide disk 5 and a lower guide disk 6, which are connected to one another by a current conductor 7 and are attached in the hollow cylinder. An elastic cylinder 10 is attached to the upper end of the electrode 2. The hollow cylinder 1, the insulating sleeve 9 and the insulating cylinder 10 are sealed by means of an O-ring 11. At On the outer surface of the insulating cylinder 10, two L-shaped channels 12, opposite one another, are made. Their vertical parts are designed in one plane and the horizontal parts are directed against each other - on the insulation cylinder a non-metallic cylinder 13, which is closed at the upper end, is turned upside down. On the non-metallic Cylinders 13 are threaded bores 14 with screws 15 screwed into them, the front end of the screws lies in the corresponding L-shaped channel 12. In the upper shut-off area of the non-metallic cylinder a hole is made in which a large screw 16, connected to a conical spring 17, is installed. The larger end of the conical spring 17 lies in a channel 18 made in the insulating cylinder 10.

The device according to the invention has the following mode of operation:

The device is screwed into a special threaded hole in the nozzle 19 of the plasmatron 20, whereby the seal by a small O-ring 21, sealing the device to the nozzle 19, and by a large O-ring 22, the device to the outer housing 23 of the plasmatron 20 sealing, is secured. After that, plasma-forming gas, cooling water and electrical Power is given to the Plasmatron 20. The non-metallic cylinder becomes the horizontal part of the L-shaped channels rotated, the resistance of the conical spring 17 is overcome. When reaching the vertical parts of the L-shaped Channels 12 through the ends of the screws 15 of the non-metallic cylinder 13 is pressed down, whereby it the resistance the cylindrical spring 4 overcomes. In this

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Position the electrode 2 with the infusible end piece 3 is moved downwards and the end piece 3 penetrates into it the interior of the front chamber of the nozzle 19, contacting the cathode 24 of the plasmatron 20. A release follows of the non-metallic cylinder 13, including the electrode 2 under the action of the conical spring 17 and the cylindrical Spring 4 moves back to its starting position. At that moment, the plasma arc between the cathode 24 and the end piece 3, which is moving away, is blown out by the plasma-forming gas to the opening of the nozzle 19 and to the tip of the cathode 24, with which the plasmatron 20 is ignited.

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Claims (2)

PATENT LAWYERS
SHIP ν. FÜNER STREHL SCHÜBEL-HOPF EBBINGHAUS FINCK MARIAHILFPLATZ 2 * 3, MÖNCHEN 9O POST ADDRESS: POSTBOX 95 01 6O, O-8O00 MÖNCHEN 95 302433? SO PROFESSIONAL REPRESENTATIVE BEFORE THE EUROPEAN PATENT OFFICE KARL LUDWIG SCHIFF (1964-137B) DIPL. CHEM. DR. ALEXANDER V. FÜNER DIPL. INTO THE. PETER STREHL DIPL. CHEM. DR. URSULA SCHÜBEL-HOPF DIPL. INQ. DIETER EBBINGHAUS DR. INQ. DIETER FINCK TELEPHONE (OSS) 4SaOB4 NPK sa KCNTOOINO-SAVAEATSCHNI RÄBOTI telex β-αβεββ auro d TELEGRAMS AUROMARCPAT MUNICH Sofia, Bulgaria DEA / G - 21 206 June 27, 1980 Device for manual ignition of a plasmatron PATENT CLAIMS (\ J Device for manual ignition of a plasmatron, consisting of a hollow cylinder in which an electrode with an end piece is attached, characterized in that a cylindrical spring (4) is placed on the electrode (2), which is placed between two guide disks, an upper one (5) and a lower one (6), which are connected to one another by a current conductor (7), and at the upper end of the electrode (2) an elastic cylinder (8) is attached to an insulating sleeve (9), wherein the insulating sleeve and the elastic cylinder are fixed to the hollow cylinder (1) by means of an insulating cylinder (10), on the outer surface of which two L-shaped channels (12) are made, and on the 130063/0280 Isolation cylinder (10) a non-metallic cylinder (13), which is closed at the upper end, is inverted, with im non-metallic cylinder (13) threaded bores (14) are executed, in which screws (15) are screwed, and A hole is provided in the upper shut-off surface of the non-metallic cylinder (13) in which a large screw (16) is built in, connected to a conical spring (17) »whose larger end is in an insulating cylinder (10) executed channel (18) is attached. 2. Apparatus according to claim 1, characterized in that the two L-shaped channels (12) each other are opposite and their vertical sections are executed in one and the same plane, the horizontal Sections are directed against each other. 130063/0280