ES2359691B1 - MACHINE TRACHINE MACHINE RADIATION ISSUERS (WITH OR WITHOUT PHYSICAL STIMULATION) FROM GEOLOGICAL MATERIALS. - Google Patents

Abstract

Machine that detects and separates from a geological material, particles that stand out for the emission of alpha, beta or gamma radiation, etc. This emission can be a consequence of the excitation of the material (by ultraviolet, infrared, etc.) or spontaneous light. # A unitary layer of material circulates on a conveyor belt through a dark chamber where they are, if appropriate, excited (with ultraviolet, infrared light etc.). A mobile mechanism houses an irradiation detector that detects the presence of useful material in the mixture, and sends an electrical signal to a piston that brings a vacuum nozzle to the region of material that contains the particle, being separated from the rest (by aspiration) . By applying successive analogous steps, the mixture can be screened until it contains a high content of useful material. # By machining the process, manual separation is avoided, increasing the percentage of useful material recovered and optimizing the time to achieve it.

Description

Tria machine of radiation emitting particles (with or without physical stimulation) from geological materials. Technical sector

The invention falls within the technical sector of Geology and Environmental Sciences, more specifically in the field of extraction of mineral and fossil geological materials, and detection of solid pollutants. State of the art

Currently, the triad of solid particles of geological origin of sand-gravel sizes is carried out manually based on their external morphology, as is the case with vertebrate microfossils. From a previous treatment by chemical methods and / or physical sieving, the sediment is reduced only to its sandy fraction of granulometric values greater than 0.5 millimeters in diameter. Later, the selection of this fraction is done by visual recognition under binocular magnifying glass and manual separation with precision tweezers by specialists. Technical problem raised

The aforementioned procedures require a long time investment by specialists who can distinguish between the particles of useful material (ore) and those of waste (bargain) that make up a geological material, as well as a manufacturing of grain to grain separation by these. Thus, it is common that many particles of useful material go unnoticed during this process due mainly to two reasons.

The first concerns the fact that morphological recognition criteria are applied in this work, with the consequent impossibility of identifying the complete or partially amorphous useful material. Therefore, there is an inevitable loss of these unidentifiable particles by direct observation.

The second refers to the physical impossibility of a person to recognize all useful non-amorphous particles within the visual field of the binocular magnifying glass, unless the manual scanning movement is carried out slowly enough. In this way, the potential ore recoverable by visual recognition is subject to a strong dichotomy between the partial loss and the slowdown of the entire process.

It would be desirable, therefore, to obtain a mechanical method independent of the external morphology of the particles that would ensure the extraction of a high percentage of the total ore available in a geological material through a process of discrimination and separation of the particles according to their physical properties. -chemistry. Technical advantage provided by the invention

To this end, the present invention focuses on the detection of radiation emission (photonic, alpha and / or beta) by the useful material, both spontaneously, and under the incidence of a stimulus (ultraviolet, infrared, electromagnetic radiation, etc.). This characteristic is taken as a discriminating factor to mechanically separate it from the residual material of a sediment.

The use of this criterion, a physical-chemical property, compared to the classic morphological visual recognition criteria, results in a more precise selection and allows complete automation.

Thus, greater efficiency and speed is achieved in the triad of ore particles from the treated geological material.

Detailed description of the invention

The present invention refers to a machine that detects and separates from a granulometrically uniform but compositionally heterogeneous geological material, particles that stand out by the emission of radiation in the visible spectrum (treated example), infrared or ultraviolet. Likewise, particles emitting alpha or beta radiation could also be detected and separated. Said emission may be a consequence of the excitation of the material (by ultraviolet, infrared light, etc.) or it may be spontaneous.

The detection and separation process is initiated by pouring a unit thickness layer of material onto the input tape or primary separation tape (6). Subsequently, the material is taken into the dark detection chamber (22).

The detection and separation process begins with the excitation of the material with a source (1) appropriate to the properties of the material to be detected (ultraviolet, infrared light, etc.), if necessary (depending on the specific application). At the same time, a commercial detector (luminescence, visible light, ultraviolet, infrared or alpha or beta particles, depending on the application) or computer recognition or vision system (2), sends an electrical signal to a piston electric (3) in the event that it detects the presence of the substance to be separated in the mixture, and this, by means of the pushrod (4), unfolds the bottom of the suction nozzle (5), bringing it closer to the particles that they circulate on the conveyor belt (6). These are aspirated through the nozzle (5), and conducted, through the transport duct (7), to the receiving system (8). The suction air stream operates continuously, so that the particles are aspirated or not, depending on the distance between them and the suction nozzle (5). The receiver system is not the object of the patent, but it must consist of a separator of the solid particles of the air current such as, for example, a cyclone (9), and a depression generator such as, for example, a fan ( 10). The material that is not selected is discarded at the end of the conveyor belt (6).

The elements associated with the excitation, detection and separation, which require contact with the material, must move in solidarity. The carriage (11) that houses these elements slides over the guide bars (12), which support it. The displacement is caused by an electric motor (13) housed in the car itself (11). A gearwheel (14) is housed on the motor drive shaft (13), which travels along a rack (15). By reversing the polarity of the motor (11) by means of the travel ends (16), which actuate two switches (17), the alternative displacement of the carriage (11) is achieved.

The useful material, once discharged from the receiving system (8), can be arranged to continue the process of the machine for successive analogous stages or, if appropriate, to be deposited in the corresponding collection device. Description of the fi gures

This document includes Figure 1, where the front view of the mechanism is represented. They also provide the most representative electrical interconnection accessories.

The central element of the mechanism is the carriage (11), which is supported on the guide bars (12) by means of the clamping bearings (19), which allow its movement. The guide bars (12) are fixed to the side supports (18). The excitation source (1), if applicable, is also fixed to the carriage (11), oriented towards the sample particles. The corresponding detector (2), idem. The latter remains electrically interconnected with the electric piston (3), which is also fixed to the carriage (11). The piston rod (3), in an upright position, oriented towards the bottom, is connected at its distal end to the upper end of the pushrod (4). On the other hand, the lower end of this rod (4), which is supported by the rod guide (20), holds the lower end of the retractable suction nozzle (5). This nozzle (5) remains attached, at its upper end, to the lower end of the transport duct

(7) which, in turn, is fixed to the carriage by the clamping flanges (21). The central section of the transport duct (7) has total freedom of movement. The opposite end of this duct (7) is introduced tangentially into the separation cyclone (9). This (9), is connected, through an upper hole, to the inlet port of the depression generator, fan (10).

The electric motor (13) is also fixed to the car (11). The gearwheel (14), which engages in the rack (15), is fixed to the driving axle of the latter. The zipper (15), in turn, is fixed to the side supports (18).

The carriage (11) has two protuberances on the upper part of each of its sides, which are projected on the race ends (16), located in the lateral supports. The race ends (16), represented schematically, actuate their respective switches (17). The interconnection of the switches (17) is done so that they reverse the polarity of the motor (13).

The entire system is located inside the dark detection chamber (22) which, in turn, covers the work area of the conveyor belt (6). Embodiment

The mechanism as a whole, with the exception of the receiving system, must be fully inserted into the dark chamber (23) of the radiation emitting geological particle machine.

In the manufacture of the invention there are three different parts: the electrical circuit, the mechanical elements and the support structure of the mechanism.

All parts of the electrical circuit are standardized, and can be supplied by any manufacturer thereof. The type of detector (luminescence, visible light, infrared or ultraviolet, or alpha or beta particles, etc.) should be studied for each case, being able to use a computerized recognition system. Likewise, the introduction of an exciter element (ultraviolet, infrared light, etc.) should be studied. For example, for a mixture of sedimentary particles with phosphate elements, an ultraviolet light (such as a UV LED) and a visible light detector or a computerized recognition system should be included as an exciter element, since the material responds to the excitation with The emission of radiation at this frequency.

The dimensions of the mechanical elements, as well as their materials, should be studied for each application, being mostly carbon steel. The interior of the dark chambers could, if the case so requires, have a dark coating (paint, plastic materials, etc.) to avoid reflections that distort the detection. The fixations, on the other hand, are strictly linked to the speci fi c application.

The housing and the conveyor belt, as well as the fixations, are strictly linked to the speci fi c application. Industrial application

The present invention is susceptible of application in the separation of mixtures of terrifying aggregates with solid materials identifiable by the emissivity of visible, ultraviolet or infrared light, or alpha or beta radiation, with or without excitation (ultraviolet, infrared light etc.). These applications include, by way of example: separation in a mixture of aggregates of sedimentary phosphate particles, contaminated particles, radioactive particles, etc.

Claims (9)

one.

Tria machine for ultraviolet, visible, infrared, alpha or beta emitting particles from geological materials; characterized by arranging the material with unit thickness on a tape, detecting the particles in question in a dark chamber and separating the region that contains them by pneumatic aspiration.

2.

Particle triage machine according to claim 1 characterized by having several tria steps analogous to the first, progressively decreasing the amount analyzed.

3.

Particle triage machine according to claim 1 characterized by having a mobile device (installed inside a dark chamber, or adapted to the appropriate signal for the detector), which moves over a unitary layer of disintegrated material.

Four.

Particle triage machine according to claims 1 and / or 3, characterized by housing the particle detection system to be selected (alpha, beta or gamma radiation emission detector, computerized recognition system, etc.) and the system of

Extraction of useful material in the mobile tracking device.

5.

Tria machine according to claims 1, 3 and / or 4, characterized in that the suction system (originating in the mobile device) directs the material to a stable area, for its convenient arrangement.

6.

Tria machine according to claims 1, 3, 4 and / or 5, characterized by having an extraction system based on the aspiration, constituted by the vacuum nozzle and a mechanism approximating it to the material to be extracted.

7.

Tria machine according to claims 1, 2, 3, 4 and / or 5, characterized by having an extraction system based on the suction, constituted by the vacuum nozzle and activated by the increase of the suction force, as an alternative to method described in claim 6.

8.

Tria machine according to claims 1, 2, 3, 4, 5, 6 and / or 7, characterized by having a particle exciter element such as an ultraviolet, infrared light, etc.

SPANISH OFFICE OF THE PATENTS AND BRAND Application number: 200800018 SPAIN Date of submission of the application: 12.27.2007 Priority Date: REPORT ON THE STATE OF THE TECHNIQUE 51 Int. Cl.: B07C5 / 346 (2006.01) B07B9 / 02 (2006.01) RELEVANT DOCUMENTS

Category

Documents cited Claims Affected

X

ES 2276103 T3 (FORCE TECHNOLOGY) 16.06.2007, page 3, lines 26-64; page 4, lines 1-5; page 7, lines 1-57; claim 1; Figures 1-3. 1-8

X

US 2007 086568 A (PETZOLD, III et al.) 04/19/2007, the whole document. 1-8

X

EN 482668 A1 (OUTOKUMPU OY) 01.03.1980, page 2, line 27 - page 3, line 15; page 4, line 12 - page 5, line 19; figure 2. 1-8

X

Epodoc database in Epoque. European Patent Office (Munich, DE). EP 0096092 A1 (SCZIMAROWSKI KLAUS) 21.12.1983, summary. 1-8

TO

Epodoc database in Epoque. European Patent Office (Munich, DE). JP 2001146315 A (ROHM CO LTD) 03.12.2003, summary; Figure 1. 1,6,7

TO

Epodoc database in Epoque. European Patent Office (Munich, DE). JP 8131966 A (MITSUBISHI HEAVY IND LTD) 28.05.1996, summary; Figure 1. 1,6,7

Category of the documents cited X: of particular relevance Y: of particular relevance combined with other / s of the same category A: reflects the state of the art O: refers to unwritten disclosure P: published between the priority date and the date of priority submission of the application E: previous document, but published after the date of submission of the application

This report has been prepared • for all claims • for claims no:

Date of realization of the report 12.05.2011

Examiner R. San Vicente Domingo Page 1/4

REPORT OF THE STATE OF THE TECHNIQUE Application number: 200800018 Minimum documentation searched (classification system followed by classification symbols) B07C, B07B Electronic databases consulted during the search (name of the database and, if possible, terms of search used) INVENES, EPODOC State of the Art Report Page 2/4  WRITTEN OPINION Application number: 200800018 Date of Completion of Written Opinion: 12.05.2011 Statement

Novelty (Art. 6.1 LP 11/1986)

Claims Claims 1.8 IF NOT

Inventive activity (Art. 8.1 LP11 / 1986)

Claims Claims 2-7 IF NOT

The application is considered to comply with the industrial application requirement. This requirement was evaluated during the formal and technical examination phase of the application (Article 31.2 Law 11/1986).  Opinion Base.- This opinion has been made on the basis of the patent application as published. State of the Art Report Page 3/4  WRITTEN OPINION Application number: 200800018 1. Documents considered.- The documents belonging to the state of the art taken into consideration for the realization of this opinion are listed below.

Document

Publication or Identification Number publication date

D01

ES 2276103 T3 (FORCE TECHNOLOGY) 06/16/2007

D02

US 2007 086568 A (PETZOLD, III et al.) 04/19/2007

D03

EN 482668 A1 (OUTOKUMPU OY) 01.03.1980

D04

Epodoc database in Epoque. European Patent Office (Munich, DE). EP 0096092 A1 (SCZIMAROWSKI KLAUS) 21.12.1983, summary.

D05

Epodoc database in Epoque. European Patent Office (Munich, DE). JP 2001146315 A (ROHM CO LTD) 03.12.2003, summary; Figure 1.

D06

Epodoc database in Epoque. European Patent Office (Munich, DE). JP 8131966 A (MITSUBISHI HEAVY IND LTD) 28.05.1996, summary; Figure 1.

2. Statement motivated according to articles 29.6 and 29.7 of the Regulations for the execution of Law 11/1986, of March 20, on Patents on novelty and inventive activity; quotes and explanations in support of this statement Document D01 constitutes the state of the art closest to our request. In this document, we find a system or device to automatically separate objects, which includes an object transport mechanism, a sensor device consisting of a source of neutrons as an exciter element, a moderator and a gamma radiation detector emitted by said objects, and finally from a classification unit configured to receive from the sensor an electrical signal from which a control signal will be generated to the classification device. Therefore, there is no difference between document D01 and the 1st claim of the application under study, the novelty of said first claim being fully questioned with document D01. In an analogous way, the novelty of said claim 1 would be questioned with any of documents D02 to D04, all of them automatic particle separation devices, from a detection system that sends a control signal to a separation system. Likewise, the novelty of claim 8, dependent on the first claim, would be questioned with document D01, which describes a particle excitation system, in this case by neutron bombardment. With respect to claims 2 to 5, all of them dependent on the 1st or previous claims, and which refer to the repetition of the tria process as many times as necessary, and the inclusion in a mobile device of the excitation system of particles, of the system of detection of the radiation of the particles, as well as of the extraction system based on the aspiration, we could say that the case that the method could be repeated as many times as required by the separation process, would be an obvious application of the own method developed in D01, and that for the only difference with respect to document D01, which would be that there was a mobile device that could move on the material itself, would not produce an unexpected technical effect, and would be considered only a different embodiment to that expressed in document D01, the inventive activity of said claims 2 to 5 being questioned with said document D01. Likewise, the inventive activity of said claims 2 to 5 would be questioned with any of the other documents D02 to D04. The development of the classification system based on pneumatic aspiration and controlled by the approach of the suction nozzle or by the increase of the suction force, has also been considered obvious to a person skilled in the art and would also produce the same result as any other known separation system of the state of the art, therefore the inventive activity of those characteristics developed in the dependent claims 6 and 7 would be questioned with any of documents D01 to D04. On the other hand, documents D05 and D06 would reflect the prior art, and would give two examples of the use of pneumatic vacuum cleaners in the processes of separation or classification of objects. Therefore and by way of summary, we could conclude that the particle triage machine described in claims 1 to 8 of the present application does not show novelty (claims 1 and 8) or inventive activity (claims 2 to 7), and by therefore the patentability of the invention would be questioned in accordance with articles 6 and 8 of patent law 11/86. State of the Art Report Page 4/4