SU629903A3 - Charge distributor drive in shaft furnace loading device - Google Patents

Claims (1)

the rotational speeds of both co-edistically rotating relative to each other along the gate sleeves. During the simultaneous rotation of both turntables, the guide roller, which 5 is drawn by the cylinder, moving vertically along the inner turn sleeve, does not change its position with respect to the outer turn case, especially with respect to the sinusoidal slot. However, with a relative increase or decrease in the rotational speed of the outer rotary sleeve relative to the inner rotary sleeve: the guide po / cc slides along the sinusoidal slot, which causes the stem-joint to raise or lower. This leads to a change in the angle of inclination of the distribution tray. The known actuator allows independent rotational movement and change of the angle of inclination of the distribution tray. However, the angle of inclination of the distribution tray is limited at the upper and lower points of the sinusoidal i.r.a on the outer swivel sleeve. In addition, both noBOpoTHbie sleeves are a guide roller and a rod joint, and all supporting and driving bodies are affected by the pressure of the throat on the top pile, as a result there is an additional load and relatively fast wear, especially bearings}. The purpose of the invention is to improve the reliability of the drive in operation. This is achieved by the fact that the drive is equipped with an intermediate ring gear that is mounted on the upper side of the rotary disk, which meshes with the gear shaft of the intermediate shaft, connected with the planetary gear of the swing drive and the gear wheel of the swing mechanism of the distribution ycTpoECTEia, and the shaft is fixed in the rotary disk with possibility of rotation. The drawing shows the proposed drive, a General view. The main drive number 1 is the drive 1 through the clutch 2, the braking device 3, and the gear train 4, 5 is connected to the shaft 6 of the main drive. The shaft 6 of the shaft is equipped with gear wheels 7 and & The gear wheel 8 intervenes, the lromech weft gear 9 and the rotary sleeve 1O drives the rotary disk 11, to which the distribution tray is connected and which rotates around the axis of the blast furnace. Intermediate gear 9 consists, in the main, of a ± 2 jii; ry using a gear rim 13 iii engages with a gear wheel 8, driven from the main shaft 6 of the drive. The rotary cylinder 12 has another toothed rim 14, which enters into warming with a toothed rim 15t located on the upper part of the rotary sleeve 10, and rotates the rotary sleeve 1P, as well as the rotary disk 11 rigidly connected to it 11. Thus, the engine 1 of the main drive informs the distribution tray the desired turning movement around the axis A of the blast furnace. The rotary sleeve 10 and the rotary disk 11 is installed around the Central inlet pipe, through which the poured material is fed to the distribution tray, located in the upper head of the furnace. The gear wheel 4 of the main shaft 6 with water drives the auxiliary shaft 17 with the help of the planetary gear 16, which serves to independently set the inclination angle of the distributor, the tray The planetary gear 16 consists of the planetary gear 18, the tooth of which is meshed with the gear wheel 7 the main shaft 6 of the drive. from the gear of the intermediate gear wheels 19 and 2 O and the inner impeller 21, Both intermediate wheels 19 and 2O of the planetary gear 16 are driven by means of the shafts intermediate gears ec 22 and 23 rotary disk 24, the rotary disk 24 is rigidly connected to the auxiliary shaft 17, which passes through the intermediate gear 9, the other end of the auxiliary shaft is equipped with a gear wheel 25. A gear wheel 25 drives a gear rim 26, which is attached to the rotary disk 11 or its rotary sleeve 10 with a ball or roller bearing 27. A gear rim 26 mounted on the rotary disk 11 drives the small gear 28, the axis 29 of which passes through the rotary disk 11 and is freely installed in it. Axis. 29 below the rotary disk 11 is provided with a screw thread 30. The screw thread 30 sets in motion by means of an intermediate wheel 29 toothed sector 31: the axis of which is connected to the distribution tray for setting the angle of inclination. To protect the gears and worm gears from heat and top dust, the whole -, - mechanism is placed in the drive box 32, which is attached to the lower side of the rotary disk 11. The inner impeller 21 of the container gear 16 by means of the drive shaft 33, gear 34, 35 is connected to the braking device 36 and the clutch 37 of the auxiliary drive motor 38. The main drive motor 1 drives the rotary disk 11 and the toothed rim 26 mounted on it, with the gear ratio p correctly selected In various intermediate gears, they are given the same rotational movement, as a result of which they both rotate at the same speed around the axis of the furnace. Since in this case a relative speed of movement does not occur between the rotary disk 11 and the toothed rim 26 and the axis 29 of the small gear 28 is gripped on the portal disk 11, the small gear 28 remains in the same, unchanged position relative to its axis of rotation. The distribution tray then rotates around the axis A of the furnace, and its angle of inclination relative to this axis does not change. With the aid of the auxiliary engine 38, the planetary gear 16 to the toothed rim 26, depending on the direction of rotation of the additional motor 38, communicates an increased or decreased speed relative to the rotation disk 11. Due to this relative speed, gear 28 begins to rotate between the toothed rim 26 and the rotary disk 11, which causes a change in the angle of inclination of the distribution tray relative to the longitudinal axis of the blast furnace. An additional motor 38 for changing direction has the ability to switch the polarity. With a different choice of gear ratio, the synchronous rotation of the rotary disk 11 and the gear rim 26 can be achieved only with a certain number of revolutions of the auxiliary engine 38 and a certain constant speed of rotation of the engine 1 036 of the main drive. The synchronous rotational speed of the rotary disk 11 and the toothed rim 26 takes place in this case only with a certain ratio between the number of revolutions of the engine 1 of the main drive and the auxiliary engine 38. Deviation up or down from this ratio causes a relative increase or decrease in the rotation speed of the toothed rim 26 relative to the rotary disk 11, with the speed difference depending on the instantaneous ratio of the speeds of both drive motors 1 and 38 and is proportional to this ratio. In this case, the auxiliary engine may not have a change in polarity to change the direction of movement, since a relatively lower speed of the toothed rim 26 can be obtained by braking the auxiliary engine 38. The invention improves the reliability of the loading device. Claims The drive of the charge distributor in the charging device of a shaft furnace, comprising a housing within which a switchgear disk is interconnected, connected through a sleeve and a gear drive with a rotational drive, and a switchboard swinging mechanism connected through a planetary gearbox with its drive, characterized in that , in order to increase the reliability of the device in operation, it is equipped with an intermediate ring gear that is mounted on the pole on the upper side of the rotary disk The intermediate shaft connected to the planetary gear of the swing drive and the gear wheel of the swing mechanism of the distribution device, the shaft being rotatably fixed in the rotary disk. Sources of information taken into account in the examination; 1. Accepted for France № 7О27971, cl. F 27 V 3 / OQ 1971.