DE645364C - Process for the uniform loading of processing plants - Google Patents

Description

Process for the uniform loading of processing plants Zur The solution to the problem of removing an excess of bulk goods automatically from the following to keep processing equipment away, one uses his so-called operating bunker, If the supply is too plentiful, simply pour the excess over the edge into the Lets the storage bunker flow, from which the flow of material is then supplemented when there is no material supply can be. But it is also known that this operating bunker is a fundamental one Has the disadvantage, namely that mainly only coarse goods overflow and unnecessarily sent through the storage bunker, which, if it is sensitive Acts well, associated with crushing to inferior grades.

In order to eliminate this serious disadvantage, there are a number of suggestions emerged that, but all do not satisfy, on the one hand, because they are the desired The purpose is not achieved, on the other hand, because they are in the low mass operation, pure fail mechanically.

Furthermore, a device is known in which the lot or Material flowing in unevenly on a rotating disc by scraper distributed, leveled by a mouldboard attached at a certain height above the disc and from this leveled layer finally by a scraper in constant Rivers are removed for further use. The prerequisite for this device is that no more material is placed on the disc than is removed by the scraper, a supply stream can therefore not be diverted.

The present invention therefore differs from the devices described basically off and uses a process which consists in getting the main feed stream Sends through a Meßq @ uschnitt and so in the operating and supply stream separates before; he even gets into bunker legs. Such a facility is known per se. Mash this is in one with the task: e main stream fed, Vertical downpipe arranged its branch, in one of which the operating current -The leading arm is the measuring cross section, while the other branch arm is in communication with the storage bunker. This known arrangement can with changing The amount of material in the downpipe is not working properly because the measuring cross section also if there is still enough material to be filled in the pipe, not a constant one The strength of the operating current ensures that one part of the goods is constantly passed through the other Branch of the pipe goes off into the storage bunker.

According to the invention, the excess delivery is therefore separated off from Betrebsstrom in that the measuring cross-sections of a certain size over one of the Feed main flow carrying conveying surface are provided -and by their boundary surfaces strip off all excess. With such an arrangement, the Velvet Main feed stream inevitably come into contact with the ilIel '> citierscliiiitt, so that only the excess gets into the supply stream and the operating current always the same size, # e has. There on the main stream that brings the ascending and descending stream Funding facility also a disappointment of the good iti coarse and fine not can occur, all material flows before and after the division always have the same Composition. The size of this mel.; Clti: #rsclinitts can be changeable, thus achieving an adaptability to the performance of the @ erarbeit @ ung @ facilities will. He can be angc @ oi-dnet over a step on which does this from the subsidy from 11erabrtitscbt. In essence, however, he is stuck on the delivery platform, z. B. a feed belt, where the incoming material flow expediently to a certain Cross-section is preformed, so that the cutting out of an always the same blinding Core; s is possible.

The drawing shows some embodiments in schematic illustrations of devices for practicing the new method, without losing any of the possibilities exhausted w, reil.

In all examples, a belt conveyor is used as the feed means placed. The right half of the drawing sheet is for the representation in the plan, the left for the representation of the cross-section or elevation of the facility shown used.

Fig. I as a plan, Fig. 2 as a cross section of the belt in the conveying direction seen, represent the case where the flow of goods, indifferently, in @such amount when it arrives, it is always narrowed to a certain width before its always the same amount corresponding to the normal performance by accepting a Good layer is produced.

a means the band with the bulk goods in, the one in the direction of the arrow is moved. The vertical or nearly vertical, either firmly angcordiieteii . or cheeks c, which can be rotated around fixed joints, force the broad flow of material onto the smaller one Width b together, which at the same time increases in height. In that way Umgeformteil Gutstrom protrudes a plate d, the ili hell Ir above your band attached, i.e. separating the excess part of the goods and on both sides Departure to the storage bunker. The good part n that continues under the plate becomes conveyed full of the belt a to the processing devices. Of course the plate d can also be fastened to be adjustable in height.

In Fig. 3 and .1 the well-known reverse route is taken, in that the flow of material is first preformed to a certain low height and any width corresponding to the current conveyance and the excess is laterally removed. The flow of material in fed on the belt a is opposed by an angle plate c 'which is removed from the belt by the height lt and has the task of flatly spreading the approximately parabolic cross section arriving. Side scrapers d 'reaching down to the belt allow a strip of material n of height h and width b to be conveyed on the belt by scraping the excess into the storage bunker from the side.

Instead of the angled plate c ', also firmly moder in the Height adjustable, one or more rollers c ″ used to level the flow of material as shown in Figs. 5 and 6, where the flow of material m under the in certain Height of fixed rollers e "gradually to the certain height h and to one of the funding-dependent width is spread. Cutting out a cross-cut @ es h, x, b, which corresponds to the normal performance n, can be used in the same way as in the Fig.3 and ¢ happen.

To reshape the cross-section of the product, instead of the cheeks c in Fig. Like. Use (as shown in Fig. 3), which are carried along by the good by friction. In this way, the greatest possible preservation of the goods is achieved when the cross-section is reshaped. The crop flow m narrowed to the width b is guided further in parallel side walls e, which form the transition to a chute f provided with an intermediate floor (see Fig. 8). The uppermost part of the intermediate bottom of the chute is designed as a flap d "'and, depending on its position, cuts a certain height h from the flow of material nt, so that the normal amount n detected in the cross-section b, x, h on the lower bottom of the chute is fed to the processing machines as operating goods, while the excess a flows over the flap d "'away through lateral discharges to the storage bunker. Of course, with this arrangement, which represents a quantity control in free fall, the procedure can be that, as in the case of Figs. The latter is done in that the side walls of the chute f are designed in their uppermost part as movable flaps, the intermediate floor being of course omitted. It is also possible, however, to hold the free-falling flow of material against only a shaft that widens slightly towards the bottom, in that the operating flow is passed on. In order to be able to regulate the inlet cross-section (measuring cross-section), the side walls of the shaft are designed as flaps.

Claims (3)

PATENT CLAIMS: i. Process for the uniform loading of processing plants, especially with coal, in which the input material arriving in continuous flow into an evenly strong operating current that supplies the system directly and in: an excess, going into a storage bunker and from there the Good access if necessary @ supplementary supply stream is divided, thereby characterized in that the separation of the excess production from the operating flow by certain Meßqu blends takes place, which over a main stream of the task supporting conveying surface are provided and their boundary surfaces the entire Strip off excess. 2. The method according to claim i, characterized in that d, -m feed flow is given a certain cross-sectional shape from which the operating flow is cut out. 3. The method according to claims i and 2, characterized in that that the cross-section of the main feed stream is narrowed to its specific width and the supply flow by cutting off the cross section above a certain height Will get removed.