SU969452A1 - Apparatus for guniting throat of metallurgical ladles - Google Patents

Description

, The invention relates to ferrous metallurgy, as well as to equipment for shotcrete lining of ladles intended for liquid metal.

A device is known for flare gunning of a ladle lining, comprising a tilt-up console with horizontal and vertical movement supports for spraying tuyeres, an umbrella for sheltering the bucket, and a KOBuiaflJ rotation mechanism.

The disadvantage of this device is its low performance and unsuitability for tokretirovanie. ladles in the stream, as well as for tocretation ^of cast-iron ladles of the mixer type.

Of the known closest to the proposed technical essence and the achieved results is a device for the tapping of metallurgical ladles, containing a platform with a platform and vertical guides, a carriage installed in vertical guides, and a shotcrete lance mounted on a carriage £ 2].

This embodiment of the device allows ’gunning buckets in the stream. However, the choice of the shotcrete section on the inner surface of the bucket is greatly complicated because of the remoteness of the site for visual observation of the inner surface of the bucket and the need to install the tuyere nozzle opposite the current section by sequentially connecting three actuators of the tuyere moving mechanisms, which reduces the productivity of the installation.

In addition, during the operation of the device there is a large emission of dust, which creates unsatisfactory sanitary conditions in the zone of operation of the device.

The purpose of the invention is to improve working conditions, increase labor productivity and improve the quality of shotcrete.

This goal is achieved by the fact that in the device for shotcrete metallurgical ladles containing a platform with a platform and vertical guides, the carriage mounted in vertical guides and mounted on the carriage gunite tuyere, there is a horizontal ring guide, the platform is made with an opening for the neck of the bucket and installed with the possibility of vertical movement, and the carriage is made in the form of a rotary ventilation umbrella, with an aperture in the wall and rollers mounted with the possibility of transverse interaction with the horizontal and vertical guides, while the shotcrete lance is inserted through the opening into the umbrella and fixed to the wall of the umbrella 5 by means of a ball joint.

The platform is equipped with stops for installing the site.

In FIG. 1 shows a device, a general view, 'in FIG. 2 section AA in the Yu figure 1; in Fig.Z - device plan.

The device comprises a mobile platform 1, on which vertical guides 2, a horizontal annular guide 3 _{> a} ventilation umbrella 4, equipped with rollers 5, a lift drive 6 and a rotation drive 7 are installed. The umbrella is movably connected to the ventilation duct 8. In the side wall of the umbrella 4 there is an opening 9 in which a shotcrete lance 11 with a nozzle 12 is fixed using a ball hinge 10, connected by flexible sleeves 13 to a device 14 for supplying a shotcrete mass to the inner surface of the bucket 15. Bucket 15 Leans on one of the stands 16, which are installed along the path, moving the unit. To control the shotcrete lance, the device is equipped with stops 17, a lifting platform 13 with an aperture 19, enclosed by a heat-insulating casing 20, and a drive 21 for raising and lowering the platform 18. The ventilation duct 8 is equipped with a movable flange pipe 22 having a movement drive 23 and installed with the possibility of interaction with fixed nozzles 24 of the ventilation system, stationary mounted against each of the stands 16 and provided with shutters 25 with a rotary drive 26. All stationary nozzles 24 are connected to the ventilation oh system 27.,

The device operates as follows.

After installing the platform 1 over one of the processed buckets 15 installed on any of the stands 16, a command is given to turn on the drive 21 lowering the platform 18 and the drive 23 to move the flange pipe 22. The platform 18 is lowered and mounted on the stops 17. At the same time, the neck of the bucket 15 has- ⁵⁵ in the opening 19 of the platform 18, the heat-insulating casing 20 covers the neck of the bucket 15, and the flange pipe 22 is connected to the corresponding pipe 24 of the ventilation system. After this, a command is issued to turn on the drive 6 Lowering the umbrella 4, which is lowered until its rollers 5 come out of interaction with the vertical guides A5 2 and interact with the horizontal annular guide 3. Air duct 8 at this serves as an additional vertical guide for the umbrella 4. After installing the umbrella 4 on the guides 3, a command is issued to turn on the actuator 26 for opening the shutter 25 of the corresponding pipe 24 and the umbrella 4 is connected to a stationary ventilation system, using dust and steam are sucked off when the inner surface of the bucket is shotcrete 15. The operator, being on site 18, includes a device 14 for feeding the shotcrete to the mold 11 and guiding the nozzle by turning the molds 11 around the ball joint 10 and turning the umbrella 4 along the annular guide 3 when using drive 7, tocretes the desired portion of the inner surface of the bucket 15.

After the shotcrete is finished, the worker turns off the device 14 for feeding the tokret mass and leaves the platform 18, after which a command is issued to raise the umbrella 4, to raise the platform 18, to close the shutter and disconnect the pipe. After executing these commands, the entire installation moves to the next stand with a bucket and the entire cycle of tokreti operations is repeated.

The introduction of the installation will increase labor productivity when gunning a bucket in a stream and significantly improve the sanitary working conditions of the gunner by removing dust and convection heat generated from the ladle during gunning. In addition, sheltering the bucket during shotcrete creates safer working conditions compared to known devices and allows to improve the quality of shotcrete and to reduce the consumption of shotcrete due to the fact that the shotcreter has the ability to directly select the surface area of the bucket necessary for shotcrete.

The introduction of the device allows to increase the turnover of pig-iron ladles, reduce the time of their preparation and stabilize the schedule for the production of pig-iron from blast furnaces, which will give an economic effect of 200 thousand rubles. in year.

Claims (2)

The invention relates to ferrous metallurgy, as well as equipment for gunning lining of ladles for liquid metal. A device for torch gunning of a bucket lining, containing a lifting-swiveling console mounted, with horizontal and vertical calipers for the gunning tuyeres, an umbrella for covering the bucket and a bucket turning mechanism fl. The disadvantage of such a device is its low productivity and unsuitability for tokretirovanie buckets in the stream, as well as for the trekting of cast-iron carriers of the mixing-type bucket. Of the known, the closest to the proposed technical essence and the achieved results is a device for machining metallurgical ladles, comprising a platform with a platform and vertical guides, a carriage mounted in vertical guides, and a gunning device mounted on a carriage | 2 Such an embodiment of the device allows gunning of buckets in the stream. However, the selection of the gunning site on the inner surface of the bucket is severely hampered due to the distance of the site for visual observation of the inner surface of the bucket and the need to install the tuyere nozzle opposite the current area by successively turning on three actuators of the tuyere movement mechanisms, which reduces the plant performance. In addition, during operation of the device there is a large amount of dust, which creates poor sanitary conditions in the area of operation of the device. The purpose of the invention is to improve the working environment, increase productivity and improve the quality of shotcrete. The goal is achieved by the fact that in a device for gunning of metallurgical ladles containing a platform with a platform and vertical guides, a carriage mounted in vertical guides and mounted on the carriage of the gunning tuyere, there is a horizontal ring guide, the platform is provided with an opening for the neck bucket and installed with the possibility of vertical movement, and the carriage is made in the form of a rotary ventilation umbrella, with an opening in the wall and rollers mounted with the possibility of ennogo taken from interaction with horizontal and twirl Kalnoy guide, wherein Tork PET tuyere inserted through the opening and vnut umbrella canopy fixed to the wall by a ball joint. The platform is equipped with stops for site installation. FIG. 1 shows a device, a general view of / in FIG. 2 cut L-A on 1FIG.1; on fig.Z - device plan. 4 The device comprises a movable platform 1 on which vertical guides 2 are installed, a horizontal annular guide 3 a vent umbrella 4 equipped with rollers 5 / lifting drive 6 and with turning water 7. The umbrella is movably connected to the ventilation duct 8. In the side wall of the umbrella 4 there is an opening 9 in which, using a spherical hinge 10, there is fixed a Tork Ret-tuyere 11 with a nozzle 12 connected by flexible arms 13 to a device 14 for supplying gunning mass to the inner surface of the bucket 15. The bucket 15 rests on one from stands 16 which are installed along the path of the installation. To control the gunning lance, the device is equipped with stops 17, a lifting platform 18 with an opening 19, enclosed by an insulating casing 20, and a lifting device 21 for raising and lowering the platform 18. The ventilation duct 8 is equipped with a movable flange nozzle 22 having a displacement drive 23 and installed the possibility of interaction with the stationary nozzles 24 of the ventilation system, permanently installed against each of the stands 16 and provided with flaps 25 with a rotational drive 26. All the stationary nozzles 24 are connected to the ventilators ion system 27. The device operates as follows. After the platform 1 is installed above one of the processed buckets 15 installed on any of the stands 1, the command is given to turn on the drive 21 for lowering the platform 18 and when the water 23 moves the flange nozzle 22. The platform 18 is lowered and fixed to the stops 17. In this case the neck of the bucket 15 is in the opening 19 of the pad 18, the heat insulating jacket 20 covers the head of the bucket 15f and the flange nozzle 22 is connected to the corresponding nozzle 24 of the business system. After that, a command is issued to turn on the drive 6 lowering the umbrella 4, which descends until its rollers 5 come out of engagement with the vertical guides 2 and enter into interaction with the horizontal annular guide 3. The air duct 8 serves additional vertical guide for the umbrella 4. After installing the umbrella 4 on the guides 3, a command is issued to turn on the actuator 26 for opening the valve 25 of the corresponding nozzle 24 and the umbrella 4 is connected to a stationary ventilation system The second is the suction of dust and steam during the gunning of the inner surface of the bucket 15. The operator, located at the site 18, turns on the device 14 for supplying the gunning mass to the mold 11 and directing the nozzle by rotating the molds 11 around the ball joint 10 and rotating the umbrella 4 along the ring guide 3 with the aid of the actuator 7, detects the desired area of the inner surface of the bucket 15. After the end of the shotcreteing, the worker turns off the device 14 for supplying the current to the ground and leaves the site 18, after which the command to raise the umbrella 4 is given, to raise the area Suppliers 18, for closing the valve and for disconnecting the nozzle. After executing these commands, the entire installation moves to the next stand with the bucket and the whole cycle of the quanking operations is repeated. The introduction of the installation will allow increasing labor productivity during the gunning of buckets in the stream and significantly improving the sanitary conditions of the gunner by removing dust and convection heat released from the bucket during gunning. In addition, the bucket cover during gunning creates safer working conditions compared to known devices and allows to improve the quality of gunning and reduce the consumption of gunning mass due to the fact that the gunner has the ability to directly select the bucket surface area necessary for gunning. The introduction of the device allows to increase the turnover of pig-iron ladles, reduce the time of their preparation and stabilize the schedule of production of iron from blast furnaces, which will give an economic effect of 200 thousand rubles. in year. Claim 1. Device for gunning the neck of metallurgical ladles, comprising a platform with a platform, a gunning tuyere mounted on a carriage / i mounted in vertical guides, characterized in that, in order to improve working conditions. the performance and improved quality of the shotcrete, the device is equipped with a horizontal annular guide, the platform is made with an opening for the bucket neck and is mounted with the possibility of vertical movement, and the carriage is made in the form of a rotary ventilation umbrella with an opening in and rollers installed with the possibility of alternating interaction with horizontal and vertical guides, while the gunny tuyere is inserted through the opening into the umbrella and fixed to the wall of the umbrella by means of hinge. 2. The device according to claim 1, wherein the platform is provided with supports for site installation. Sources of information taken into account in the examination 1. Author's certificate of the USSR 246792, cl. B 22 D 41/02, 1967. 2. USSR author's certificate number 448070, cl. B 02 D 41/02, 1972. H K Hz 15 sixteen