DE2344782A1 - STORAGE FUNNEL - Google Patents

Description

Priority ; 5th September 1972, UK 41151/72

The invention relates to hoppers for the storage of particulate] material and to control systems for the Installation in such a funnel. The invention relates in particular to funnels with a storage zone, a lower outlet opening and a tapered dispensing zone between the storage zone and the outlet opening,

Conventional funnels of this type have the disadvantage that when emptying the content is discharged in the middle, before the content, which is near the sides of the funnel, comes out. Such funnels are

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especially inconvenient if it is loaded in batches and when it is essential to empty the contents in the same order in which they are introduced became. Guidance systems have already been developed to subdivide the storage zone of a hopper, thereby making it To overcome disadvantage. Flow barriers were also created for this purpose built into the tapered discharge zone of a funnel, around the river in the middle, where it is greatest is to brake, thereby increasing the discharge flow rate equalize from different parts of the supply zone. None of these procedures have been successful so far.

According to the invention has a storage funnel for particles Shaped material an upper storage zone, a lower outlet opening, a discharge zone between the storage zone and the outlet opening and at least one guide part, which divides the delivery zone into at least two channels, the dimensions and the arrangements of the guide parts be chosen so relative to each other and to the walls of the delivery zone that the flow resistance of the channels is balanced and the opening of the outlet opening the average particle velocities of the material flowing from the supply zone into each of the delivery channels flowing are essentially the same. The delivery zone is preferably designed in the shape of a truncated cone and the guide parts are also designed in the shape of a truncated cone and are essentially concentric to the V / an- fertilize the delivery zone arranged. However, the cross-section of the delivery zone does not have to be circular, and it can be analogous concentric tapered arrangements with a rectangular or with a different cross-section be used. In addition, the taper angle need not be uniform. Pur a rectangular one Funnels with an exit opening in the form of a slot, it is desirable that the channels are also rectangular

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with their longer sides parallel to the slot.

Preferably, the control system for a cylindrical funnel, which has a tapered discharge zone, a series of concentric, inverted, hollow, tapered stumps arranged so that the particulate material, which is located in the vicinity of the Walls of the delivery zone and in the vicinity of the inner walls all but the innermost stump of the guidance system is not under direct pressure from particulate matter Material is that is located in the central areas of the delivery zone of the upper storage zone. In this way can be a flow of material in the neighborhood of the Walls of the delivery zone are promoted, while the flow in the central area by the throttle effect of the innermost stump is hindered. If there are two or more guide parts then it is also preferred that the diameter at the lower edge of an outer guide part is smaller than the diameter at the upper edge of the next adjacent inner guide part, so that no free vertical flow between these guide parts may be present. To achieve a similar tortuous flow in a central dispensing channel, the has Control system preferably a flow barrier, such as e.g. a cone positioned over the exit port as described by Johanson et al in "Iron and Steel Engineer", October 1964, pages 85 to 98 is described.

The invention further relates according to another Appearance of a guidance system for the introduction into the excavation zone of a funnel, which has an upper storage zone, has a lower discharge zone and an outlet opening on the underside, whereby the control system is

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allocates is ;, it divides the, delivery zone in at least two A r ^ obckarsle which are dimensioned and arranged such that the discharge flow section is inhibited of the particulate material from the storage zone to the outlet opening in the central region of the discharge zone by limiting the flow area and the edge regions of Ab.-robezone thereby requiring that the material is not located in those areas under direct pressure of the material in the central part of the funnel, whereby differences in the speed of the downwardly directed flow in various parts of the stored products such ore ν achieve rt v / ground.

With the expression "control system" are one or more sheets Made of metal, plastic or the like and holding means for this are meant. The cross-section of the sheets can be rectangular, be tapered or elliptical. The sheets can be designed so that hollow, tapered stumps develop.

Invention fair control systems not only hinder the flow of deliveries in the central channel or in the central channels, but they also promote the discharge flow in the outer channel or in the outer canals, making it by means of a suitable-. selection of dimensions becomes possible, a .Balance between the various flow path resistors to achieve, so that when the funnel content is emptied, a more uniform over the cross-section Ab- vabefluss takes place, thereby making the content essentially can be submitted in the same order as he was brought in. The uniformity of the delivery flows can be achieved without significantly reducing the overall speed of the outlet flow. Of the The delivery flow is in the areas of the delivery zone

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promoted by ensuring that the material in these areas is not under direct pressure from a material that located in the central part of the funnel. When particulate Material is printed against an inclined wall in a dispensing /, one, then this can cause the flow be inhibited in the vicinity of the wall. In extreme cases there is even a complete standstill possible within the entire delivery zone (which is referred to as bridging). It is a feature of the present Invention that, by reducing the pressure, a faster flow is achieved on an inclined wall can be.

The invention is now presented for the purpose of better understanding based on an embodiment with reference to the attached Drawings explained in more detail.

In the drawings show:

Fig. Ί a flow diagram of a particulate material when dispensing from a conventional funnel with a cylindrical upper storage zone and a conical one lower discharge zone, which leads to an outlet opening;

Fig. 2 is a flow diagram in a similar funnel, which with a known conical guide part above the Dispensing opening is equipped; and

3 shows, in schematic form, a special embodiment gcm. ^: iss the invention.

Oenuiss Fig. 3 has a funnel for storage of particulate material a cylindrical upper 1, an outlet opening 2 and a lower

conical delivery zone, which has an apex angle of 80 be ;; it: -. t. A cone 4; uit; at an angle of 60 ° (through

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devices not shown) above the outlet opening hung up. Above the Iw-vivs' oofinese two guiding parts 5 and 6 in the lower dispensing zone · These have the shape of an inverted truncated cone and are on? a sheet of metal manufactured. The outer guide part 5 runs parallel to the conical sides of the lower discharge zone, whereas the inner guide part 6 is steeper by an angle of 5 ° The upper edges of the guide parts jump straight into the upper storage zone. The upper edge of the guide part 6 has a diameter that is just slightly larger, than that of the lower edge of the guide part 5

The optimal shape of the guide part for a given funnel for the storage of part conforming material given Size and shape can easily be made from a three-dimensional Model or even more precisely from a two-dimensional Sionellen model determined v / ground, with the shape, the dimensions, the soles and the position of the guide parts Adjustments are made until the desired flow pattern is obtained. Depending on the shape and size of the funnel, a guide part can be sufficient to achieve the desired flow pattern, but in general two or more guiding parts are necessary.

It is preferred that the baffles of the guidance system (e.g. part 5 of Fig. 5) run parallel to the sides of the lower discharge zone or are slightly steeper and that the upper edges of the baffles extend a short distance into the upper storage zone . The reason for this is that the particles in the vicinity of the walls of the lower discharge zone or the inner upper, the outer guide parts do not often laugh under direct pressure from the material in the central area. Will reside Vori'atszone it so N'V.lioh ^w:; ~: C , the likelihood of a bridge

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to reduce formation by the particulate material. Similarly, the length of the guide parts is such that the material in the outer channels of the lower discharge zone <3 of the hopper does not penetrate under direct pressure Material is located, which is present in the central area of the lower delivery zone.

A funnel with a control system according to the invention can be used to store many types of particulate materials, such as 2.3. Without occupying much space as when using _t Abrrabezonen with small Ver is polymer chips, granules of fertilizer or seeds, wherein the baffle for a uniform emptying of the hopper ensures iüngungswinkeln the Pail. A funnel according to the invention can be used for many short-term and less than 3 smaller storages, such as for example for pickling, in order to achieve improved dispensing characteristics.

The flow characteristics of a funnel according to the invention, which are equal in local over the cross-section, are particularly useful if the material in the funnel has a ?. ' Is subjected to treatment such as heating or cooling or drying or humidification. A gas flow can be introduced into the inside of a cone, which is arranged above the outlet nozzle, so that the gas diffuses through the space which forms the "v.-iGchcn the cone and the varying of the funnel" v / irO, and thereby through the ßonza mass of the material ir. funnel flows. Alternatively, the cone may be sufficiently porous to allow gas to be directed through it without restricting the flow of particles to a surface. The gas can be inert or reactive towards or: - particulate material, and οa >r; irv. before dea? You can dispense it or be chilled. the

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Channels can be further subdivided for the purpose of holding the LeitfceiZe, in order to simplify the construction, or to uniformly introduce a drying or dampening
to facilitate the transmission medium.

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Claims (2)

PATENT CLAIMS: Storage funnel for ri-e3eifiable particulate material, which has an upper storage zone, a lower outlet opening and a tapered Abgabe.ezone has between the storage zone and the outlet opening, characterized by at least one guide part (5> 6) in the delivery zone (3), which divides the delivery zone into at least two / one delivery channels (7, 8, 9), in which a balanced There is flow resistance, so that when the particulate material is emptied from the storage zone through the outlet opening, the average Particle velocities at the entrances of each channel are the same. 2. Funnel according to claim 1, characterized by a Stromungsbarrxere (4) below the guide parts (5 »6) and above the outlet opening (2). ΓΟ;> 09 8-11 / Ü524 Blank page