Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B24—GRINDING; POLISHING
  • B24C—ABRASIVE OR RELATED BLASTING WITH PARTICULATE MATERIAL
  • B24C3/00—Abrasive blasting machines or devices; Plants
  • B24C3/02—Abrasive blasting machines or devices; Plants characterised by the arrangement of the component assemblies with respect to each other
  • B24C3/06—Abrasive blasting machines or devices; Plants characterised by the arrangement of the component assemblies with respect to each other movable; portable
  • B24C3/062—Abrasive blasting machines or devices; Plants characterised by the arrangement of the component assemblies with respect to each other movable; portable for vertical surfaces
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B24—GRINDING; POLISHING
  • B24C—ABRASIVE OR RELATED BLASTING WITH PARTICULATE MATERIAL
  • B24C5/00—Devices or accessories for generating abrasive blasts
  • B24C5/02—Blast guns, e.g. for generating high velocity abrasive fluid jets for cutting materials
  • B24C5/04—Nozzles therefor

Definitions

• the present invention relates to a dry micro-cleaning process, by spraying abrasive powders of very fine particle size. Method for reconciling a high cleaning speed with an exceptional finesse of stripping.
• the possibilities of application of the process of the invention are numerous and find their main applications in cases where it is necessary to quickly decope with absolute smoothness of various fouling and fouling on valuable supports, on delicate supports or on fragile supports.
• ACEMENT facade underline the fact that the cleaning of new pollution by washing, allows pollutants to penetrate either by capillarity, or by more or less defective joints, or by points of surfaces already weakened, and therefore participates in the acceleration of alteration processes.
• Water which acts here as a chemical reaction agent and as a vehicle for harmful salts, is less and less suitable for cleaning up the pollution stuck on the surfaces of dressed stone facades, especially if they are more fragile (desquamation, alveolisatio ⁇ , etc ).
• the principle of sandblasting therefore consists of spraying dry, under high air pressure (7 to 8.10 Pa on average), abrasives or sands, more or less coarse or more or less fine, through a sandblasting nozzle of 6 or 8 millimeters section, sandblasting nozzle which is manually operated by a sandblaster.
• REPLACEMENT E pressures (6, 7, 8 or even 10 or even 12 10 Pa of pressure), to use so-called pickling jets (sandblasting nozzle of 6, 8 millimeters and even more) and to project very large volumes of air important, sometimes going up to 12,000 liters of air per minute, which causes even with very fine abrasive particles, a considerable abrasive attack, which roughs up all the areas of delicate surfaces C sculptures, joints, cullet of hardness not heterogeneous, etc.), not to mention the entire facade, which can be literally abraded, even if the stones are hard, nor the considerable dust emitted, which. requires covering the workspace in a complicated and therefore costly manner.
• the small air stream thus obtained is handled like a pen by the restorer who follows with infinite patience, millimeter by millimeter, at 2 or 3 hundred meters working distance, the reliefs of the small area he is in the process of pickle.
• this sandblasting jet is very stripping mainly at its center of impact, and therefore , we understand that by wanting to lower as much as possible, as micro-sandblasting all the projection parameters (air flow, projection pressure, abrasive particle size, nozzle section), this center of impact will be mathematically less and less stripper and abrasive, and that the maximum reduction of all the parameters of air flow and abrasive flow will make work easier, by limiting as much as possible the emission of dust.
• micro-pickling and dry micro-cleaning process A process allowing very quickly and even very delicate and fragile substrates to be pickled, as are stone supports.
• the method of the present invention makes it possible to carry out an extremely rapid pickling work, while guaranteeing work of excellent quality, and this on all types of soil and on all types of supports.
• the method of the present invention guarantees a complete absence of abrasion on all the cleaned supports, even if these have in places delicate and more or less fragile areas or more simply of heterogeneous surface hardness (masonry joints, flaking stones , heterogeneous cullet, etc.).
• the method of the present invention by the different possible combinations, allows spraying work without nuisance of dust.
• the method of the invention starts from the principle that the projection parameters should not be reduced, since this reduction is done at the expense of speed and action pickling, but it is necessary to maintain this speed and this quality of pickling multidiver the jet in a multi ⁇ study or in multiple fine micro-jets, and to train these multiple fine micro-jets oriented multidirectionally in very fast automatic movement.
• a jet of 8 millimeters of nozzle section perhaps multidivisible either in 64 nozzles of 1 millimeter, or in 44 nozzles of 1.2 millimeters, or in 28 nozzles of 1.5 millimeters, or in 12 nozzles 2.5 millimeters, etc ...
• the abrasive projection nozzles are very fine, they are between 1 and 2.5 millimeters (but which can go in principle with the method of the invention, from 400 micrometers to 4 millimeters in section.)
• These very fine projection nozzles require using only abrasives of very fine particle size (80 to .100 micrometers). These very fine abrasives sprayed by very fine nozzles, have practically no specific kinetic energy, they can only move at high speed, or at a cleaning impact speed if they are transported inside a jet. or a compressed air stream. This jet or this compressed air stream thus serves as a projection guide for very fine particles. Thus the absence of kinetic energy of these very fine particles forces them to remain stored in the compressed air nets, and to strictly comply with the characteristics of very fast displacements of these fine air nets.
• REPLACEMENT SOCKET micro-abrasive , ultra-fast multidimensional micro-film impact thus having only the time and the force of impact necessary, to release at any speed, superficially, but efficient and very fast, only the particles to grip not cemented together, as are the particles constituting the cut stones
• the multiplicity of nozzles, spaced over a certain surface makes it possible, by orienting them in a multidirectional manner, to have a multitude of different attack angles, allowing with the relentless mechanical movement of micro-jets to be able to clean all the constituent points of a relief, and without having to insist in all directions and without having, as in traditional unidirectional fixed jet techniques, to rotate the nozzle in all directions, and to insistently follow (abrasive ⁇ , all the contours of reliefs of the surface to be stripped.
• the method of the present invention is a method which consists in projecting towards a support to be cleaned and pickled, a micro-abrasive mist obtained by the very rapid and continuous movement of multiple fine threads of compressed air, charged with abrasive particles with very low kinetic energy, and to move this micro-abrasive mist obtained, all along the support to be cleaned.
• the projection device 21 is equipped with multiple nozzles 6 for the projection of abrasives, a number which is around thirty on average (but which can exceed one hundred in certain cases.
• These nozzles 6 for blasting abrasives are nozzles of very fine section, mainly simulated section around 1 to 2.5 millimeters (but which can in principle go from the method of the invention from 400 micrometers to 4 millimeters)
• the abrasives projected by these multiple fine nozzles 6 are abrasives of very fine particle size located around 80 to 100 micrometers (but which can range from 0 to 200 micrometers). The absence of kinetic energy of these very fine particles enables them, while remaining in the fine threads of compressed air, to be able to comply with the very rapid displacement characteristics of these fine threads of air. But these abrasives of very fine particle size, to have an effective pickling action, are of very high hardness (grain or micro-ball of glass, corundum etc.)
• the projection device 21 is a projection wheel 10.
• This projection wheel 10 is a nozzle holder.
• This projection wheel 10 covers a large distribution cone 4 in the form of a funnel.
• the funnel or cone 4 of distribution, the wheel 10 are in P.T.F.E (teflon) or ceramic.
• the nozzles 6 are made of ceramic.
• each nozzle 6 has a funnel shape 7. This cone shape 7 or funnel is necessary in order to allow an easy flow and fluid from the abrasives projected, due to the very great narrowness of each duct 8 of nozzle 6.
• the formation of the micro-abrasive mist is obtained by the very rapid displacement of the nozzles 6.
• the wheel 10 nozzle carrier 6 is driven in automatic mechanical displacement.
• REPLACEMENT ISLAND This effect may be accentuated by other automatic mechanical movements, in particular by the pivoting of the wheel 10 on itself in an arc of a circle on the left, then in an arc of a circle on the right, then in an arc of a circle towards the up and down. (mechanical and automatic pivoting around a support) All mechanical movements used to increase the pickling speed of micro-jets.
• the cleaning process of the present invention for the purpose of projecting under compressed air, no longer a single concentrated jet and very stripping, as is a fixed unidirectional jet (8 millimeter nozzle), but to use, to avoid the impact of abrasion, a multitude or multiple fine nozzles 6 multidirectio ⁇ nels (of section ranging from 400 micrometers to 4 millimeters), and to project through these fine nozzles 6 only abrasives of very fine particle size, particle size located mainly between 80 and 120 micrometers, and to cause, to avoid the impact time and to significantly increase the pickling speed, these fine nozzles 6 in mechanical displacement at high speed, thus creating a mist of jet tips with incessant and very fast multidirectional attack movement.
• the process of the present invention of spraying fine abrasives under compressed air causes more or less dust, although the process, by its special features (very fine nozzles 6) consumes 2 to 3 times less abrasive for the same efficiency, and that each fine air stream is adjusted, to project since ironing multiple times on the same points, a minimum of abrasive for a large volume of air.
• the method of the invention uses compressed air from a compre ⁇ sseur, and performs the air-abrasive mixture through a sandblaster. In the process of the invention, it is particularly advantageous not to use a sandblaster.
• the compressed air coming from the compressor is sent directly and alone to the multi-nozzle projection device.
• the air-compressed-abrasive mixture being made inside the projection apparatus 21 just before the nozzle outlet 6.
• FIG. 1 is a schematic view of the projection face of a wheel equipped with 42 abrasive projection nozzles.
• FIG. 2 is. a schematic view of the projection face of a wheel fitted with 132 abrasive projection nozzles
• FIG. 3 is a schematic view of a projection wheel equipped with abrasive projection nozzles, and projection jets of fine steam jets.
• FIG. 4 is a schematic view of the projection apparatus 21 mounted on a positioning and support arm.
• FIG. 5 is a schematic sectional view of the mechanical projection wheel equipped with abrasive projection nozzles.
• FIG. 6 is a block diagram for feeding the water atomization nozzles
• FIG. 7 is a block diagram of a projection device equipped with an air-abrasive mixing system inside the device, by suction of the abrasive particles just before their projection.
• the installation for implementing the method of the invention includes a projection device or projection wheel, comprising, in the direction of movement of the abrasive particles, a tube 2 for cylindrical supply of the air-abrasive particle mixture emerging on a wide flare 4 in the form of a funnel, this flare 4 communicating by means of cones 7 of entry with the said nozzles 6 for blasting abrasives, the direction of each of the said nozzles 6 forming an acute angle with the longitudinal axis of said supply tube 2.
• This inclination of different angle on each nozzle 6, allows to obtain a multitude of different projection angles, giving a projection by attack of multidirectional micro-jets.
• the projection device or wheel 21 is equipped with a multitude or multiple fine nozzles 6 for projecting abrasives, which are positioned and spaced on a projection disc 15. The positioning is done according to drawing shapes
• This projection wheel 10 is equipped with means and motorized means allowing its mechanical drive in rotation at very high speed (0 to 4000 revolutions per minute).
• This projection wheel 10 is equipped with means and motorized means, allowing it to pivot in mechanical and automatic strokes on itself in an arc of a circle on the left then in an arc of a circle on the right.
• This projection wheel 10 is equipped with means and motorized means allowing it to pivot in mechanical and automatic strokes on itself in an arc of a circle upwards then downwards.
• This projection wheel 10 is equipped with means making it possible to automatically modify all of the projection parameters (on, off, mechanical speed variator, flow rate, pressure, air-abrasive metering, etc.).
• This wheel 10 or projection device is equipped with a distribution and projection system of the air-abrasive mixture.
• This system includes:
• the whole of this tube 2 is rotary and is mounted by a set of double-sealed bearings 3.
• a central bore 4 forming a large flare in the form of a funnel, making it possible to supply all of the nozzles 6 for spraying abrasives through cones 4 for distribution and distribution and thus to divide the central jet into a multitude
• the wheel 10 for nozzle holders 6 is made of ceramic, it is pierced with a multitude or multiple multidirectional fine orifices forming the nozzles 6 for projecting fine abrasives.
• Each nozzle 6 of the wheel 10 comprises: a very large cone 7 for the inlet of the nozzle, in the form of a funnel, by virtue of the multi-division of the jet into very fine jets, and by the narrowness of the conduits obtained, a fluid and easy flow of particles. .A duct for accelerating air and abrasive particles.
• An ejection duct 9 whose general direction varies from a circular shape to an oblong shape at its outlet opening on the projection face 15 of the particles.
• this projection wheel 10 is mounted in a completely sealed casing 11.
• the rotational drive of mechanical parts in a medium of very fine abrasives require a specific manufacturing configuration and a really specific etan ⁇ compared to the fineness of these very fine abrasives.
• the device is made completely sealed by: - a recess 26 of the fixed part in the movable part and whose rotation guide is sealed by rotary seals 5 of the lip seal type, as well as at the level of the rotation guide of this feed cone 4 relative to the casing 11 fixed by bearings 3 double sealing.
• the sealing of the rear cover 18 is ensured by a flat seal.
• the configuration of the interior of the projection apparatus 21 is modified by:
• This central duct 19 for supplying the abrasive (by suction) is fixed relative to the air supply cone, and it is centered and fixed by fixing lugs connected to the rotary tube 2 and to the distribution cone 4 .
• This duct is therefore rotated simultaneously with the tube 2 and the dispensing cone 4, and therefore comprises a rotary seal which is sealed at its junction with the abrasive supply pipe.
• the projection of abrasive in the form of a mist produced by this projection wheel causes significant dust, so parallel to the projection of fine air streams loaded with very fine abrasive particles, it is advantageous to have on the projection wheel 10 'abrasives, a number of very fine nozzles 14 for spraying atomized water or very fine nozzles for spraying very fine jets of vapor 17.
• the use of fine air streams and abrasives, the projection nozzles 6 of which are arranged on the altogether large surface which constitutes the surface 15 of the projection wheel 10, makes it possible to dilute the compressed air streams and abrasives in a mist of atomized water particles.
• This projection wheel 10 also makes it possible, by the rotary phenomenon, to bring about a homogenization of the water mist which is constantly reformed in the voids of projection of abrasives.
• the very fine particles of atomized water projected into the projection space are projected in the form of a spray of very very fine particles of atomized water.
• the particle size of these atomized water particles being as fine as possible.
• this projection wheel 10 is equipped with nozzles 14 for spraying atomized water arranged on the projection face 15.
• the water is brought into the projection apparatus by means of a fixed yau 22 centered in the cone for supplying the air-abrasive mixture.
• This conduit 22 is fixed by fixing lugs 13 connected to the rotary mbe 2 and to the distribution cone 4.
• This conduit 22 is rotated simultaneously with the mbe 2 and the distribution cone 4 and therefore requires a sealed rotary joint with the myau 22 for supplying water under pressure.
• This conduit 22 branches into a series of small channels 25 leading the water to the atomization nozzles 14.
• the atomized water spray jets from the pneumatic atomization nozzles 14 are adjusted to send atomized water clouds and these nozzle jets 14 are preferably directed in parallel to the abrasive jets.
• the nozzles 14 for spraying atomized water can be replaced by nozzles for spraying very fine jets of vapor 17.
• This wheel 10 for projecting fine abrasives may have a diameter of a few centimeters for the smallest, to a diameter of several tens of centimeters for the largest. This diameter of the projection wheel 10 being proportional to the number of nozzles equipping it and to the more or less large spacing given to it.
• the process of the invention is a micro-pickling and micro-cleaning process combining speed and very high quality.
• This high speed superficial touch impact process is practically applicable on all types of mainly delicate and very fragile supports (old stones, altered and flaky stones, antiquity, old furniture, plaster, etc.), and which allows clean all types of dirt and deposits (oil, various pollution, tags,
• This projection device 21 is mounted on a support and positioning arm 16. It is equipped with handles 23 for movement and guidance.
• the projection wheel 10 is equipped with forty eight nozzles 6 for projecting fine abrasives. The section of these nozzles is 2 millimeters. These nozzles are made of ceramic.
• the assembly includes - in the direction of movement of the particles a mbe 2 for supplying the air-abrasive particle mixture opening onto a large flare in the form of a funnel 4, this flare communicating by means of cones 7 of inlets with said nozzles 6 for blasting abrasives, the direction of each of said nozzles forming an acute angle with the longitudinal axis of said feed line 2.
• the feed cone 4 which conveys the abrasive into the wheel 10 nozzle holder 6 is made of PTRE (teflon), it is guided in rotation by a sealed needle socket 24 + a sealed ball bearing 3, housed in a casing 11 itself sealed.
• the rotation is ensured by a pneumatic motor 12.
• the tightness of the guide in rotation with the air + abrasive supply pipe is ensured by a rotary seal with double etan ⁇ chéitè.
• the device is equipped with a set of 24 nozzles 14 of atomized air-water projection.
• the compressed air supply is made by a compressor, the air + abrasive mixture being made via a sandblaster.
• the air-water supply being made by means of a water booster compressor.

Landscapes

• Mechanical Engineering (AREA)
• Engineering & Computer Science (AREA)
• Cleaning In General (AREA)
• Detergent Compositions (AREA)
• Nozzles (AREA)
• Cleaning Or Drying Semiconductors (AREA)
• Digital Transmission Methods That Use Modulated Carrier Waves (AREA)
• Container, Conveyance, Adherence, Positioning, Of Wafer (AREA)
• Cleaning By Liquid Or Steam (AREA)
• Curing Cements, Concrete, And Artificial Stone (AREA)
• Transition And Organic Metals Composition Catalysts For Addition Polymerization (AREA)
• Electrical Discharge Machining, Electrochemical Machining, And Combined Machining (AREA)
• Encapsulation Of And Coatings For Semiconductor Or Solid State Devices (AREA)
• Cleaning Implements For Floors, Carpets, Furniture, Walls, And The Like (AREA)
• Cosmetics (AREA)
• Electronic Switches (AREA)

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• 1992
  • 1992-12-11 US US08/244,787 patent/US5558562A/en not_active Expired - Fee Related
  • 1992-12-11 BR BR9206919A patent/BR9206919A/pt not_active IP Right Cessation
  • 1992-12-11 ES ES93902324T patent/ES2094523T3/es not_active Expired - Lifetime
  • 1992-12-11 JP JP51067393A patent/JP3372543B2/ja not_active Expired - Fee Related
  • 1992-12-11 DE DE69213959T patent/DE69213959T2/de not_active Expired - Fee Related
  • 1992-12-11 CZ CZ941423A patent/CZ285789B6/cs not_active IP Right Cessation
  • 1992-12-11 AU AU33567/93A patent/AU668128B2/en not_active Ceased
  • 1992-12-11 DK DK93902324.8T patent/DK0616564T3/da active
  • 1992-12-11 EP EP93902324A patent/EP0616564B1/de not_active Expired - Lifetime
  • 1992-12-11 CA CA002125187A patent/CA2125187C/fr not_active Expired - Fee Related
  • 1992-12-11 AT AT93902324T patent/ATE142925T1/de not_active IP Right Cessation
  • 1992-12-11 WO PCT/FR1992/001177 patent/WO1993011908A1/fr not_active Ceased
• 1994
  • 1994-06-10 NO NO942164A patent/NO301366B1/no unknown
  • 1994-06-10 FI FI942741A patent/FI101521B1/fi not_active IP Right Cessation
• 1996
  • 1996-10-24 GR GR960402818T patent/GR3021463T3/el unknown

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