SU1323289A1 - Welding tractor - Google Patents

Abstract

The invention relates to welding production, in particular to submerged arc welding using a welding tractor. The aim of the invention is to improve the conditions and increase the productivity of welders. A flux-gas-suction apparatus is installed on the welding tractor; it consists of hopper 6, cyclone 5, ejector 4, outlet tube 7, filter 8, hose 3, suction nozzle 2, ducts 9 and 10 for suction of aerosols, tube 14. Nozzle 2 is oriented along slag crust rocker 18, hinged pull 21, pressed by the spring 17 to the seam. Aerosols from ducts 9 and 10 enter the sleeve 3 and through the ejector 4 and cyclone 5. enter filter 8, which can be made, for example, with a single layer of Kirsa fabric and two-layer of a combination of Kirza, Lavsan-200 fabrics and needle-punched fabric. The outlet tube 7 is located at an angle to the axis of the cyclone 5, equal to 120-150, with respect to the direction of welding. Thanks to this construction, welding aerosols are removed from the welder's placement area and the re-supplied flux is fed into the welding area. 7 hp ff, 8 ill., 2 tab. (/

Description

The invention relates to welding production, namely to submerged arc welding using a welding tractor, and may be

applied in all areas of the industrial set-2 set to the side of the welding area.

The aim of the invention is to improve the conditions and increase the productivity of welders by trapping welding aerosol and ensuring complete removal of unmelted flux during welding butt and fillet welds.

In Fig.1 schematically shows the proposed device, a General view; figure 2 - node I in figure 1; Fig. 3 is a view A of Fig. 2; figure 4 - section bb in figure 1; Fig. 5 shows the assembly 1 in Fig. 1, with a nozzle for corner welding.

) 5 CMMs of bunker volumes 6. The filter can be made double-layered with the first layer of Kirs fabric and the second. - needle-punched fabric impregnated with no-exchange resins for trapping

stitches; figure 6 is a section bb In figure 5; 20 hydrogen fluoride. Filter can

figure 7 is a view of G in figure 2; on Fig - section dD in figure 1.

also be double-layered with the first layer of Lavsan-200 fabric

Flux gas outflow 1 {apparatus is installed on the housing 1 of the welding tractor and consists of a suction flux nozzle 2 attached to the sleeve 3. The sleeve 3 is connected to the ejector 4 connected to the cyclone 5, which is tightly connected to the hopper 6. Cyclone 5 is equipped with an output (tube 7 s fabric filter B. The welding aerosol catcher is made of two ducts 9 and 10. The front duct 9 is mounted of two quick-detachable parts, covering the wire feeder 11. The rear duct IO is provided with longitudinal walls relating to the flux a and is fixed on the tractor housing 1 in such a way as to provide a closed volume dp of trapping the welding aerosol from the weld 12 and the molten slag crust 13.

50

9 and 10 are connected by tube 14c. E-erosols are sucked through a duct 9 of cav. 3. The removal of the unmelted flux is determined by a gap 15 between the slag crust 13 and the opening 16 of the nozzle 2. The pressing and orienting mechanism of the nozzle 2 consists of a spring 17, a two-position rocker 18, mounted on the bracket 19 of the tractor body 1 and the sleeve 3, the front part 20 of the nozzle 2 bent, the articulated arm 21 connected to the bent part 20 of the nozzle 2 and the tail part 22 of the tractor body 1. A suction nozzle 2 dp of flux removal when welding fillet welds and 10. no pipe 14 enter sleeve 3. Through ejector 4 and cyclone 5 under the action of air dilution of the aerosol and enter filter) 8. The inclined output tube 7 ensures leaving welding aerosol. and - from the filter in the welder's placement area when operating the tractor.

The concentration of aerosols in the area where the welder is located and the different angles of the outlet tube 7 are shown in Table 1 with the use of some grades of welding fluxes.

Yen with an oblique cut 23 at the working end of the sleeve 24, made of rubberized fabric. Oblique shear 23 sleeves 24 and oblique shear nozzle 25 Nago tractor.

The output tube 7 of the cyclone 5 is placed inclined to the vertical axis of the cyclone and directed away from the service area of the tractor by the welder at an angle of 120-150 ° to the direction of welding.

The filter 8 is made of Kirsey fabric with an internal volume equal to several volumes of the hopper 6. The filter can be made double-layered with the first layer of Kirsey fabric and the second.- from needle-punched fabric impregnated with ion exchange resins to trap

hydrogen fluoride. Filter can

also be double-layered with the first layer of Lavsan-200 fabric.

Flux gas apparatus operates as follows.

Flux into the flux bin 6 through the hole in the cyclone 5 when the tube 7 is removed, the flux is poured. The tube 7 hermetically closes the cyclone inlet 5. The tractor is mounted on the product, compressed air is supplied to the ejector 4, flux is supplied from the hopper 6 under the electrode and welding is started. In the working position, the rocking chair 18 under the influence of the spring 17 presses the suction head 2 to the surface of the product. Depending on the type of welded joint, 1: a nozzle of the appropriate shape is installed, which is oriented along the seam by means of a hinge rod 21.

The unmelted flux is sucked into the nozzle through sleeve 3 and goes to the ejector 4, cyclone 5 and bunker 6. Simultaneously formed during welding

Erozol suction through duct 9

and 10.no the tube 14 enters the sleeve 3. Through the ejector 4 and the cyclone 5 under the action of air dilution of the aerosol and enters the filter) p 8. The inclined output tube 7 ensures the reduction of the outgoing welding aerosol. and - from the filter in the welder's placement area when operating the tractor.

The concentration of aerosols in the area where the welder is located and the different angles of the outlet tube 7 are shown in Table 1 with the use of some grades of welding fluxes.

AH-3480.22 0.21 0.15 0.11 0.09 0.14 0.24 0.24 0.23.

AH-470.31 0.29 0.21 0.18 0.14 0.19 0.31 0.32 0.31

The concentration of the solid phase aerosol at the optimal location of the filter jpa is given in Table 2, it is significantly lower than the maximum permissible concentration (4 mg / m).

table 2

0,016 0,0173

0.008 0.008

The use of the invention significantly improves the sanitary conditions of the pile by removing the welding flux. An increase in labor productivity is achieved by relieving the collected flux in the welding zone and reducing the labor costs for its manual cleaning.

Claims (8)

1. A welding tractor that includes a Movement mechanism, a housing, an electrode feed mechanism and a flux suction apparatus, containing a hopper, suction pump: an asadk, an ejector connected to the nozzle by a sleeve, a cyclone with an outlet tube mounted on the hopper and connected to an ejector, and a filter attached to the cyclone outlet tube, about tl ich operation, so that, in order to improve the conditions and increase the productivity of the welders by trapping the welding aerosol, the apparatus is equipped with a welding aerosol catch, filled with two boxes, the front of which is mounted from Table 1 0 five 0 five 0 0 e five two quick-detachable parts covering the electrode feed mechanism, and the rear one is attached to the bottom of the tractor body between the electrode and the suction nozzle, while the bottoms of both ducts are connected by suction tubes with a sleeve. 2. The tractor according to claim 1, which is different from the fact that, in order to ensure the complete removal of unmelted flux during welding, the flux-gas recovery apparatus is equipped with a pressing and orienting mechanism of the nozzle on the slag crust, made in the form of a spring-loaded two-position rocker fixed on the tractor case and on the sleeve, and the hinge joint connected to the nozzle and the tractor case. 3. Tractor pop. 1, which differs from the fact that, in order to ensure the complete removal of the unmelted flux of the flux-gas-suction apparatus when welding butt joints, the suction head is made in the form of a plate with the front part bent at an angle and aperture in the form of slag crust, the sleeve is attached to the front of the plate. 4. The tractor according to claim I, characterized in that, in order to ensure the complete removal of the unmelted flux during welding of fillet welds, the suction nozzle of the flux gas exhaust apparatus is made in the form of a rubber-fabric sleeve with an oblique cut at the working end. 5. Tractor POP.1, characterized in that the outlet pipe of the flux-gas-suction apparatus is inclined to the cyclone axis and directed away from the service area of the tractor by the welder at an angle of 120 to 150 to the welding direction. 6. Tractor POP.1, characterized in that the filter of the flux-gas out-breathing apparatus is made in the form of a bag made of Kirsey fabric with an internal volume equal to several volumes of the bunker. 7. Tractor POP.1, characterized in that the flux filter of the suction apparatus is made of two layers, with the first layer 13232896 made of Kearse's fabric, and the second of needle-punched fabric impregnated with ion exchange tables, and capture of hydrogen fluoride. 8. The tractor according to claim 1, about tl and h and rant and so that the first layer of the filter is made of Lavsan-200 fabric. 8. The tractor according to claim 1, about tl and h and rant and so that the first layer of the filter is made of Lavsan-200 fabric. 2 / FIG. 2 Vida 12 2 6 V ////// M // 4 W / a a-in 24 23 Fia.5 FIG. 6 vidG J6 of FIG. 7 & 2Л HonppS / ie / ife build Editor E, Sligan Compiled by T. Arrest Tehred I.Popovich Proofreader G. Reshetnik Order 2907/15. Circulation 975 Subscription VNIIPI USSR State Committee on Inventions and Discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 (Reg. 8