DD158252A5 - DEVICE FOR MOVING A SIDE WALL OF A COMBUSTIBLE BOX, IN PARTICULAR FOR SEALING COAL COAL - Google Patents

Abstract

By the invention, a simple and economical device is proposed, with both a yielding of the sliding side wall when compacting the coal cake and a damage this wall when closing the tamping mold can be safely avoided. The invention thus achieves a higher continuous in the production process and a higher labor productivity. The task to develop an improved drive for a device of the type mentioned, is achieved by a working cylinder 1 acting on a Verstellgestaenge 2, over which are mounted in fixed points 13 toothed segments 4 are rotated, which engage respectively in gears 3 of eccentric shafts 5 ,

Description

14 366. 56

Device for displacing a side wall of a tamping box, in particular for compacting coking coal

Field of application of the invention :

The invention relates to a device for moving a side wall of a tamping box, in particular for the compression of coking coal.

Characteristic of the known technical solutions:

In stamped coking milled feed coal is compacted in ramming forms to coal cake, which are then pushed with suitable setting devices from the ramming mold in the oven chamber. '

In order to avoid destruction of the coal cake by Vand adhesion when pushing out of the ramming mold, a side wall of the ramming mold is pushed back slightly after the compression of the coal cake, before the cake is pressed into the oven chamber. To this end, on the displaceable side wall, in a uniform grid, distributed joint elements engage, which are supported by corresponding horizontally arranged eccentrics.

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be moved waves while taking the sliding side wall. The eccentric moments are driven by a common, vertically arranged shaft via worms, which engage respectively in associated worm wheels of the eccentric shafts. The drive shaft itself is driven by a Getriebemotpr.

A disadvantage of the known construction is the very expensive and expensive drive technology. In addition, this drive construction has significant functional disadvantages. It is practically impossible to mount eccentric and articulated elements so precisely that all eccentrics are in the dead center when the ramming mold is closed. Only in this way can a yielding of the displaceable side wall when compacting the coal be reliably avoided. Furthermore, there may be damage to the sliding side wall when coal is already filled in the tamping form or was, while the mold is not yet completely closed. Since the overload switch of the drive motor responds relatively slowly, the drive works in the short term with overload against increased resistance. This always leads to damage to the sliding side wall, which is the weakest link in the drive chain.

Object of the invention:

The invention provides a simple and economical device for moving a side wall of a tamping mold, with the addition of both a yielding of the sliding side wall when compacting the coal cake and damage to the sliding side wall when closing the stamping form can be safely avoided.

Explanation of the essence of the invention:

The invention is based on the object, an improved drive for a. To develop device of the type mentioned.

This object is achieved in that a working cylinder acts on an adjusting linkage, are rotated over the mounted in fixed points tooth segments, which engage respectively in gears of eccentric shafts.

With the construction according to the invention, it is possible to substantially simplify the drive of the displaceable side wall. Elaborate and expensive parts such as gear motors, worms and worm gears are replaced by simple, cheaper parts such as cylinders, spur gear teeth and gears. By 'a pressure relief valve can be reliably prevented that in case of disturbances in the cylinder too high pressure builds up, which could lead to damage of verschieblichen.Seitenwand or the adjustment mechanism by excessive forces. The distance between the coupling points of the wings of two adjacent toothed segments with the Verstellgestänge is, preferably continuously variable, so that a high degree of coordination of the angular positions of the eccentric parts of all eccentric shafts to each other is possible.

The eccentric shafts are divided into eccentric parts and intermediate parts, which are connected by toothed couplings. The toothed couplings allow each adjacent eccentric and intermediate shafts in very small steps corresponding to the tooth pitch of the coupling to rotate against each other. This makes it possible, together with the adjustability of the distances between two points of attack of the Verstellgestänges, all Exzenterteil'e with the engaging on the sliding side wall hinge elements so adjust 'ren that they are at dead stamped shape in the dead center

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and thus the sliding side wall can not escape when compressing the feed coal.

Ausführu ngsbeispiel:

The device according to the invention is explained below with reference to a schematically illustrated embodiment:

Show it:

1 shows a cross section of the device according to the invention,

Fig. 2: a partial view of an eccentric shaft.

On the displaceable side wall 6 of a ramming mold 18 engage in several levels of hinge elements 10. All joint elements 10 of a plane are mounted in eccentric shafts 5. On the eccentric shafts 5, a gear 3 are each placed, which are respectively associated with toothed segments 4 in engagement, which are held in fixed points 13. Swinging 14 of the toothed segments 4 are rotatably connected to a Verstellgestänge 2 and guided by this parallel to each other. At an extended rocker 14a engages a working cylinder 1, for example, a hydraulic cylinder to. .The stroke of the cylinder 1 is tuned to the lever lengths of the rocker 14 and the superposition between the toothed segments 4 and gears 3 so that it corresponds to a rotation of the eccentric shaft 5 of 180, which in turn an Exzenterweg or a travel e "of the sliding side wall 30 mm, in order to reliably prevent yielding of the displaceable side wall 6 during compression of the insert coal 11 in the tamping mold 18, it is indispensable for all the eccentric parts 7 baw.

closed Stampf.f orm '18 to adjust the so-called dead center. For this purpose, between the individual coupling points of the rockers 14 of the toothed segments 4 with the adjusting linkage 2 chip elements 16, such as turnbuckles, attached, which make it possible to change the distance between two adjacent crosspoints. As a result, the angular positions of the eccentric shafts 5 can be largely corrected and matched to one another in a simple manner. In addition, the eccentric shafts 5 are divided into eccentric parts 7 and intermediate shafts 15, which are coupled by toothed couplings 17. This subdivision of the eccentric shafts 5 now allows the final, exact adjustment of all eccentric parts 7, since these can be rotated relative to the adjacent intermediate shafts 15 by small, the tooth pitch of the toothed clutches 17 corresponding Winkelbeträge.

In the example of Fig. 1, the piston rod of the working cylinder 1 engages the extended middle rocker 14a. The working cylinder 1 is rotatably connected both at its support and with the rocker 14a and protected by an overpressure valve against overload.

When the ramming mold 18 is closed, the piston rod of the working cylinder 1 is extended (position b). To open the ramming mold 18, the piston rod is retracted into the working cylinder (position a). For clarity, the elements pinion 4a and eccentric 7a of the lower drive row in the open ramming mold 18 corresponding positions are drawn in Fig. 1.

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Claims (5)

"Ό - Erfindungsa. nspruch 1. A device for moving a side wall of a tamping box, in particular for the compression of coking coal, characterized in that a working cylinder (1) acts on a Verstellgestänge (2), about the fixed points (13) mounted toothed segments (4) who turned? the. which respectively engage in gears (3) of eccentric shafts (5), <     - 2. Device according to item 1, characterized in that the distance. Between the coupling points of the Sghwingen (14) of two adjacent toothed segments (4) with the Verstellgestänge (.2) is variable. 3. Device according to item 1, and / or item 2, characterized in that the eccentric shafts (5) in intermediate shafts (15) and eccentric parts (7) are divided. 4 .. Device according to · point 3, characterized in that the intermediate shafts (15) and eccentric parts (7) by toothed couplings (17) are connected. 5. Device according to one of the items 1 to 4, characterized in that the maximum working pressure of the working cylinder • (1) is limited. drawings