DE3522478A1 - Process and apparatus for producing a gravel/sand finished product - Google Patents

Abstract

The process for producing a finished product, e.g. gravel/sand from a raw-material product, enriched with harmful substances or surplus constituent parts, provides that a sample is taken 2 from the finished-product stream 9. In a downstream separating unit 3, the sample is separated into various fractions 10, 11, 12 and the fine-grain portion in each case is measured in measuring units 4, 4'. Pulses are transmitted from the measuring units 4, 4' to an evaluation unit 5 which compares the measured values with the predetermined fine-grain-portion desired value. If there are deviations, positive or negative pulses are given out to an adjusting unit 8. The adjusting part 8 can influence the supply 14 of the raw product, or the treatment unit 1. This is carried out until the set fine-grain-portion desired value corresponds with the fine-grain portion of the fractions 11, 12 in the measuring unit 4, 4'. <IMAGE>

Description

The invention relates to a method for producing a Gravel-sand finished product from a raw product, whereby after the preparation of the raw material product, a sample taken and after their analysis compared with the target value becomes.

A raw product such as gravel sand comes in nature in the rarest cases len in a grain belt structure that the DIN regulation of sand corresponds to genus A or B. About this species There are various types of sand layers to produce sand equipments, such as devices for Aus washing contaminants from continuously fed Solids (DE-PS 25 42 940), sand snails, upflow classifiers, cyclones u. The like. These processing devices who manually on the sand quality for a certain raw material task set. This is done by removing one Sample of the finished product and subsequent evaluation in the laboratory. The time of the evaluation takes several Hours, during which time the system continues to operate is generated and if necessary a defective product. Because of of the laboratory result then becomes the preparation device reset by hand, readjusting the experience of the operator. Furthermore, practice has shown that the grain band structure of the raw material fluctuates constantly, so that no sand of grade A or B constant according to the relevant DIN regulations  can be produced economically. For many uses areas is the constant observance of a certain one Sand quality is very important, such as in bridge construction. There is also the disadvantage that the known the raw material exploitation is unfavorable.

The invention has for its object a method and to propose a device with which the finished pro product is constantly monitored for grain belt shifts and semi or fully automatic to influence changes is taken.

This object is achieved according to the invention in that a subset of the finished product for sampling is drawn, which is separated into several fractions, the after comparing the setpoint with the actual value Finished product or a recovery share added will.

An inventive device for performing the Ver driving with a raw material processing device in that a sampler at the discharge of the finished product Arranged device, which is a separator for ver different grain fractions is subordinate, whereby for the Grain fractions measuring devices are provided which hold the data transmit an evaluation device that admixes the Grain fractions regulates and / or an adjustment part for that Processing device or a feed affected.

An advantageous embodiment is that a individual grain fractions over distributor switches with the end and associated with recovery.  

Furthermore, it is advantageous that the first grain fraction can be fed directly to the discharge.

It is also proposed that in the evaluation device a fixed or adjustable setpoint generator is provided.

It is also advantageous that the evaluation device long control pulses via the line to the adjustment part there until the setting with the actual value in the measuring device matches.

It is also proposed that the distribution switches can be controlled via the evaluation device.

It is advantageous that programs or memory in the Evaluation device the finished product discharge as often as is recoverable.

It is further proposed that the sampling gene advises a bulk goods lock.

According to a further proposal of the invention, this is done before that as a separator, a screening machine, an upstream classifier, an air classifier u. Like. Is provided.

It is also proposed that the measuring device be a Has pipe loop, the ends of which are at the inlet and outlet movably supported and at the turning point on a load cell is led.

With the method and the device according to the invention you have the opportunity immediately without wasting time  constantly or in certain time units on the grain belt displacements of the raw material semi or fully automatic To influence. The control and on actuator unit for a wide variety of raw material processing devices can be connected.

The invention is set forth in the description below hand of an execution shown in the drawings example explained in more detail.

It shows

Fig. 1 is a block diagram of a derarti gen device,

Fig. 2 shows an embodiment for the formation of the separation device and of the measuring instrument in elevation,

Fig. 3 is a side view of a gene gene and

Fig. 4 shows an embodiment of a sampling device in section.

1 is used to explain the method and the structure of the device . The raw material product is fed to the processing device 1 via a conveyor belt, a slide or a pump line 14 . There are various possibilities for the embodiment of this processing device, such as devices with a wash bed, the fine sand discharge being able to be controlled by changing the wash bed depth. For the device 1 upstream classifiers, Sandschnek ken, cyclones and. Like. Be used.

The finished product is removed from discharge 9 . The pollutants and the excess fine sand pass through a recovery line 13 into a polder or a recovery plant 7 , in which the fine sand can be recovered by anyone.

At the discharge 9 , a sample is taken by means of a sampling device 2 , which can be, for example, a bulk material lock, as shown in FIG. 4. The amount removed from the device 2 in a Trenge advises 3 , where the amount is laid out in at least two grain fractions. Here, a first grain fraction 10 can be fed directly to the finished product discharge 9 or carried out separately. A second and third grain fraction 11 and 12 according to the embodiment shown is guided by the device 3 to fine grain proportion measuring devices 4 and 4 ' , where the measurement is carried out. The discharge of the fractions 11 and 12 can either be fed directly to the discharge 13 of the excess fine product or separately. To control the fraction portions 11 and 12 is in each Lei device 16 or 16 ' a distribution switch 6 or 6' is turned on, so that there is also the possibility to mix the fractions of the finished product in the discharge line 9 .

The Feinkornmeßgeräte 4, 4 ' are connected via control lines 17, 17' to an evaluation device 5 , which in turn is like that to an adjusting part 8 via a line 15 and via lines 18, 18 ' to the distribution switches 6, 6' is connected. Here, the signal arriving via lines 17, 17 'is constantly compared with the adjustable setpoint. In the event of deviations from the target value, the evaluation device 5 sends control pulses to the control part 8 analogously to the deviation. These pulses are emitted until the output pulse agrees with the specified setpoint. There is also a corresponding control of the distributor switches 6, 6 ' .

The evaluation device 5 can be provided with as well as without displaying the composition of the finished product to keep the density in the fine grain proportion measuring device 4, 4 ' . Furthermore, a selectable memory can be provided for producing various desired finished products. By means of the control pulses via line 15 to the adjusting part 8 , the raw material preparation device 1 is adjusted in such a way that the desired finished product is produced, the set fine grain fraction target value with the fine grain fraction fraction 11, 12 in the fine grain fraction measuring device 4, 4 ' matches. In the case of the ongoing fluctuations of the fraction 11, 12 , a continuous re-adjustment is given. About the adjustment part 8 can also be acted on the raw product inlet 14 , in which the feed chute, spray devices, upstream water and inlet quantities are adjusted. For the United divider 6, 6 ' can slide, throttle valves, United divider slides, pinch valves and. Like. Be used.

In FIGS. 2 and 3 is an embodiment of the separation device 3 and the measuring devices 4 shown 4 '. The separating device 3 is a screening machine in which the sample taken is broken down into the different fractions 10, 11, 12 . For this purpose, the screening machine has a screening deck 19 which is divided in the longitudinal or transverse axis in order to achieve different grain fractions. The division can be seen in particular from FIG. 3 with the intermediate wall 20 . The sieve machine can also be formed by a sieve with several sieve decks. The at the bottom of a funnel 21 existing fine sand-water mixture passes into a Rohrschlei fe 22 , the ends of which are movably supported at an inlet 23 and an outlet 24 . At the turning point 25 , the pipe loop 22 is held on a load cell 26 , which converts the load due to a change in weight in the volumetric flow into an analog electrical signal that is input to the evaluation device 5 . The volume can be precisely adjusted via a nozzle with exchangeable inserts at the inlet 23 or a slide at the outlet 24 . Instead of such load cells, ultrasonic cells, radioactive dense measurements and the like can. Like. Be provided. As FIG. 3 shows, such pipe loops 22 can be arranged side by side for several fractions 11, 12 .

FIG. 4 shows the embodiment of a sampling device 2 and that as bulk material sluice, in which a bucket wheel is driven 28 within a housing 27. Such a removal device ensures that a constant amount can always be removed from the finished product stream 9 .

Claims (11)

1) Method for producing a gravel-sand finished product from a raw material product, a sample being taken after the preparation of the raw material product and after its analysis being compared with the desired value, characterized in that a partial amount is withdrawn from the finished product for taking the sample is divided into several fractions, which are mixed into the finished product or a recovery share after a comparison of the target value with the actual value. 2) Device for performing the method with a raw product preparation device ( 1 ) according to claim 1, characterized in that a sampling device ( 2 ) is arranged on the discharge ( 9 ) of the finished product, which a separator ( 3 ) for different grain fractions ( 10 , 11, 12 ), wherein for the grain fractions ( 10, 11, 12 ) measuring devices ( 4, 4 ' ) are provided, which transmit the data to an evaluation device ( 5 ) that admixes the grain fractions ( 10, 11, 12 ) regulates and / or an adjusting part ( 8 ) for the Aufaufungsge advises ( 1 ) or a feed ( 14 ). 3) Device according to claim 2, characterized in that individual grain fractions ( 11, 12 ) via distributors give way ( 6, 6 ' ) to the discharge ( 9 ) and to the recovery ( 13 ). 4) Device according to claim 2 and 3, characterized in that the first grain fraction ( 10 ) directly from the order ( 9 ) can be fed. 5) Device according to claim 2 to 4, characterized in that a fixed or adjustable setpoint generator is provided in the evaluation device ( 5 ). 6) Device according to claim 2 to 5, characterized in that the evaluation device ( 5 ) emits control pulses over the line ( 15 ) to the adjusting part ( 8 ) until the setting with the actual value in the measuring device ( 4, 4 ' ) agrees. 7) Device according to claim 2 to 6, characterized in that the distributor switches ( 6, 6 ' ) on the evaluation device ( 5 ) can be controlled. 8) Device according to claim 2 to 7, characterized in that advises about programs or memory in the Auswertege ( 5 ) the finished product discharge ( 9 ) can be retrieved as often as desired. 9) Device according to one of claims 2 to 8, characterized in that the sampling device ( 2 ) is a bulk material lock. 10) Device according to one of claims 2 to 9, characterized in that a screening machine, an upflow classifier, an air classifier and the like is provided as the separating device ( 3 ). 11) Device according to one of claims 2 to 10, characterized in that the measuring device ( 4, 4 ' ) has a tube loop ( 22 ), the ends of which are movably supported at the inlet ( 23 ) and outlet ( 24 ) and at the turning point ( 25 ) is guided on a weighing roller ( 26 ).