UA9683U - Stand for inclination of ladle car - Google Patents

Abstract

Stand for inclination of ladle car contains supporting-rotary frame made of beams of box section, support for installation of ladle car fixed on the supporting-rotary frame, and segmental beams of box section located under supporting-rotary frame and being rested by curved surface upon pivot bearings, in this case the outer side of each segmental beam is fastened with the gear quadrant executed with possibility of interaction with the drive gear of inclination mounted on the frame rigidly fixed on the bed. Supporting-rotary frame is executed in the form of quadrangular locked structure consisting of two longitudinal and two cross beams rigidly connected together, in this case on the stringers of supporting-rotary frame the horizontal consoles and supports in the form of vertical posts are rigidly fixed, the upper end of each of the posts is executed with the cuts for the pins of ladle car for its installation on the stand and maintaining at inclination, and horizontal consoles of supporting frame are sectionally connected with the segmental beams. On the curved surface of each segmental beam a pair of parallel rails is fixed which are executed with possibility of interaction with the roller faces of rollers hinged on the roller supports.

Description

Description of the invention

The useful model belongs to metallurgical equipment and can be used in steel smelting shops, 2 for example to remove slag from iron ladles.

In the process of removing sulfur by blowing the necessary reagents into molten iron, a significant amount of slag is formed, which must be removed from the ladle.

A device for removing slag from a cast-iron ladle is known, in which, with the help of the first pair of support and pressure rollers of the hydraulic cylinder, the carriage with the rod and the scraper is lifted along the vertical guides to the upper 70 position. With the drive, with the help of the second pair of support and pressure rollers of the carriage, the rod with the scraper is moved to the rear wall of the cast-iron ladle. Then the hydraulic cylinders lower the carriage with the rod, plunging the scraper into the slag. With the reverse movement of the rod, the scraper captures the slag to the draining toe of the bucket. (Patent Mo2157297, 2000, IPC: B22043/00, RFI

When carrying out the operation of removing slag from the ladle, the ladle must be tilted from the vertical to the side of the draining toe at a certain angle, which ensures the position of the slag at the same level as the level of the edge of the tilted toe of the cast-iron ladle. After that, the machine for removing slag with the help of a scraper installed on a moving rod by reciprocating movements of the rod removes slag from the ladle into the slag bowl, which is mounted on a cart that moves along the longitudinal axis of the stand between its supports. To perform this operation, a special stand is used, which tilts the cast-iron ladle installed on it.

The prototype is a stand for tilting a cast-iron bucket, which consists of a support-rotating frame made of one unit with supporting segmental beams, which are installed vertically on balancing roller supports. Supporting segmental beams are removably connected on the outside with toothed sectors that interact with the gear of the inclination drive, which is installed on the frame. The frame is fixed on the bed. The supporting segmental beam with a curved surface rests on the balancing roller supports of the Ikrles. 09-01-01-000100, developer JSC "GSKTI".) in

The disadvantage of the design of the known stand is the increased complexity of manufacturing the unit that combines the support-rotating frame and the segment beam. This complicates repairs in case of stand failure and its transportation to the customer. In addition, the design of the stand has a large metal capacity due to the use of balancing roller supports in the stand. at

The basis of the useful model is the task of simplifying the structure of the stand, reducing its metal content and expanding technological capabilities by changing the design of the support-rotating frame and roller supports.

The task is achieved in such a way that in the stand for tilting the cast-iron bucket, which contains a supporting-rotating frame made of beams of a box section, supports for installing the cast-iron bucket Ф, fixed on the supporting-rotating frame and segmental beams of a box section, which are vertically

Zo are located under the supporting-rotating frame and are supported by a curved surface on hinged supports, while the outer side of each segment beam is fastened with a toothed sector made with the possibility of interaction with the gear of the inclination drive installed on the frame, which is rigidly fixed on the bed, in accordance with the "proposed of the technical solution, the supporting-rotating frame is made in the form of a quadrangular closed 8 structure, which consists of two longitudinal and two transverse beams, rigidly connected to each other, on the longitudinal beams of which horizontal consoles and supports in the form of vertical risers are rigidly fixed, with the upper end each of which is made with cutouts for the pins of the cast-iron bucket for its installation on

Iz" stand and support when tilting, and the consoles of the supporting-rotating frame are removably connected to the segmental beams, while a pair of parallel rails is fixed on the curved surface of each segmental beam, made with the possibility of interaction with the rolling surfaces of the rollers, hinged on the roller supports. At the ends of the curved surface of both segment beams, stops 15 are rigidly fixed to limit the angle of inclination of the cast-iron ladle.

Ge") A possible option is when the support-rotating frame of the stand is U-shaped, which includes two longitudinal beams and one transverse beam, rigidly connected to the adjacent ends of the longitudinal beams and located opposite to the direction of inclination of the cast-iron bucket. se" 20 The essence of the useful model is explained by the drawings, where Fig. 1 shows the general view of the stand for tilting the cast-iron ladle, Fig. 2 shows a view along A in Fig. 1, Fig. 3 shows a view along B in Fig. 1, Fig. 4 - cross-section along B-B on

Fig. 1, in Fig. 5 - view along B in Fig. 1 (option II).

The stand for tilting the cast-iron bucket consists of a support-rotating frame 1, made in the form of a quadrangular closed structure of rigidly interconnected beams of a box section: two longitudinal

So" beams 2 and two transverse beams 3. Longitudinal beams 2 are rigidly fastened to horizontal consoles 4. Supports 5 are rigidly fixed to these same longitudinal beams 2. Supports 5 have the form of vertical risers, the upper end of which is made with cutouts for the pins of the cast-iron bucket for its installation on a stand and holding at a tilt. Horizontal consoles 4 are bolted to vertically installed segmental beams 6. On the outside, each segmental beam is rigidly fastened to the toothed sector 7. The toothed 60 sector 7 is engaged with the gear 8 of the tilt drive 9 installed on the frame 10. The frame 10 is fixed on bed 11. On the curved surface of each segmental beam b is fixed a pair of parallel rails 12, made with the possibility of interaction with the rolling surfaces of the rollers 13. The rollers 13 are hingedly fixed on roller supports 14. At the ends of the curved surface of the segmental beams b rigidly fixed stops 15. Fig. 5 shows version I of the support-rotating frame 1, made of beams of a box section: two longitudinal beams 2 and one transverse beam C, rigidly connected to the adjacent ends of the longitudinal beams 2 and located opposite to the direction of inclination of the cast-iron ladle. The cast iron bucket tilt stand works like this. With the help of the hooks of the lifting crane, the cast-iron bucket is installed on the supports 5 of the stand for tilting the cast-iron bucket by the pins in such a way that the pins of the cast-iron bucket are located in the cutouts of the supports 5. This allows you to reliably install the cast-iron bucket on the supports 5 and hold it when the stand is tilted. Then simultaneously turn on the tilt drives 9 located on both sides of the stand. At the same time, gear 8, which is connected to the tilt drive, begins to rotate about its axis. Being engaged with the toothed sector 7, the gear 8 drives it 70. The toothed sector 7, rigidly connected to the outer side of the segmental beam 6, begins to unfold it relative to the horizontal axis of the stand 0-04. A pair of parallel rails 12 are fixed on the curved surface of the segment beam b, which begin to roll on rollers 13 equipped with two rolling surfaces. The rollers 13 are hingedly fixed on the roller supports 14. Moving along the rolling surfaces of the rollers 13, the segmental beams 6, which are rigidly attached to the consoles 4, begin to unfold, i.e. tilt the support-rotating /5 frame 1 together with the cast-iron bucket installed on the supports 5. The tilt of the support-rotating frame 1 is carried out until the pig-iron bucket takes such a position that the position of the slag surface is ensured at the same level as the level of the edge of the tilted toe of the pig-iron bucket. After that, the slag removal machine uses a scraper installed on a moving rod, with reciprocating movements of the rod, removes slag from the ladle into a slag bowl mounted on a cart that moves along the longitudinal axis of the stand between its supports.

The maximum angle of inclination of the support-rotating frame 1 together with the cast-iron bucket is limited by stops 15, rigidly fixed at the ends of the curved surface of the segmental beams 6.

After removing the slag from the cast-iron ladle, the supporting-rotating frame 1 together with the cast-iron ladle installed on the supports 5 is returned to its original position. At the same time, the reversing electric motor of the tilt drive 9 is turned on. The rotation, but already in the opposite direction, is transmitted from the gear 8 to the toothed sector 7, and further from the toothed sector 7 to the segmental beam b and the supporting and rotating frame 1 rigidly attached to it.

The supporting-rotating frame 1 with the cast-iron bucket installed on its supports 5 takes its original position. t

After that, the cast-iron ladle is removed from the stand with the hooks of the crane and another ladle is installed.

The application of the proposed technical solution will make it possible to make the structure of the stand fully collapsible and dismountable, which will greatly simplify it, reduce the labor intensity of the manufacture of individual components, improve maintenance and repair in the event of failure. In addition, the stand for tilting a cast-iron bucket, made of individual components , it will be easier to transport when shipping to the customer

The presence of two parallel rails on the curved surface of the segmental beams will allow you to abandon balancing supports, replacing them with supports with rollers that have two rolling surfaces, which will significantly reduce the metal content of the product and provide an optimal loading scheme for the segmental beam. This will increase the performance of the stand and its reliability. In addition, the presence of horizontal consoles in the supporting-rotating frame to which the segmental beams are attached will increase the distance between the inner sides of the segmental beams, which will allow the use of slag trucks with a slag bowl of increased width, that is, it will expand the technological capabilities of the stand. From p. 70

Claims (3)

The formula of the invention: with" 1. Stand for tilting a cast-iron bucket, which contains a supporting-rotating frame made of box-section beams, supports for installing a cast-iron bucket fixed on the supporting-rotating frame, and segmental box-section beams located under the support- rotating frame and supported by a curved surface on hinged supports, while the outer side of each segment beam is fastened with a toothed sector made with the possibility of interaction with the gear of the inclination drive installed on the frame, which is rigidly fixed on the bed (22), which is distinguished by the fact that the supporting-rotating frame is made in the form of a quadrangular closed structure, which consists of two longitudinal and two transverse beams, rigidly connected to each other, while horizontal consoles and supports in the form of vertical risers are rigidly fixed on the longitudinal beams of the supporting-rotating frame , the upper end of each of which is made with cutouts for the pins of the cast-iron ladle for its installation I am on the stand and held when tilting, and the horizontal consoles of the support frame are removably connected to the segmental beams, while a pair of parallel rails is fixed on the curved surface of each segmental beam, made with the possibility of interaction with the rolling surfaces of rollers hinged on (7 55 / roller supports 2. A stand for tilting a cast-iron ladle according to claim 1, which differs in that at the ends of the curved surface of both segmental beams, stops are rigidly fixed, which are installed with the possibility of limiting the tilt angle of the cast-iron ladle in the extreme positions. 3. A stand for tilting a cast-iron bucket according to claims 1, 2, which is characterized by the fact that the supporting-rotating frame is U-shaped and consists of two longitudinal beams and one transverse beam, rigidly connected to the adjacent ends of the longitudinal beams and located opposite to the direction of inclination of the cast-iron ladle. b5