DD256608A3 - AUTOMATIC METAL CLASSIFIER - Google Patents

Abstract

The invention relates to an automatic metal classifier for rational processing process design for ferrous and non-ferrous metal scrap. The purpose of the metal classifier is to eliminate the impact of electronic information processing systems caused by spark discharge processing equipment, radio equipment, etc., and to increase the productivity of the work while reducing the work effort and increasing the sorting accuracy. The automatic metal classifier according to the invention consists of the module analyzer, which is formed by a radio and a flexible interference time detector, automatic classifier, classification operator and display. The proposed metal classifier can be used in metal processing plants as well as for raw material input testing in foundries, steel mills and other huts. Fig. 1

Description

For this 3 pages drawings

Field of application of the invention

The automatic metal classifier is used in metal processing plants for the more efficient treatment design of ferrous and non-ferrous metal scrap, with classification being made in predetermined classes representing certain alloying constituents. Furthermore, with the automatic metal classifier, incoming raw material inspections can be carried out in foundries, steel mills and smelters.

Characteristic of the known technical solutions

Methods and devices are already known for the evaluation and classification of ferrous and non-ferrous metal scrap. Thus, in DD-PS 47070 a steel tag tester for profiles and semi-finished products is described, which was developed for hand sampling. This steel tag tester jst in a known manner composed of ohmic resistors and two coils, of which one coil serves as a core to be tested each steel sample during one of the ohmic

Resistors manually adjustable. The manually adjustable ohmic resistor designed as a potentiometer for bridge balancing can be switched off and a system of adjustable resistors can be connected in its place. Of the latter, in turn acting as a potentiometer Obmscher resistor using known means for automatic bridge balance motorized. There is a direct display of the material to be tested by a pointer on a scale provided with the quality marks and the contact triggered by the pointer lighting up on a separate scale, the device works only with a test coil. The test coil can be emptied and matched with the material to be tested to a constant electrical value, which is parallel to the test coil. For automatic adjustment and direct display, an extended bridge branch is used to adjust the amplitude. The ohmic resistors are used for setting and specifying the steel marks to be displayed. This steel brand testing device contains as the core of an AC measuring bridge, the adjustment is time consuming and therefore can only have a low throughput. The display of the test result is made by scale marking with appropriate calibration according to sample standards and does not allow statements of high accuracy.

DE-OS 2513266 includes a device for determining the proportions of alloy components in material samples of metal, wherein the respective material sample arranged in a discharge circuit, spark discharges triggers and their spectra are examined by means of diffraction gratings. The spectral lines of the alloy components to be tested are each assigned an integrator for integrating an electric current proportional to the intensities and the spectral line of the base metal also an integrating element of an electric current proportional to their intensity. Each of an alloying component to be tested associated integrating a differential amplifier is connected, whose second input is connected as the reference signal, the output signal of the integration element for the base metal, and that the Differenzverstärkem a display device is connected, which emits a visual and / or audible error message in case of deviation from the desired value ,

The qualitative and quantitative examination of the alloy components is made, but with the interference arising during the spark discharge, data processing by means of microcomputers is excluded. DE-OS 3047536 contains a method and an apparatus for sorting metal parts. The method described uses x-ray or isotope beams to detect metal species, which are trapped by a detector after passing through the specimen and analyzed by a computer, after which the sorting of the metal specimens can be carried out. An X-ray generator and a detector are arranged below the transport means. As a result, an always constant distance from the generator and detector is ensured to the metal parts, so that a constant analysis can be achieved. It is also proposed there that the transport device has a conveyor belt and the emanating from the generator and the rays reaching the detector penetrate the conveyor belt. In addition to an increased effort to ensure health and safety work by using X-ray and Isotopenstrahleh disturbing interference of the microcomputer used for information processing, which put the useful use of a microcomputer in question at all.

Object of the invention

The object of the invention is to provide an automatic metal classifier for metal processing plants for more efficient treatment process design for ferrous and non-ferrous metal scrap, which allows an increase in labor productivity while reducing the labor and allows an increase in the sorting accuracy.

Explanation of the essence of the invention

The technical problem to be solved by the invention is to develop an automatic metal classifier for more efficient conditioning processing in metal processing plants for ferrous and non-ferrous metal scrap, capable of eliminating the interferences caused by analyzers during the identification phase.

The automatic metal classifier according to the invention consists of an assembly analyzer, which is itself composed of a known radio and a flexible Störzeiterkenner, an assembly automatic classifier, an assembly classification operator and an assembly display.

The analyzer has one connection each from the radio and the flexible fault time detector to the automatic classifier. While the analysis result is transmitted via the connection between the radio and the automatic classifier, the connection between the flexible time-of-error detector and the automatic classifier is necessary. A feedback from the automatic classifier for enabling the transmission of the analysis result to the automatic classifier to the analyzer is used to actuate the radio, thereby preventing the previously obtained analysis result from being exceeded, intentionally or unintentionally.

The automatic classifier links to the classification operator and to the display. While the connections to the classification operator serve to transmit the results of the analysis result determined in the automatic classifier, the compounds display the valuation results from the automatic classifier. The flexible Störzeiterkenner is also connected to the classification operator, the classification operator can only work in the case of existing interference freedom, which conveys the flexible Störzeiterkenner. The feedback existing between the classification operator and the automatic classifier serves to report the completion of a classification operation. The flexible fault time recognizer consists of a fault time analyzer, an evaluation logic and an electronic blocking circuit. The disturbance time analyzer maintains a connection with the radio to detect the influences interfering with the information processing in the automatic classifier. At the same time, the disturbance time analyzer is conductively connected to an evaluation logic and an electronic blocking circuit, wherein, in addition, there is also a connection between the evaluation logic and the electronic blocking circuit. The flexible Störzeiterkenner detects the disturbance times and generates an information processing cycle, which is characterized by a varying depending on the interference disturbance time and thus by a variable information processing time. The electronic blocking circuit maintains in turn

Links to a Meßstellenumschalter, which provides the possibility of switching to a second or further radio device, the microcomputer, which is used for information processing of the analysis results obtained in the analyzer, and the classification operator.

The automatic classifier consists of a selector switch, an analog-to-digital converter and a microcomputer. From Meßstellenumschälter there is a connection to the analog-to-digital converter, which in turn is linked to the microcomputer.

The classification operator is composed of a timer, a flap release, a stripper release and a Abfunktischfreigabe, with the output of the timer in parallel the flap release, scraper release and Abfunktischfreigabe be controlled. The output of the microcomputer is routed to one input of the timer, the flap release, the scraper release and the Abfunktischfreigabe.

embodiment

The invention will be explained in more detail using an exemplary embodiment. The accompanying drawings show:

Fig. 1: Overview block diagram;

Fig.2: Flexible fault time recognizer;

3 shows an information processing cycle;

Fig.4: Structure of the automatic classifier;

Fig. 5: Structure of the classification operator.

As can be seen from FIG. 1, the overview block diagram, the invention consists of the module analyzer 1, composed of a known radio device 1.1 and a flexible fault time detector 1.2, automatic classifier 2, classification operator 3 and a display 4.

A connection is always available from the radio 1.1 and "from the flexible fault time detector 1.2 to the automatic classifier, starting from the analyzer 1. While the analysis result is transmitted via the connection between the radio 1.1 and the automatic classifier 2, the connection between the flexible fault time detector 1.2 and the automatic classifier 2 is Release of the transmission of the analysis result to the automatic classifier 2. A feedback from the automatic classifier 2 to the analyzer 1 is used for the actuation release of the radio device 1.1, thus preventing exceeding of the previously obtained analysis result, intentionally and unintentionally.

The automatic classifier 2 has connections to the classification operator 3 and to the display 4. While the connections to the classification operator 3 serve to transmit the scores of the analysis result determined in the automatic classifier 2, the connections route the evaluation results from the automatic classifier 2 to the display 4. The flexible fault time detector 1.2 is also connected to the classification operator 3, whereby the classification operator 3 can only operate in the event of interference freedom, which the flexible fault time detector 1.2 imparts. The existing between classification operator 3 and 2 automatic classifier feedback is used to report the completion of a classification operation.

FIG. 2 shows the flexible fault time detector 1.2, which consists of a fault time analyzer 1.2.1, an evaluation logic 1.2.2 and an electronic blocking circuit 1.2.3. The fault time analyzer 1.2.1 maintains with the radio 1.1 a connection for detecting the information processing in the automatic classifier 2 disturbing influences. At the same time, the fault time analyzer 1.2.1 is conductively connected to an evaluation logic 1.2.2 and an electronic blocking circuit 1.2.3. The evaluation logic 1.2.2 is also linked to the electronic blocking circuit 1.2.3. The flexible Störzeiterkenner 1.2 detects the disturbance times and generates the information processing cycle shown in Fig. 3, which is characterized by a variable depending on the interference disturbance time and thus by a variable information processing time. The electronic blocking circuit 1.2.3 in turn maintains connections to the measuring point switch 2.1, which provides the possibility of switching to a second or further radio device 1.1, the microcomputer 2.3, which is used for information processing of analysis results obtained in the analyzer 1.1, and the classification operator 3. In Fig .4, the structure of the automatic classifier 2 is indicated. From the measuring point switch 2.1 is a connection to the analog-to-digital converter 2.2, which in turn is linked to a microcomputer 2.3. 5 shows the structure of the classification operator 3, which consists of a timer 3.1, a flap release 3.2, a scraper release 3.3 and a Abfunktischfreigabe 3.4, wherein the microcomputer 2.3 is connected to the timer 3.1, the flap release 3.2 of the wiper release 3.3 and the Abfunktischfreigabe 3.4 , In addition, the timer 3.1 is controlled by the flexible fault time detector 1.2, and on the output side controls the timer 3.1, the flap release 3.2, the Abstreiferfreigabe3.3 and Abfunktischfreigabe 3.4.

The advantages of the proposed solution are that the automatic metal classifier can operate with one, two and more radios, increasing the throughput of metalworking equipment while reducing labor time and improving the quality of metal scrap sorting, thereby increasing labor productivity.

Claims (4)

1. Automatic metal classifier, consisting of the modules analyzer, automatic classifier, classification operator and display, characterized in that the analyzer (1) consisting of radio (1.1) and flexible fault time detector (2.1) each have a connection to the automatic classifier (2), wherein the analysis result is transmitted via the connection between the radio (1.1) and the automatic classifier (2) and the connection between the flexible fault time identifier (1.2) and the automatic classifier (2) is used to enable transmission of the result of the analysis to the automatic classifier (2) in that, for actuation release of the radio (1.1), feedback from the automatic classifier (2) to the analyzer (1) is provided, leading from the automatic classifier (2) to the classification operator (3) and to the display (4), the connection to the classification operator ( 3) for the transmission of the automatic serves the evaluation of the results of the automatic classifier (2) to the display (4), the flexible Störzeiterkenner (1.2) is connected to the mediation required Störungsfreiheit with the classification operator (3) and the Notification of the completion of a classification operation between classification operator (3) and automatic classifier (2). 2. Automatic metal classifier according to item 1, characterized in that the flexible fault time recognizer (1.2) for detecting the disturbance times and generating an information processing cycle consists of disturbance time analyzer (1.2.1), evaluation logic (1.2.2) and electronic blocking circuit (1.2.3), the disturbance time analyzer (1.2.1) with the radio (1.1) maintains a connection for detecting the information processing in the automatic classifier (2) interfering influences, at the same time conductively connected to an evaluation logic (1.2.2) and an electronic blocking circuit (1.2.3) is, in addition, a connection between Auswertelogik (1.2.2) and electronic blocking circuit (1.2.3) exists and the electronic blocking circuit (1.2.3) connections to a the possibility of switching to a second or further radio device creating Meßstellenumschalter (2.1), one of the information processing of the analysis result obtained in the analyzer (1) microcomputer (2.3) and the classification operator (3). 3. Automatic Metallklassifikator according to item 1 and 2, characterized in that the automatic classifier (2) consists of a Meßstellenumschalter (2.1), an analog-to-digital converter (2.2) and a microcomputer (2.3), the Meßstellenumschalter (2.1) with the analog-to-digital converter (2.2) and this in turn with the microcomputer (2.3) is linked. 4. Automatic metal classifier according to item 1, characterized in that the classification operator (3) from a timer (3.1), a flap release (3.2), a scraper release (3.3) and a Abfunktischfreigabe (3.4) is formed by the output of the timer (3.1 ) parallel to a triggering for flap release (3.2), scraper release (3.3) and Abfunktischfreigabe (3.4) exists and the output of the microcomputer (2.3) respectively to an input of the timer (3.1), the flap release (3.2), the scraper release (3.3) and the Abfunktischfreigabe (3.4) is performed.