CS227325B2 - Mechanism for moving of side wall of ramming box - Google Patents

Abstract

Bei einer Vorrichtung zum Verschieben einer Seitenwand eines Stampfkastens, insbesondere zur Verdichtung von Kokskohle, wirkt ein Arbeitszylinder (1) auf ein Verstellgestänge (2). Durch das Verstellgestänge (2) werden über Schwingen (14) Zahnsegmente (4) gedreht, die ihrerseits in Zahnräder (3) von Exzenterwellen (5) eingreifen. Die Abstände benachbarter Koppelpunkte von Verstellgestänge (2) und Schwingen (14) sind veränderbar. Die Exzenterwellen (5) sind unterteilt in Zwischenwellen (15) und Exzenterteile (7), die jeweils durch Zahnkupplungen (19) miteinander verbunden sind. Durch Verdrehen der beiden Kupplungshälften einer Kupplung relativ zueinander, beispielsweise um eine Zahnbreite, können alle Exzenterteile (7) exakt aufeinander abgestimmt werden.

Description

BACKGROUND OF THE INVENTION The invention relates to a device for shifting a side wall of a crate box, in particular for stamping coke coal, which is provided with a working cylinder and eccentric shafts with gears.

In the coking plants, the ground batch coal is packed in the baking molds into coal cakes, which are then transferred from the baking mold to the furnace chamber by a suitable charging device.

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In order to avoid breaking the coal cake by adhering to the wall when ejecting from the ram mold, the side walls of the ram mold are moved somewhat backward after the coal cake is compacted before the cake is forced into the oven chamber. To this end, articulated elements are provided on the sliding side wall, which are arranged at regular intervals and which are moved by the action of corresponding, horizontally arranged eccentric shafts.

In doing so, they carry a movable side wall. The eccentric shafts are driven from a common, vertically arranged shaft by a worm which engages the associated worm wheels of the eccentric shafts. The drive shaft itself is driven by a geared motor.

The main drawbacks of the known designs are that they have a too complex and expensive drive technique. In addition, this construction has substantially functional deficiencies. In practice, it is not possible to assemble the eccentric shafts and the articulated elements so precisely that all eccentrics are in the dead position when the tamping mold is closed. Only in this way can it be ensured with satisfactory certainty that the sliding side wall does not bend during the compaction of the coal. A further disadvantage is that the sliding sidewall may be damaged if it is filled into the charger coal or has already been filled, while the mold has not yet been completely

22Ί325 closed. Because the overload switch of the drive motor reacts quite lengthy, the drive operates briefly with an overload against increased resistance. This in turn leads to damage to the sliding side wall, which is the weakest link.

It is also an object of the present invention to provide a simple and economical means for displacing the side wall of the press mold which reliably prevents the sliding side wall from rotting when the coal cake is compacted, as well as damaging the sliding side wall when closing the ram.

This object is solved and the drawbacks are eliminated by the side wall displacement device according to the invention, which is characterized in that the working roller is engaged with a tine rod connected to the toothed segments mounted in fixed journals. the segments are engaged with the eccentric shafts.

The main advantages of the device according to the invention are that this correction makes it possible to substantially simplify the drive of the sliding side wall. Failure and expensive parts such as drive mooor, Worms and worm gears have been replaced by simple, inexpensive parts such as a work cylinder, spur gears and gears.

A simple pressure relief valve reliably prevents it. in the event of a malfunction, the pressure in the working cylinder does not become too high, which could cause damage to the sliding side wall or the entire adjusting mechanism due to unacceptable forces. between the points of articulation of two adjacent toothed segments with adjusting rods, it is possible to vary, preferably continuously, which allows the angular positions of the central parts of all eccentric shafts to be largely adjusted relative to one another.

The eccentric shafts are divided into. intermediate shafts and eccentric parts connected by toothed couplings.

The toothed couplings allow. rotate adjacent eccentric parts and eccentric shafts together in very small increments, corresponding to the clutch tooth pitch. That snorkel, together. It is possible to adjust the distances between the two engagement points of the adjusting rod, to adjust all the eccentric parts with the hinged elements engaging on the sliding side wall so that they are in the dead position when the ramming mold is closed. '

The invention is explained in more detail below with reference to the drawing.

FIG. 1 shows a cross-section of a device according to the invention. FIG. 2 shows the eccentric shaft *.

With the sliding side wall 6 of the ram mold 18 the articulated elements are arranged in several planes.

10. All of the depth elements 10 of a single orifice are mounted on the eccentric shafts 2. Each of the eccentric shafts 4 is fitted with a gear 1, which engages the associated gear segments 6, which are housed in fixed pins 3. The toothed segment ring members 14 are rotatably connected to the transfer rod 6 and are guided parallel thereto.

With one extended. The connecting rod 14a engages a working cylinder 6, for example a hydraulic working cylinder. The stroke of this cylinder j. Is chosen so that, in accordance with distance levers ojnlc transfer ££ e £ mmzi toothed segments and toothed wheels 3 to ensure that the corresponding rotation of the eccentric shaft 2 ⁰ about 180 °, which again corresponds to the eccentric path or feed e sliding side walls of about 30 m.

In order to reliably prevent the flexibility and hence the deflection of the sliding side wall 6 when compacting the charge coal 11 in the tamping mold 18. It is necessary to set all the eccentric portions 6 or hinge elements 10 with the tamping mold t8 closed in the so-called dead position. For this purpose, double tensioning nuts 46 are provided between the articulation points of the connecting rods 14 of the toothed segments 6, not over the fusing rod, which may be formed otherwise if they meet the requirement, these twin tensioning nuts 16 make it possible to advantageously change the pitch of two adjacent articulation points.

In this way, the angular positions of the eccentric shafts X can be easily corrected and adjusted to the corresponding positions. In addition, the eccentric shafts X are divided into eccentric portions 6 and intermediate shafts X _t which are connected to each other by toothed couplings 17.

This splitting of the eccentric shaft X allows the final, precise adjustment of all eccentric parts 8, since they can be rotated by a small angular value relative to the adjacent intermediate shafts 15 corresponding to the tooth pitch of the toothed clutch 17.

In the embodiment of FIG. 1, the piston rod of the working cylinder 6 engages the extended central connecting rod 14a. The working cylinder 6 is rotatably connected in its support and in its connection with the extended connecting rod 14a and is protected against overload by a pressure relief valve.

When the ram 18 is closed, the piston rod of the working cylinder 6 is extended in the position. For better understanding, the toothed segment 4e and the eccentric portion 7a of the lower drive train are also shown in FIG. 1 in a position corresponding to the open ramming mold 18.

Claims (5)

A device for moving the side wall of a crushing box, in particular for crushing coke coal, which is provided with a working cylinder and eccentric gear shafts, characterized in that the working cylinder (1) is engaged with a adjusting rod (2) connected to the toothed segments (4) mounted in fixed pins (13), and these tooth segments (4) engage the gears (3) of the eccentric shafts (5). Device according to claim 1, characterized in that the spacing of the connecting rods (14) of the two adjacent toothed segments (4) to the adjusting link (2) is variable. Device according to claim 1 and / or 2, characterized in that the eccentric shafts (5) are divided into intermediate shafts (15) and eccentric parts (7). Device according to claim 3, characterized in that the intermediate shafts (15). and eccentric portions (7) are connected by toothed couplings (17). Device according to one of Claims 1 to 4, characterized in that a pressure relief valve is connected to the working cylinder (1) to limit the working pressure.