DE8417838U1 - Device for cleaning the gas nozzle of a welding torch - Google Patents

Description

description

The invention relates to a device for cleaning the gas nozzle of a welding torch according to the preamble of claim 1. In such devices, the welding wire is through The nozzle is guided and brought closer to the welding point with the nozzle. During welding, the welding material splatters to a large extent. Impurities therefore accumulate in the nozzle and gradually close the nozzle. Therefore must The nozzle must be cleaned frequently. According to the prior art, cleaning devices are known for this purpose, in which an electronically controlled robot, for example, the nozzle introduces. Rotating knives scrape the nozzle free. The nozzle is then moved to a second position by the robot in which it is sprayed with a non-stick agent. There the nozzle must be very precisely centered at the first cleaning point and after centering the rotating knives of the Must be brought closer to the nozzle, but must be lowered again after cleaning so that the nozzle is in the spraying position. can be driven, the known devices are expensive.

Ultimately, however, time is also lost by changing the individual machining positions.

The object of the invention is to provide a cleaning device that is simple in structure and with the nozzle can be cleaned faster than before.

This task is made possible by the characteristic feature J * .es Claim 1 solved. 30th

Because now the nozzle to be cleaned during the entire cleaning process including the spraying remains in one and the same position with a non-stick agent, there is no time to move the Lost nozzle in device. Rather, it can be immediately behind the

: - ■ 4: -

Entry and exit opening of the device, the processing position can be provided.

Further details of the invention can be found in the subclaims and the description of exemplary embodiments can be removed.

In the drawing, exemplary embodiments of the invention are shown, namely show:
10

) Fig. 1 is a perspective view of the device

( Representation;

2 shows a longitudinal section through the device; 3 shows a section along the line III-111 of FIG. 2; 4 shows a modified embodiment;

FIG. 5 shows a schematic representation of the mode of operation of the exemplary embodiment according to FIG. 4.

The device 20 has an insertion opening 21 for the nozzle 22 to be cleaned. The nozzle is introduced in the direction of arrow 23, for example with the aid of the gripping arm of a robot. According to FIG. 2, the nozzle 22 encounters two arms 31 and 32, which they center , triate in the cleaning position. The stops 31 and 32 consist of adjustable screws with lock nuts to different nozzles

To be able to center diameters in the machining position. A pneumatically operated piston 24 presses the nozzle 22 against the stops 31, 32, so that the nozzle during machining is immovably firmly arranged in the device. 30th

A pneumatically driven motor 4, which has a cutter head, is provided below the machining position

3 drives. The knives 25 scrape the nozzle 22 clean. engine

4 and cutter head 3 are with the aid of a piston pneumatically moved in a cylinder 9 over the piston rod 11 and

• ·

a plate 12 supporting the motor 4 is mounted so as to be adjustable in height. In the lowered state of the knife 25, the nozzle 22 can initially be introduced into the device from the front. Then the motor 4 is raised with the cutter head 3 until the Knife 25 will reach the nozzle.

After the nozzle has been scraped free of impurities, the motor 4 with the cutter head 3 is lowered again, and spray nozzles 2 spray the nozzle 22 with the non-stick liquid. The non-stick liquid is in one Canister that can be pressurized with compressed air 7.

Solenoid valves 13 and 5 are provided to control the work flow. If the valve 13 is closed by the robot program, the piston 24 is pressurized with compressed air and the nozzle 22 is centered; at the same time, compressed air enters the cylinder 9 below the piston 10 and lifts the piston 10 and thus the motor 4. The cleaning process can now start. After the cleaning process has ended, the motor is lowered again. As soon as the plate 12 hits a limit switch 6, the lowering process is ended. The solenoid valve 5 can now be closed by the robot program. This valve allows compressed air into the container 7 _s occur so that from the nozzles 2, the anti-adhesive liquid is sprayed to the nozzle 22nd The piston 24 is released from the nozzle via the delay element 8 so that it can now extend.

According to FIGS. 4 and 5, the solenoid valves 5 and 5 are not controlled by the robot program but by the introduced one Nozzle itself. One of the centering screws 31, 32, in the present case the centering screw 32, is through a Centering screw 18, which is axially displaceable in a mount 28, is replaced. When the nozzle is inserted, hits they on the screw 18, which shifts so far until you

Head 26 rests against socket 28. The lower end of the screw actuates a lever 19, which in turn acts on a microswitch 29 and triggers the control sequence. The micro switch 29 acts on a time valve 16, which in turn acts on a multi-way valve 15. The valves have the following control functions: The centering ^{nozzle is fixed by means of the piston 7} A , the motor 4 is raised and the knives scrape the nozzle free, then the motor is lowered, the opener 17 actuates the spray nozzles 2 so that the welding nozzle with the non-stick spray is sprayed, and finally the piston 24 moves back. The nozzle can now be extended and used again.

15 20 25 30

Kn / s
120684

35

Claims (9)

PATENT ADVERTISER KNEFEL / « Wertherstrasse 1β ■ Tel. 06441 / 4633Q _{% i} 6330 WETZLAR PO Box 1324 .. ''. I ' Friedolin THIELMANN, Fliederstrasse 9, 6342 Haiger 9 / Rodenbach Joachim THIELMANN, Obergasse 15, 6342 Haiger 9 / Rodenbach Device for cleaning the gas nozzle of a welding torch Protection claims 1, device for cleaning the gas nozzle of a welding torch, in which impurities that have deposited on the nozzle are scraped off by rotating knives, and in which the nozzle is then sprayed with an anti-adhesive agent, characterized in that the device (20) has a nozzle holder ([24, 31, 32), consisting of two stops (31, 32) and a piston (24) which presses the nozzle (22) against the stops (31, 32), and a laterally arranged inlet and discharge opening (21) that axially adjustable knives (25) are provided below the receptacle, as well as inclined spray nozzles (2) for the anti-adhesive agent. 2. Apparatus according to claim 1, characterized in that the cutter head (3) with a motor (4) in rotary connection and the cutter head and motor are axially adjustable together. 3. Apparatus according to claim 2, characterized by pneumatically or hydraulically movable adjusting means (9, 10, 12). 4. Apparatus according to claim 2, characterized by a pneumatically driven motor (4). 35 T G 777 5. Apparatus according to claim t, characterized by a pneumatically or hydraulically operated centering piston (24). 6. Apparatus according to claim 1, characterized in that 5 one of the stops (31, 32) is designed as a limit switch. 7. Apparatus according to claim 6, characterized in that the limit switch controls the adjustment movement of the drive motor (4) triggers. ) 8. Apparatus according to claim 3, characterized in that a limit switch (6) is provided in the path of the motor. 9. Apparatus according to claim 1, characterized in that the stops (31, 32) are adjustable.