• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a method and a device for recovering abrasive from cutting waste in drip pans of abrasive waterjet cutting machines, wherein a separation of a desired size class of abrasive grains and the residual material takes place. In order to achieve a recovery of cutting means in a simple, safe and economical manner, the invention provides that the apparatus for treating a sludge of the cutting waste (1) with water, optionally with a separator for a light fraction with a sieve (5) by means of wet sieving Classification or classification of the heavy fraction and optionally with a dryer (6) is formed for a desired size class, wherein the Nasssiebeinrichtung (5) at least one Grobsieb (51) for depositing the portion that exceeds the desired size class, and a Feinsieb (52) Excretion of the fine fraction with water from the residual sludge and a discharge (521) of the desired size class of heavy fraction, for which heavy fraction a dryer (6) and / or a separator (7) for the abrasive portion and a classifier (8) for this the separator (7) can be subordinate.
    公开号:AT517410A1
    申请号:T50594/2015
    申请日:2015-07-07
    公开日:2017-01-15
    发明作者:Moser Jürgen
    申请人:STM Stein-Moser GmbH;
    IPC主号:
    专利说明:

    Recovery of Abrasive from Abrasive Water Jet
    cutting systems
    The invention relates to a method of recovering abrasive from cutting waste in drip pans of abrasive water jet cutting machines, with separation from a desired size class of abrasive grains and the residual material.
    Furthermore, the invention relates to a device for the recovery of abrasive from cutting waste from collecting pans of abrasive water jet cutting systems with a means for separating a desired size class of cutting grains and the residual material.
    When water jet cutting, which method has been part of the prior art for years, the workpiece to be machined is processed with a high-pressure water jet separating.
    Despite high pressures and therefore high-energy water jets have their cutting capacity limits.
    With a view to severing thicker and harder materials, the water may be admixed with a cutting agent, for example garnet or corundum grains, which in technical terms is called water-jet abrasive cutting technology.
    Abrasive cutting usually hard materials such as steel, aluminum, plastics, natural stone, glass, ceramics and the like edited or cut.
    Essentially, in abrasive cutting in a nozzle, a highly compressed water is formed into a jet having a diameter of about 0.25 to 0.40 mm in a mixing chamber, therein added with abrasive and focussed by a downstream abrasive nozzle, followed by the
    Water jet accelerated particles of the abrasive hit the workpiece at a speed of about 600 m / sec, where the kinetic energy is converted into removal work.
    The Abrasiv- or abrasive is collected in the sequence with the chips and parts of the workpiece in drip pans.
    Abrasives are costly raw materials for abrasive waterjet cutting, therefore, a number of proposals have been made to at least partially recover and recycle them from the drip pans.
    However, a recovery of the abrasive has economic problems and is expensive to carry out, because of the purity and size of the abrasive grains high demands are made and therefore a separation and classification are of crucial importance.
    Document EP0742079 essentially discloses a method of recovering abrasive in which the entire cutting waste from a sump is subjected to drying, followed by classifying and sorting the dry substance and providing a reusable abrasive grain material.
    A drying of a deposited on the bottom of the tub cutting material of a water jet cutting machine with a subsequent suspension of the same in a stream of air, as well as collecting in different size fractions mediates for example DE4106831C1.
    From DE19643807C1 there is further known an apparatus for abrasive agent recovery in waterjet cutting equipment in which a separator for separating useful abrasive from sludge and service water is positioned at formation of pressed portions followed by a drying oven, which drying oven is warmed up and further heated Exhaust air is flowed through.
    All devices and methods for the recovery of abrasive from the cutting waste in question have prevailed for reasons of low efficiency and / or insufficient, technical function only to a small extent in practice.
    The invention now has for its object to provide a method for recovering cutting material from cutting waste in collecting pans of abrasive water jet cutting systems with a separation of a desired grain class of abrasive grains, after which in a simple, safe and economical way, an alien requirements Equitable becoming abrasive additive is producible.
    It is another object of the invention to provide a device for the recovery of abrasive grinding waste of the type mentioned, which accomplishes a reusable abrasive grain fraction in a simple, safe and economical manner.
    The goal is achieved in a method of the type mentioned in that the cutting waste slurried with water, or integrated in water, optionally prepared by a weight classification, a diameter classification is subjected by wet screening and at a departure of grave and fines a creation of a desired Diameter class of the residual material, which has a significant proportion of abrasive, done this, dried and discharged from the dry granules, the abrasive, optionally divided into several size classes and partially or exclusively used as an abrasive cutting agent addition to the water jet in such cutting equipment.
    If, as provided according to the invention, the cutting waste is slurried or integrated into water, a substantially homogeneous sludge can be produced, the homogeneity of which is important for targeted further processing.
    If residues from the material of the cutting part or debris are held in the slurry by the cutting process, they can be effectively separated by a weight classification.
    Such prepared slurry is then subjected to diameter classification by wet screening.
    A wet sieving is essential according to the invention, because the slurry is a suspension which also contains very fine agglomeration-prone powder, which in a dry sieving can lead to blockage of sieve meshes and hinder the diameter classification.
    Digestion and fines separation can be accomplished in the art by rotary screens or screen conveyors wherein the desired diameter grade of residual material, which comprises a substantial portion of the abrasive that can be used, is subjected to drying.
    Drying only the residual material of the slurry has the advantage that only small amounts of water must be brought to evaporation, whereby a large amount of evaporation energy is saved.
    From the dry granules of the residual material is carried out a discharge of the abrasive, for which in particular methods of weight classification based on the density of the abrasive used are advantageously used.
    If necessary, a size classification of the abrasive grains can subsequently be rearranged in order to be able to take into account a specific application requirement.
    In a preferred form of the method according to the invention, the slug cuttings are transported by pumps and subjected to a weight classification, whereby portions of the sludges having a density ρ of less than 2 × 10 3 kg / m 3 are precipitated and discharged. This weight classification is carried out in a favorable manner by means of a cyclone separation of the sludge, because thereby a subsequent wet sieving of the same is promoted.
    A wet sieving in the sequence advantageously provides solid particles in a class with a diameter of 30 μm and 400 μm, with a discharge of the residual sludges and the larger wet particle fractions.
    In a wet sieving, it is advantageous if the device has at least two sieve sizes, wherein the slurry is applied to a first sieve with a mesh size of 400 .mu.m to 200 .mu.m and the larger particles are discharged and the throughput to at least one further sieve with a mesh size reaches less than 200 μη, being fed through a last sieve with a mesh size of greater than or equal to 30 μιτι the finer material and the sludge the spoil.
    The solids content with the abrasive grains in the desired size class is rather small compared to the volume of the cutting waste.
    Due to the small volume of the solid fraction with the abrasive grains, the heat energy to be supplied for drying is comparatively low.
    A particular advantage with reduced energy consumption and therefore improved efficiency is an infrared drying with a wavelength of 0.75 μιτι to 15 μη, because thereby accelerated evaporation of the water content can be achieved.
    The further object of the invention is to provide a device for the recovery of abrasive from grinding waste from drip pans of abrasive water jet cutting plants, which accomplishes a reusable abrasive grain fraction in a simple, safe and economical manner is achieved in that a device for processing a slurry the cutting waste with water, optionally with a separator for a
    Lightweight, is formed with a screening device for classifying or classifying the heavy fraction and optionally with a dryer for a desired size class, wherein the screening device at least one coarse screen for depositing the proportion that exceeds the size class, and a fine screen for excreting the fine fraction with water from the Has residual sludge and a discharge of the desired size class of heavy fraction, for which heavy fraction a dryer and / or a separator for the abrasive portion and / or a classifier for this of the screening device can be arranged downstream.
    The device according to the invention has a juxtaposition of individual devices known per se, which, however, in each case in their coordination with one another enable a new, simple, safe and economical recovery of abrasive from the grinding waste from collecting pans.
    A sludge with cutting waste is formed immediately and after their discharge from a sump with water, where appropriate, if the abrasive water jet cutting system is also to be used for cutting lightweight materials such as plastics and the like, this may have a separator.
    A sludge with remaining heavy fractions can advantageously be easily transported by means of pumps and can be introduced into a classifier, which is formed as a wet sieve device.
    According to the invention, a wet sieve device for classifying the solids of the sludge of the plant has at least one coarse sieve for separating a fraction exceeding the desired size class of the grain, and at least one fine sieve for precipitating the fine fraction with water from the residual slurry and has a discharge for the desired size class of the heavy fraction.
    According to the invention, such a sieve device can be designed with a sieve drum having coaxial sieve tubes or with a plurality of sieve conveyor belts. It is important that the classification of the sludge is done as a wet sieving, because the
    Solid particles in this diameter range tend to agglomerate, which can lead to blockage of the sieve meshes in a dry sieving.
    A downstream dryer is provided for complete dewatering of the heavy fraction, which may interact with a separator for a concentration of abrasive portion.
    In an advantageous manner, the first part of a device for processing the cutting waste from a slurry with water and at least one downstream liquid pump is formed, by means of which the sludge for separating the light fraction a separator in the form of a cyclone device is zufiihrbar. Cyclone separators work economically and are particularly well suited for the separation of different heavy fractions in the water.
    In particular, it is advantageous if a wet sieving with at least two cooperating or cooperating sieves, each of which can have a conveying means for the screenings, is formed for classifying the heavy fraction, wherein a coarse screen arranged or arranged on the loading side has a mesh width with a feed system of the heavy fraction sludge of less than 400 microns and has a discharge for a coarser grain and the fine sieve for the deposition of the residual sludge has a mesh size of 30 pm, wherein at least the sieve is exposed to clear water and has a discharge for the desired grain fraction.
    Economically, it has been found to be particularly favorable when a drying device using infrared radiation for the desired grain fraction of the screening device is arranged downstream, wherein the radiation has a frequency of substantially 0.75 pm to 15 pm.
    Above infrared radiation frequency causes a much faster and more efficient evaporation of water, because water absorbs a radiant energy with the above frequency particularly well.
    If the drying device is immediately followed by a separating device or a separator for abrasive grains and residual grains of the same grain class, improved separation efficiency is achieved.
    It may be advantageous for a particular use of recovered abrasive to be reused in water jet cutting equipment where narrow grain sizes are required for a desired cut preparation, and therefore a classifier for the abrasive grains is downstream of a separator.
    In the following, the invention will be explained in more detail by schematic schematic diagrams, which represent only one embodiment of the invention at most.
    Show it
    1 a device for the recovery of abrasives FIG. 2 a sieve device with coaxial sieve tubes FIG. 3 a sieve device with sieve conveyor belts
    To facilitate the assignment of the parts and components of the device according to the invention, the following list of reference numbers is used. S Abrasive water jet cutting unit A Drip tray 1 Cutting waste 11 Slurry device 12 Liquid pump 2 Water 3 Sludge separator 31 Sludge feed system 4 Slurry discharge 5 Wet sieve 51 Coarse sieve 51 F Coarse grain conveyor 511 Coarse grain discharge 512 Fluid spray 52 Fine sieve 52 F Conveyor for desired flow Grain fraction 521 Discharge for desired grain fraction 522 Application of fresh water 522 0 Air supply 523 Discharge for water and fine grain 524 Discharge of fine grain solids 524 W Water separator 6 Dryer 7 Separator 8 Classifier
    In Fig. 1, a device for recovering abrasive from an abrasive water jet cutting system is shown schematically.
    A water jet loaded with an abrasive cutting agent emerges from a focusing nozzle of a mixing chamber S of a plant at a speed of, for example, over 600 m / sec, cuts a workpiece which is located on a support and is collected with chips and parts from the workpiece in a collecting trough A. ,
    With water 2 and cutting waste 1, a slurry is formed in a slurry 11, which by means of a pump 12, a separator 3 for a light portion or directly fed through a feed 31 a classifier, which is designed as Nasssiebeinrichtung 5. A separator 3 for a light portion of the sludge can be designed in the form of a cyclone with a discharge 4.
    A classifying device for a grain size of a slurry in the form of a wet sieving device 5 can be configured correspondingly differently to each applicable sieving technique. It is important that a feed system 31 applies a slurry directly to a coarse screen 51, which can have conveying means for coarse grain 51 F and has a discharge for coarse grain 511.
    In the passage through at least one coarse sieve 51, the sludge without coarse grain fraction ultimately reaches a fine sieve 52, by means of which a fine fraction having a small grain diameter, together with water, can be conveyed through and discharged from the wet sieving device 5. Such a discharge can usually be done for environmental reasons via a water separator 524 W, which usually has a discharge 524 for fine grain solids.
    After a fine sieve 52, which may have conveying means 52 F in the sieve 52 for a distribution and forwarding of a desired grain fraction, via a discharge 521 an immediate introduction of the wet grains in a dryer 6. Such a drying device 6, preferably formed as an infrared radiation device with a wavelength of substantially 0.75 μιτι to 15 μιτι, causes an intense evaporation of water.
    In a downstream separating device abrasive grains and similar grains can be separated from the residual material and subsequently the abrasive grains in a classifier further divided into individual size classes.
    Fig. 2 shows schematically a Nasssiebeinrichtung 5 with coaxial screen tubes.
    A wet sieve device 4 has coaxially rotatably an inner sieve drum 51 as a coarse sieve and an outer sieve drum 52 as a fine sieve.
    Into the inner screen drum reaches a feed system 31 for a slurry.
    Both the coarse sieve 51 and the fine sieve 52 may have conveyors 52 F, 54 F for transporting a sieve insert, the coarse grain conveying means 51 for moving a coarse fraction of the slurry along an inner surface of a coarse sieve 51 for discharging coarse grain 511.
    The conveying means for a desired grain fraction 52 F for distribution of a
    Residual sludge on the inner surface of the fine screen 52 is suitable for assisting discharge of water and fine grain 523 through the fine screen 52 as well as for delivery to the desired grain fraction 521.
    A discharge of water and fine grain 523 may be followed by a water separator 524 W, by means of which the fine grain concentrated and the water can be cleaned for reuse. For an advantageous wet sieving serves a clear water 522 at least the fine screen 52, preferably at the top thereof.
    FIG. 3 schematically shows a classification in a wet sieve device with sieve conveyor belts.
    From a separator for light fractions is carried out from a feeder 31 for sludge, a loading of a Nasssiebeinrichtung 5 with movable Grobsieb 51 in ribbon form. A fluid shower 512 may assist a wet sieving of a slurry, with a coarse grain discharge 511 discharging it out of the apparatus.
    A grain fraction which passes through a coarse screen 51 with a fluid is, if appropriate after further sieve grading, finally applied to a movable fine sieve 52 in strip form, undergoes a clear water feed 522 and / or an air feed 522 0 for distribution and / or predrying of a desired grain fraction 521, which is removed after a drying system from the wire 52.
    In a separating 7 takes place a concentration of abrasive particles, wherein a size classifier can be arranged downstream.
    In a water separator 524 W, the discharge of water and fine grain 523 can be separated, the water fed to reuse, and the fine grain solids discharge 524 discharged, if desired.
    权利要求:
    Claims (12)
    [1]
    claims
    A method for recovering abrasive from cutting waste in drip pans of abrasive water jet cutting machines, wherein a separation of a desired size class of abrasive grains and the residual material is carried out, characterized in that the cutting waste slurried with water or integrated into water, optionally by a weight classification prepared, a diameter classification by wet screening is subjected and in a separation of coarse and fines a creation of a desired diameter class of the residual material, which has a substantial proportion of abrasive, done this, dried and discharged from the dry granules, the abrasive, optionally in several Size classes divided and partially or exclusively used as an abrasive cutting agent additive to the water jet in such cutting equipment.
    [2]
    2. The method according to claim 1, characterized in that the slurried cutting waste transported by pumps and a weight classification, in particular a cyclone separation is subjected, with shares with a density ρ of less than 2x103 kg / m3, preferably 3x103kg / m3, deposited and discharged ,
    [3]
    3. The method of claim 1 or 2, characterized in that the slurry is subjected to a diameter classification of the solid particles by means of a wet sieving, wherein the particle class is supplied with a diameter in the range of 30 pm to 400 pm of the recovery of abrasive material.
    [4]
    4. The method according to claim 3, characterized in that the wet sieving by means of a device with at least two sieves, wherein the slurry applied to a first sieve with a mesh size of 400 pm to 200 pm, classified and discharged solid particles with a larger diameter or be assigned to the waste, after which further classifications can be made according to the particle size and at the last wet sieving the residual sludge and the particles with a diameter of less than 30 μητι are discharged with the fluid from the device, the sludge during the screening at least one of Sieves at least partially undergoes an impingement with water and / or air and the solid fraction is discharged with abrasive grains in a desired size class from the last or the upstream sieves (will).
    [5]
    5. The method according to any one of the preceding claims, characterized in that a (s) particle fraction with abrasive grains in the desired size class is subjected to an infrared drying, which has a wavelength of the radiation of 0.75 pm to 15 pm.
    [6]
    6. The method according to any one of the preceding claims, characterized in that from the dried granules or from the dried solid particles, the abrasive grains, which optionally can be fed to a further diameter classification, are discharged.
    [7]
    7. An apparatus for recovering abrasive from cutting waste from collecting pans (A) of abrasive water jet cutting machines (S) with a means for separating a desired size class of cutting grains and the residual material, characterized in that the apparatus for processing a sludge of the cutting waste ( 1) with water, optionally with a separator for a light fraction, with a wet sieve device (5) for classifying or classifying the heavy fraction and optionally with a dryer (6) for a desired size class is formed, wherein the Nasssiebeinrichtung (5) at least one Grobsieb ( 51) for separating the portion exceeding the desired size class, and a fine sieve (52) for separating the fine fraction with water from the residual sludge and a discharge (521) of the desired size class of heavy fraction, for which heavy fraction a dryer (6) and / or a separator (7) for The abrasive component and, if appropriate, a classification device (8) for this can be arranged downstream of the separator (7).
    [8]
    8. The device according to claim 7, characterized in that a first part of a treatment of the cutting waste (1) from a slurry (11) with water (2) and at least one downstream liquid pump (12) is formed, through which the sludge to separate the Light portion of a separator in the form of a cyclone device (3) can be fed.
    [9]
    9. Apparatus according to claim 7 or 8, characterized in that for the classification of the heavy fraction a wet sieve device (5) with at least two cooperating or cooperating sieves (51, 52), each having a conveying means (51F, 52F) for the screenings, is formed, wherein a beaufschlungsseitig arranged or upstream Grobsieb (51) with a feed system (31) of the slurry with heavy fraction has a mesh size of less than 400 pm and a discharge (511) for a coarser grain and the fine sieve (52) for the deposition of Residual sludge has a mesh size of 30 pm, wherein optionally at least the fine sieve (52) with clear water (522) and / or air (522 0) is beaufschagbar and has a discharge (521) for the desired grain fraction.
    [10]
    10. Device according to one of the Anspmche 7 to 9, characterized in that a drying device (6) using infrared radiation for the desired grain fraction of the screening device (5) is arranged downstream, wherein the radiation has a wavelength of substantially 0.75 pm to 15 pm ,
    [11]
    11. The device according to one of the Anspmche 7 to10, characterized in that the drying device (6) is arranged downstream of a separating device (7) or a separator for abrasive grains and residual grains of the same grain class.
    [12]
    12.Vorrichtung according to claim 11, characterized in that the separating device (7) is followed by a classifying device (8) for the abrasive grains.
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    同族专利:
    公开号 | 公开日
    EP3115151B1|2021-09-08|
    EP3115151A1|2017-01-11|
    AT517410B1|2018-05-15|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US6805618B1|1999-03-08|2004-10-19|Zuluboy, Inc.|Water jet abrasive recycling apparatus and method|
    WO2003068405A2|2002-02-13|2003-08-21|Richel, Inc.|Granular material recovery system|
    DE2739286C3|1977-08-31|1980-11-27|Nojimagumi Co., Ltd., Hyogo |Silica sand or slag blasting abrasives and process for their manufacture|
    DE4106831C1|1991-03-04|1992-08-27|Friedbert 7519 Zaisenhausen De Doll|
    EP0742079A1|1995-04-03|1996-11-13|ecotop Gesellschaft für innovative Abfallwirtschaft mbH|Method and apparatus for the treatment of residues containing abrasives for cutting|
    DE19645142A1|1996-10-24|1998-04-30|Intrec Ges Fuer Innovative Tec|Method and device for recycling sand|
    DE19643807C1|1996-10-30|1998-02-26|Saechsische Werkzeug Und Sonde|Recovery system for abrasive media from water jet cutting machines|
    JP2010237013A|2009-03-31|2010-10-21|Sumitomo Osaka Cement Co Ltd|Screening apparatus and separation method|CN111872858B|2020-08-07|2021-04-27|芜湖市创源新材料有限公司|Machining device for maintaining cutting pressure by uniformly mixing front-mixing abrasive jet flow|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ATA50594/2015A|AT517410B1|2015-07-07|2015-07-07|Recovery of abrasives from abrasive water jet cutting machines|ATA50594/2015A| AT517410B1|2015-07-07|2015-07-07|Recovery of abrasives from abrasive water jet cutting machines|
    EP15201123.5A| EP3115151B1|2015-07-07|2015-12-18|Recovery of abrasive from abrasive - water jet - cutting installations|
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