DEP0012926DA - Device for measuring the yield by means of scales in the flowing processing of bulk goods, for example in mills. - Google Patents

Description

Hameln / Ieser, the 29 “12 * 47

40

Walter Kraut ζ ig, master miller, Harriein / Weser ir.

"Device for measuring the yield i the flowing processing of

There is a need for continuous measurement in automatic mills and companies with a similarly flowing work process the percentage yield of finished products or the percentage accumulation of any passages or quake products. Although such continuous measurements are of paramount importance as a means of operational monitoring, exist hardly usable facilities for this. A transportable conveyor belt scale is known, with which in 2 operations first the production flow to which the yield should refer and then the flow, its percentage Yield to be determined should be eaten. Due to certain speed regulations on the conveyor belt the percentage ratio to the first measurement can be read off directly during the second measurement. Eggs are therefore one periodic measurement, which also has the disadvantage that the measuring device from one place of the production process to the others must be transported.

The object of the invention is to provide a device with which the percentage compartment of the intermediate or finished products can warden constantly read in relation to the amount of water added to the material to be processed, wherein the two measuring points (to, processing BEZW given amount of "initial measurement, prefabricated. feäeprodukt as hidmessage) can be spatially separated from each other as desired.

According to the invention, the load pan of the balance on which the A&F of the intermediate or finished products is measured is formed by a continuous conveyor whose conveyor speed is the same as the number dex in the unit of time taking place games of the automatic scales for

uninterrupted operation through which the goods intended for processing are abandoned. The task at hand will be solved with it.

The difficulty that prevents more precise results is the time difference that exists between the point in time at which the raw product is given up for processing and the point in time at which the resulting product can be measured. In addition, the end product and the intermediate products are made up of many different components. composing (z _e as various passages in mills) to cover the different within the production passage long distances and their Produktionszeityeritsprechend different length is "fluctuations in the strength of the Bohprοduktstromes thus act only gradually xmß. only after a certain, operationally determined time, fully on the strength of the intermediate or end product flow. Devices used in practice in mills to regulate the raw product flow (dosing devices) are not able to

I.
Continuous yield measurement to bring about the necessary uniformity of the raw product flow, since these devices (cell devices) only perform a volume, but not a weight-based dosage. The invention therefore uses as a precondition for any yield assessment - regardless of the method used - if useful values are to be achieved, weight-based dosing of the raw product stream by remote control of the automatic scales (which are available in every company), which at the same time enables remote adjustment of the desired control output Operation and the determination of the initial measured value required for the ^ yield measurement es verbund enarf ^ L *

If you imagine the production (e.g. in Mühleia) as a series of transport devices (elevators, Screws, processing units, downpipes), whose transport speed is proportional to that of the downpipes the general operational rotation is, and assumes that> _the product is as ice cream. uninterrupted, moderate stroiii with an average speed that is

also proportional to the general operating speed is over these Iransporteinrichtung runs, further that the yield measurement according to the principle is a measurement of the (weight-wise) cross-sectional ratio (Q2iQTy s below), under the prerequisite of a constant speed ratio within the transport facilities! der Haages., this explains the! necessity that the control shaft, which determines the speed of the two "scales," should also be dependent on the speed fluctuations of the overall operation. In the other case, i.e. if maü. wanted to keep the speed of the control shaft constant regardless of the operating speed, were g ^ Afe in which in each Operation unavoidable tour fluctuations Cross-section distortions "" due to the destruction of the fixed speed ratio under the transport equipment and thus incorrect measurements

Reliable measurement results with a simple design of the new device can be achieved according to one embodiment of the invention that the return of the automatic balance for uninterrupted operation from the discharge Iu4. the Füllteilumg is controlled by an electrical control device that is inevitably coupled to the continuous conveyor.

If the inevitable clutch consists in an electric synchronous drive, the generator and motor with a shaft of the control unit BEZW. of the continuous conveyor is connected, you can connect several scales for several material flows, the percentage of which is to be measured, to the device.

In one embodiment of the invention, the speed of the control device can be regulated by a continuously variable transmission. This ensures that the performance of the balance for uninterrupted operation and thus the hourly output of the Operation is remotely adjustable and can be read on a rev counter calibrated according to hourly output.

The drive of the control device by the transmission operation or (with alternating current) by the operation current, so to reach a yield of the useful measurement ■ zusetzende nailed _u e ^ e weight even dosing _forward-8 crude "

Current as a function of speed fluctuations in operation «

It is essential for the correct determination of the measurement results that the actual play of the balance for uninterrupted Operation through which the raw product runs are the same as the intended games, i.e. the number of games sent by the control unit] Impulses. In order to achieve this, in a further development of the invention, a fine control device is used as an add-on to the remote control device of the! aage by means of an art circuit optically on a signal lamp the regular work. and acoustically through a bell disturbance. on the scales.

A relatively multiple switching of this control device is made possible by equipping the automatic Scales with two current connectors, which are in the filling position and in the emptying position with a fixed current connector Give contact.

The regular operation of the scales can be checked by the lighting up of a signal lamp when ptfr is in the filling position.

Line embodiment of the invention provides that a bell is made to sound through the unlocking current:

1. if at the time / the unlocking pulse the scales are in the filling position (e.g. the storage bunker is above the façade empty),

2. if shortly after the unlocking pulse has ended, the scales have stopped in the tilted position (e.g. scales are entrenched).

Another embodiment of the invention provides, in connection with this control device, a device for counting Jfera the bulk of the! aage for uninterrupted operation, the counting process consists of two counting steps, the first of which through the unlocking flow and its second step through one of the returned to the filling position Load shell controlled current is triggered.

In the drawing, an embodiment of the subject invention is shown schematically, namely shows

Fig * 1 the automatic scale for uninterrupted operation, the scale whose load tray is replaced by a steady one. Sponsors formed and the control device ",

Fig. 2 the device for remote control of the automatic scales as well as for remote counting and for feedback when it occurs of disturbances and

Fig. 3 the type of counter.

The raw product to be processed reaches the tiltable load tray 11 via the automatic scales Io In the emptying position, the load tray 11 is held by the bolt 12 which is controlled by the electromagnet 13.

For each stream whose yield is to be measured, a conveyor belt or Schiaeoicenwaage'Worse is provided. Im drawn In the exemplary embodiment, its load tray is formed by the conveyor belt 15, which is driven by the synchronous motor 16 receives.

The control unit 17, which can be housed at any point in the operation, contains the control shaft 18, which via the Gear pair 19 from the motor 2o or a Tx'ansmissiorj. is driven. The interposed continuously variable transmission 21 enables the infinitely variable regulation of the speed of the control shaft 18. The control shaft 18 drives the control unit 22, which operates with every rotation of the door a current pulse for Eaitl the load shell 11 to the electromagnet 13 is. Since the hourly output is proportional the number of loose scales Io, 11 and this is proportional to the speed of the shaft 18 shows the corresponding ' The tachometer 23 calibrated according to the hourly output, the hour set on the continuously variable transmission 21 is useful on.

If only one yield is to be measured, the control device 17 can be coupled directly to the balance 14. In the event that several scales, their loadshaien by a steady. Conveyor is formed, are to be connected, one will drive an AC generator 24 through the control shaft 18, which in turn drives the scales 14 synchronously, in the illustrated embodiment ixoer the synchronous motor 16 the conveyor belt 15. The speed of the conveyor belt 15 is therefore in a constant ratio to the speed of the control shaft 18 and thus to the number of bulk a of the load tray 11.

Let it be

a - bulk weight of the automatic scale Io,

η - speed of the control shaft 18

ti - transmission ratio of the control shaft 18: control unit 22, Q ₁ - sec. Through the batch of the raw product (output per second) Q ₉ - dto. Of the finished or intermediate product G - display weighted by the conveyor belt scale 14 L - length of the weighed flow on the conveyor belt scale 14, t - transit time of the flow through the conveyor belt scale 14, d - roller diameter of the conveyor belt 15

A - yield in %

a_ _i __n _< _

6o. ü

Then Q is ₁

or Q

on the other hand

Thus, regardless of the set power, the balance 14 shows the continuous flow - after the appropriate calibration of the scale Quantity as a percentage of the quantity of the goods posted.

When using a self-displaying conveyor belt scale with a fixed additional weight position, any display accuracy can be achieved. Is z.3. The dxe load at loo <fo 2o kg, W can be read off when using a scale with a display from 0 to 5 kgo to 25 % , after loading with an additional one. Counterweight of 5 kg 25 - 5ο $> etc.

If the automatic! Aage Io is sheltered at a very remote location in the company, malfunctions may not be noticed until later and can then lead to disruptions in the regular operation. In view of this, the device described below is provided for remote control of the automatic scales with simultaneous remote counting of the ¹ ^ OhUtturner · and feedback of malfunctions in the regular pouring.

The JSOcken of the control device 22 closes the contacts 28 and 42 once with each revolution. If the load tray 11 tilts out, see above the bolt 12 of the electromagnet 13 blocks the return of the load tray. The sliding contact 26 is in this tilted position on part 25 of the contact ring 25, 27. (The representation of the contacts 25 »26, 27 is only to be viewed as a basic sketch. In practice, these contacts can be attached to the linkage of the automatic scales, depending on their design). If 26 is now closed, the circuit N-28-29-13-25-26-H closes. 29 becomes the one step of the 2 steps existing counting process (see also Fig. 3), while 13 unlocks the load tray 11, which is in its filling position going back. In addition, the contact 3o was closed by 13 and the contact 31 opened. The contact 25.26 becomes thus bridged and the mentioned circuit remains closed until 28 opens again. By keeping 31 open, until 13 is de-energized, the alarm clock 32 is prevented from responding.

If 28 is open, 29 and 13 are de-energized, and 12 falls back into its rest position and closes 31 and opens 3o. As a result, the Meide electricity price ET — 35—31—27—26-U and the counting circuit 13-34-31-27-26-1 »! closed. 34 causes the second step of counting. The signal lamp 33, which now lights up, indicates that the load tray 11 is again in the filling position. If the filled bowl sinks again, this circuit is interrupted at 27-26. The scale has tipped out and is waiting for the new impulse to unlock. If, for example, the storage bunker above the scale is empty and as a result the scale has not been tipped out while 28 and 42 are already closed again, the control circuit via 29-13 remains interrupted at 25 and there is no counting step through 29, on the other hand, the alarm circuit U is closed -28-35-42-31-27-26-1Y * · The alarm clock 32 shows the irregularity. Jjex resistor 43 corresponds to the sum of the resistance values of electromagnets 29 and 13 «

Shortly after the opening of the contact 28, a deadlock 36 closes the contact 37. If, for example, the device is entrenched, and as a result If the load tray 11 has not gone back, the current goes to the ^ & ^ N-37-35-29-13-25-26-U and the alarm clock responds.

The fact that the counter magnet 29 responds again is irrelevant, since the counting pulse is already generated by the j ^ ntriege-

current was carried out. Repetitions of the pulses from one of the two counter magnets (29 and 34) are ineffective if in between the other Magriet receives no impulse. But this cannot happen.

Fig. 3 explains a design of the counter which ensures accurate counts. The electromagnets o ^ ß 9 and 34 control a special motor 38, which drives the counter shaft 4o via the gears 39 on which a cam disk 41 sits, which alternately connects a StroniEChussstück on the Llektromagneten 29 and 34 with your motor circuit during half a revolution . Each count therefore requires a current pulse to be sent to the two electromagnets. In this way, a reliable counter drive is created, and several counters can be connected to it, for example for daily measurement or shift measurement.

The three-part task: remote control, control and payment of the levies is made easier by interconnection and electrical switching elements that are less susceptible to interference with only a three-wire connection between the two workplaces » i-balance on the one hand and control or Monitoring point on the other hand) reached.

The invention then enables the continuous measurement of the yield in automatic mills and the like and, at the same time, the Remote control of the automatic scales as well as the counting and feedback in the event of malfunctions.

Claims (1)

40218 demanding l) Eiiiriohtung for measuring the extensions ^ in the flowing processing of i & ttT & iS ^^ uSaxa: co ^^ lLriz ei a & ne t _s that the load pan (15) of the scales (14) on which the accumulation of intermediate and finished products is measured is formed by a continuous conveyor, the conveying speed of which is proportional to the number of games taking place in the time unit of the automatic scales for uninterrupted operation (lo), via which the goods intended for processing are fed. Device according to claim 1, characterized in that the time interval between the pourings of the automatic scales for uninterrupted operation is controlled by an electrical control device (22) which is inevitably coupled to the continuous conveyor (15). 3) Device according to claim 2, characterized in that the positive clutch in an electrical synchronous drive (24, * $ 6) exists, whose generator and motor with a while (18) of the control unit resp. of the continuous conveyor (15) are connected. 4). Device according to claims 1-3, characterized in that the speed of the control device (18,22) can be regulated by a continuously variable transmission (21) so that the performance of the scale for uninterrupted operation (lo) and thus the hourly output S.3S operation can be remotely set and can be read from a tachometer (23) calibrated according to the hourly output. 5) - Device according to claim 3-4, characterized in that the drive of the control device through the operational transmission or (in the case of alternating current) is carried out by the operating current, so that the weighted dosage of the raw product stream depends on the speed fluctuations during operation. 6). Device according to Claim 2, characterized in that the automatic balance (lo) has two current connection pieces contains, respectively, in the filling. in the emptying position with a fixed power connector: {<€ &>) give contact and thereby enable remote monitoring of correct work and remote payment of the empties. 7). Device according to Claim 6, characterized in that the load tray in the filling position means that a Lamp (33) is switched on. 8th). Device according to Claim 6, characterized in that, when in the filling position, geo-planed load trays protrude the unlocking current (Μ-28-35-31-27-26-Ι> ϊ) a bell (32) is made to sound. 9). Device according to claim 6-8, characterized in that in the tilt position; stopped load pan The bell (32) is made to sound by a circuit closed by the control unit (Β-37-35-29-13-25-26 ·) · ϊΐ). lo). Device according to claim 1 and 2 fe4aa? «Fe characterized by a counter with two-stage counting, the first of which Step through the the return of the Ytfaage (lo, ll) In. the occasion initiating the filling position (locking 13, 12) and their second step is effected by terminating this return. 11). EiiarichtusLg according to claim Io, characterized in that the counter is driven by a fflotoryangetriebem, the drive circuit of which contains a current branching, and that a sock (41) on the counter shaft (4o) closes an interruption by a current connector for each count one after the other in each stream portion while through the process to be counted, on the other hand, one after the other (eg through the beginning and the end of the process), also once in each branch, a different interruption through a current connector (for example the relays ¹ 29 and 34) is closed.