SU606563A3 - Drive of charge distributor chute of shaft furnace - Google Patents

Description

the drive, as well as gears for adjusting the inclination of the angle of the distribution tray, cross section; . in fig. 3 is a cross-sectional view of the mechanism for feeding the mounting holders; and FIG. 4 - rod device,

On the dome of the furnace 1 is placed pivotally adjustable on the angle of inclination

Itelny tray (shown partially). It is located in the upper part of the domain-: th furnace, whereby the rotation and adjustment of the tilt angle or swing of the distribution tray 2 are made by independent movements, which are carried out by two separate drives, as well as the transmission gi. Charged material

leads to distribution 2 via centrally located channel 3.

In order to obtain rotational movement, the distribution chute 2 is suspended by both longitudinal sides through connections 4 and 5 to the bottom side of the central channel -4 located concentrically with respect to the central channel -4 or to the support of the rotary body 7. roller junction 9J which is mounted on the lower CTOpiOHS of the wall 10 of the drive chamber 1.1 .. The drive, as well as the gear transmission. the rim 8 and the rotary body 7 / strengthened on the latter include the drive motor 12, the reduction gear 13, the coupling axis 14 with the corresponding gear wheel 15 and the spur gear 16; The drive motor 12 and the reduction gear 13 are constructive. provided on the outer casing 17; drive chamber 11 ;, only one connecting axis 14 passes through the outer casing 1 and has a gas-tight support thereto. Corresponding: the gear wheel 15 is located on the e-wheel drive, which engages with the / sprocket gear. 16, which makes the connection with; gear I. To obtain a tilt adjustment. at the angle of the distribution tray. a 2 the opposite end. the end of the outlet is connected to a device that, when raised or lowered, changes the angle of inclination of the distribution tray 2 relative to the central axis A of the blast furnace. This lifting and lowering device includes a connection 18 , one of the ends of which is made T-shaped, while it is through this L-shaped connection 19, as shown in phi. iiype 4, attached with the ability of a swinging movement to the underside of the distribution tray 2. Lifting

If lowering the rod connection 18 causes the distribution tray 2 to swing around both connections 5 and 6, and thus changes the angle of the distribution tray 2,

Through its opposite distribution tray 2, the end of the rod connection via the ball joint 2C is connected to the supporting ring L ,, The supporting ring 21 is fixed on the rigid profile 22 and includes a rotary 23. The rotary ring 23 is positioned and supported in a roller rotary joint 24. For its part , the roller swivel 24 is rigid, but the connectors are located on the device, which makes it possible to raise or lower the roller swivel joint evenly around its circumferential surface STI,

There are several, preferably three, offset holders 25, 26, 27 that are 120 ° offset from each other across the entire circumferential surface of the roller swivel joint 24, which are connected to the roller swivel joint 24 through detachable axles. Each of the holders 25, 26, and 27 provides for the thread with which

0 interacts the vertically positioned worm to 28 or 29 or 30. Three worms 28, 29 and 30 are synchronously driven by the common drive HL for this purpose of screw 28; 29 and 30 on

S its top. end provided, review software: circumstances, with a vepBH4 wheel 32 "33 and 34, which rotate || (via a separating worm to 35 or 36 - or 37 :, separating worms: via aalSv, 39 and 40, and through corner connectors 41 and 42 are connected to each other and with a common drive 31. The drive 31 includes a field capable of the drive motor S tele 43,: as well as an intermediate gear 44, which leads to action 6 shaft 39..:.;.....

The drive 31 is worm gears, and also the wheels are made in the form of a structure attached to the outer casing 17 of the drive chamber 11. Only three screws 28, 29 and 30, at the upper ends of which the thread is interrupted,

are gas-tight in the upper closure cap of the outer casing 17; Further, the worm is supported at its lower end by means of supports. Mounting holders 25, 26 and 27, as

Claims (2)

This is depicted in FIG. 3, for the purpose of increased rigidity, it is supported by two guide rods 45, 46 or 47, 48 or 49, 50, which are supported by the inner side of the outer casing 17, as already mentioned, with their currently operating both end sides. generally surrounded by a gas-tight casing 17 to ensure the functioning of a blast furnace with increased gas pressure on the heads. Only the connecting axis 14 and the holders 25, 26 and 27 pass through the outer casing 17 and have a swivel bearing therein. Their current compaction under the current state of technology is not a problem and can be obtained in a known conventional manner. Since the part of the device located in the casing 17 is subject to the direct action of the temperature of the blast furnace, as well as to the effect of top dust, purified and cooled top gas or inert gas is blown through the connecting pipe 51. This gas has a higher pressure than pressure at 1. kolschanika, so. A small amount of gas from the drive chamber 11 passes and remains inside the three upper parts of the blast furnace. The flow of purified and cooled gas in figure 1 is shown by arrow 52. In order to avoid excessive gas consumption, the rotary body 7 on its lower side is made with a horizontally arranged locking plate 53 and has a slight gap with an external casing 17 through which the gas passes. A ratchet groove is provided for the passage of the bar in the locking plate 53. To make this notch as small as possible, the rod 18 has the shape of a longitudinally elongated S-shaped line. The bar 18, when raised and lowered, remains at the height of the locking plate 53 approximately unchanged in its position when viewed in the horizontal direction. To further reduce the gas flow, a ring 54 freely located on the locking plate 53 is provided, which equally freely interacts with the bar 18 and makes changes of movements. rod 18 and completely or partially closes the remaining gap in the recess. . On the outer casing 17 there are three protrusions that surround the gas-tight mounting holders 25, 26 and 27, as well as screws 28, 29 and 30 and their guides. Since the roller swivel joints 24 have limited access for lubrication from the outside, they are connected via a flexible hose 55 to an external casing and an oil supply system. The flexible hose 55 is located. The outer casing 17 is preferably in the middle of the height of the latter, so that it attains the highest and lowest point of the sliding roller swivel 24 at minimum. For mounting or dismounting located in the center of the upper part 3 of the blast furnace of the distribution tray 2 on opposite portions of the outer wall of the blast furnace, two large holes 56 are provided (shown in Fig. 1, one), which during operation of the blast furnace, the furnaces are closed gas-tight and only open l installation or disassembly of the distribution and separation tray 2. From here there is also access to both swiveling connections 5 and 6 and to the mounting of the rod 18 on the distribution tray 2. On the wall of the blast furnace there is a notch through which the disconnected distribution tray 2 is removed or inserted a limestone method using a crane. The design form given is preferred, but the designs of some elements of the drive that have not been considered here are rationalized without significant damage to substance. of the invention. So, for example, the rotary ring 21 can be replaced by a sedimentation incomplete ring, it should be noted that the length of the incomplete ring is not difficult to rotate inside the roller rotary joint 24. The drive for rotating the screws 28, 29 and 30 can not as described through shafts 38, 39, and 40 and corner joints. 41, 42, and through a chain drive. . The advantage of the invention lies in the simplicity of the drive and the design of the individual structural elements. Relatively; The heavy movements of the drives to rotate or adjust the slope of the angle of the distribution tray are eliminated, and their relatively large and complex gears are replaced by two simple separate drives. By tsver-. Worn: In most cases, wear elements have easy access and can be replaced without a long blast furnace. For cooling and cleaning of the inside of the gas-tight casing and exposed to the temperature of the blast furnace and the action of the blast furnace DUST-parts of the gear, cooled purified gas or inert gas may be blown into small quantities. . . . Claims 1. Drive trough distributor. The charge of the shaft furnace, containing the carrier tray, the body connected to the rotational drive, the mechanism of rotation of the tray, connected to the tray by and a fixed funnel located coaxially with the rotating body, which is so that, in order to increase the reliability of the device in operation, the tray turning mechanism contains a rotating ring for fastening It is rigidly connected to a rotary ring mounted in a rotary joint, connected by means of installa- tion holders with the drive of a pole tray, and the holders are located around the rotating body at an early angle relative to each other. 2. The drive in accordance with Clause 1, which is used there, that the tray turning mechanism is made in the form of a worm drive, in which each mounting holder is equipped with a worm gear, mounted on a vertical worm, one way shaft. 3, PoppLi2 drive, characterized in that, in order to ensure the synchronous operation of the worm drives, the worm shafts are connected by the S & KPU by transmission shafts through bevel gears, and from the transfer shafts is equipped with an electric motor. but Sources of information taken into account during the examination: I, Accented for France S 7027971, cl. R 27 3/00, 1971. 10 8 J 3S Gz