DE1918993C3 - Device for the even discharge of bulk materials - Google Patents

Description

The invention relates to a device for the uniform discharge of bulk materials from a storage bunker, in which between the bunker outlet and a revolving screw conveyor an agitator running parallel to the screw conveyor is arranged and the agitator work space is separated from the screw conveyor work space by a floor, in which the agitator and one with a high Revolving speed, with progressive thread provided screw conveyor are inclined at the same angle to the vertical bunker axis and the passage cross-section of the screw inlet can be adjusted through the floor separating their work spaces, according to main patent 1481 367.
The even discharge of bulk goods

ίο Storage bunkers generally cause difficulties the cause of which is mostly to be found in the different flow properties of the bulk solids is. In particular, fine and very fine-grained goods tend to form lumps, but these are extremely undesirable

is because this results in a non-uniformity in the discharged flow rate. Still disadvantageous is that even by regulating the speed of the screw conveyor, no uniform flow of material is generated, because in the inlet area of the bulk material in the conveying

ao worm the full conveying surface of the worm is effective is. that is, a quantity of good proportional to this area is taken along, and its even distribution übe · - the feed length of the worm also through a speed change is not possible and thus

as to an uneven discharge of the material flow leads. The unevenly discharged material flow is in particular still due to the fact that the Screw the conveyed material at slow speed at its outlet with the thread end intermittently

ejects.

This intermittent ejection process or the uneven discharge of the bulk material flow is particularly noticeable disadvantageously when such devices with weighing devices

can be used in combination. In weighing devices, namely, the weighed amount is in their Accuracy depending on the type of goods to be weighed. To largely eliminate this dependency, one has created devices that the during a Abwa ^ ephase for a certain pouring weight divide the required material flow into a so-called coarse and a so-called fine flow.

One of these known V establishments sees it the use of flap-like elements, one of which is a flap for the coarse flow and the other flap is responsible for the fine flow or for the completion of the material flow. This known device, however, has the disadvantage that a transition from coarse to fine flow cross-section is only achieved in extreme gradations.

There are also dosing and discharge devices such. B. vibratory feeders known whose Amplitude can be changed via electrical resistances. By controlling one or the other voltage value can also use a coarse and fine flow cross-section can be set. However, this device has the disadvantage. that by reducing the voltage and thus influencing it the oscillation amplitude adjusts the conveying cross-section changes in the moving Product flow are retained and cause fluctuations in the fine flow, which in turn affects the dump weight (Target weight).

Also known is a weighfeeder for continuous and weight-constant task more pourable Fabrics. With this weigh feeder, the bulk material is placed on a conveyor belt, whereby the output

the cross-section of the footfall can be regulated by means of two sliders that are coupled to one another. This weigh feeder has the disadvantage, however, that when the bulk material passage cross section is closed by, coarse pieces the slide must be adjusted by hand and only then can the regulated material discharge be unhindered can be continued on the conveyor belt.

^E: ner other known weighing device carried the bulk supply from a reservoir through a pipe in the column on the scale Schüugutbehältej. The amount of bulk material flowing through the pipe in free fall can be regulated using a slide valve.

The known metering and discharge devices are designed in their structural design so that they can only be used to a limited extent with weighing devices. In particular that Discharge of the bulk material is limited because in general, the pointer speeds at, for example, tilting shift weight a certain Value cannot exceed. The so-called fine flow is also at high discharge speeds uncontrollable, because due to the flow velocity a minimum amount is discharged or must be dosed. On the other hand, however, are the performance capacities of the upstream and downstream Auxiliary equipment for weighing devices is like this large that usually a single discharge and metering device with a storage device cannot be used due to insufficient capacity.

There are therefore often a large number of such upstream and downstream auxiliary devices today of dosing and discharge devices in connection with weighing devices in series or but also connected in series.

The rough gradation of the coarse and fine flow conveying cross-section in the above-mentioned known Facilities causes that according to the general state of the art the rough weighing up either is viewed as a time-dependent volumetric metering, so that then the weighing device during the coarse flow must be locked and immediately before reaching the target weight on fine flow is switched over so that sufficient minimum dosing times can be achieved.

However, there is a purely volumetric recording of the coarse weighing unit of two essential factors depends, namely absolutely regulated supply from the supply, constant maintenance of the bulk weight of the bulk material to be dosed, which can change depending on the quality and air enrichment, but it is always like that in practice. that the theoretically exactly achievable weight value of the coarse flow fluctuates, so that the minimal remaining gravimetrically to be detected weight value of the Fine stream is run over very often and thus inaccuracies in the weighing are unavoidable are.

The object of the invention is to provide a discharge and metering device that is shown in In connection with a weighing device, a product flow into the load tray during the coarse flow phase in the size of the maximum permissible pointer speed of a weight-indicating scale, E.g. inclination weight scales allowed and this product flow gradually as the target state is approached reduced, so that when the target actual state is reached, the product flow is almost the Zero value reached.

To solve this task, a device for uniform discharge is provided according to the invention proposed by bulk goods from a storage bunker, which is characterized in that the Device is downstream of a weighing device in a manner known per se and the vcrschicb-

bare bottom with a mechanical, electrical, pneumatic or hydraulically actuated adjusting device is coupled. which depends on the instantaneous weight of the goods in a load tray of the Abvvägcvorrichtung

the distance to be covered by the movable floor continuously or discontinuously controls.

According to a further development of the invention, the weighing axis of a measuring head can be used to

direction (inclination weight variable) a transmitter potentiometer be connected, which depending on the load values displayed in the laser tray the continuously or discontinuously controls the distance traveled from the ground.

With the measuring head of a weighing device can but also an encoder can be coupled, depending on the load values displayed of the load shell, the distance covered from the ground can be controlled continuously or discontinuously is.

Depending on the type of material to be dispensed and dosed The initial and final position of the floor is to be set up for the goods to be weighed. A continuing education sees therefore continue forward. that the starting and ending positions of the movable floor depend on the load and the goods can be changed via mechanical or electrical control elements. As mechanical regulators For example, adjustable stops can be used. As an electrical control element, Limit switch. non-linear potentiometers (trimming potentiometers) or electrical regulating resistors c a fake Wheatstone bridge or alinear encoder using.

The movable floor can be used in further areas.

design of the invention at the same time at the outlet end of the screw one of its (juicing narrowing Device may be provided which is controlled as a function of the display of the weighing device is and dependent or independent of the Verse alternate and control device of the movable floor is working. This cross-section-changing element can be in the form of a slide or in Be designed in the form of a so-called hose pinch valve, whereby its arrangement is not directly

bar at the Schneckenau'lauf. but also in one can be attached to this adjoining downward channel.

With reference to the figures shown in the drawings, the invention is based on several

Embodiments described. It shows

F i g. 1 shows a first possible embodiment of the invention,

Fi g. 2 a section along the line H-II of FIG. 1, F i g. 3 a second possible embodiment of the invention,

F i g. 4 a third possible embodiment of the invention,

F i g. 5 is a schematic diagram of the invention.

The bulk material to be discharged and dosed reaches the room 1 with agitator 2 Screw working room S. The screw conveyor 4 is on their lower end 5 is conical, which contributes greatly to a uniform product flow. the The agitator work space 1 is separated from the screw work space 3 by a movable floor 6, the one via an adjustment device? can be moved back and forth. By moving back and forth of the bottom 6 is the free inlet cross-section 8 for the bulk material from agitator work space 1 to Screw working space is reduced or enlarged and thus has an indirect influence on the discharged Product stream taken. The size of the distance covered by the ground is determined by controlled by the weighing device 9 (Fig. 5) located weighing goods, as an actual value transmitter in particular electrical auxiliary devices such as transmitter potentiometers 10 and amplifiers 11 are used can come.

The adjusting device 7 moving the floor 6 back and forth can, however, also be provided with a slide-like one Element 12 be coupled, which changes the free conveying cross-section at the screw outlet so that that a slight damming effect occurs, which in turn is useful for an even discharge of material is. However, a direct coupling of the movements of the floor 6 and element 12 is not essential necessary. Of course, their movements can also be separated from one another independently will.

For example, if the base is in a fixed position, only that which is arranged at the screw outlet can be used Element perform a movement that changes the conveying cross-section.

As a cross-section-changing element is shown in FIGS. 1 and 2 a slide valve 12 is used. On A hose pinch valve 13 can also be used in place of the slide valve 12. His The arrangement can be directly at the screw outlet (FIG. 3) or in a connecting piece 14 (Fig. 4) can be made. It usually depends on the nature of the consideration Bulk goods.

The in the F i g. The scheme shown in FIG. 5 shows the basic idea of the invention in a weighing device. The bulk material to be weighed arrives via the feed hopper 15 via the agitator work space 1 into the screw working space 3 with a maximum permissible opening position of the Bottom 6. With the start of conveyance, it depends on the amount of bulk material conveyed into the weighing device 9 via electrical control elements, e.g. B. encoder potentometers 10, 11 and one coupled to the bottom 6 Adjusting device? the open position gradually decreased, in such a way that when reached the target / actual state of the product flow almost Becomes zero. This ensures that there is a swing out due to the inertia of the weighing system the same is not possible beyond the actual state and the movement pattern of the scales is always the same as the current actual state of the setpoint.

There is also the option of depending on the weight of the load in the load tray Bulk solids at the same time, in addition to the floor displacement, an analogue speed change of the Carry out screw conveyor, but must be coordinated so that no intermittent promotion of the product flow occurs.

The decisive advantage that is achieved with the proposed device is that a control based on the load value of the load tray from a delivery device, for example Screw, conveyed amount of bulk material is possible in such a way that the product stream flowing into the load tray always has the size at which the moment of inertia forced on the balance system is almost compensated by the self-damping of the system. This control option works in weighing technology to the effect that when the device is used in conjunction with a weighing device problems in mastering the coarse and fine flow technology no longer appear. At the same time, the wake still flowing into the load bowl when the metering is closed is weight-wise negligibly small, so there is also no need for post-flow control or compensation elements.

1 sheet of drawings

Claims (6)

Patent claims: 1. Device for uniform discharge of bulk goods from a storage bunker, in which between the bunker outlet and a rotating conveyor screw an agitator running parallel to the conveyor screw is arranged and the agitator working space is separated from the screw conveyor working space by a floor in which the agitator continues and a high-speed, progressive-threaded screw conveyor are inclined at the same angle to the vertical bunker axis and through which their work spaces from each other separating movable bottom of the passage cross-section of the screw inlet adjustable is, according to main patent 1 481 367, thereby characterized in that the device in In a manner known per se, a weighing device (9) is arranged downstream and the movable floor (6) with a mechanically, electrically, pneumatically or hydraulically actuated adjusting device (7) is coupled, which depends on the current weight of the person in a Load pan of the weighing device (9) the goods from the sliding floor (6) The distance to be covered controls continuously or discontinuously. 2. Device according to claim 1, characterized in that that a pointer axis of a measuring head of the weighing device (9) with a transmitter potentiometer (10) is connected, velches controls the adjusting device (7). 3. Apparatus according to claim 1, characterized in that for controlling the adjusting device (7) a measuring head of the weighing device (9) is coupled to an angle encoder. 4. Apparatus according to claim 1, characterized in that the starting and end positions of the movable floor (6) depending on the load and the material via mechanical or electrical control elements is changeable. 5. Apparatus according to claim 1 to 4, characterized in that at the outlet end of the Screw (4) a cross-section narrowing device (12, 13) is provided, which as a function is controlled by the display of the weighing device (9) and dependent or independent of the adjustment and control device (7) of the movable floor (6) works. 6. Apparatus according to claim 5, characterized in that the cross section of the outlet end the screw (4) constricting device is a slide valve (12) or a hose pinch valve (13) is.