GB1592104A - Creación de Inventos y Patentes con Inteligencia Artificial

GB1592104A – Apparatus for treating surfaces with particulate abrasive
– Google Patents

GB1592104A – Apparatus for treating surfaces with particulate abrasive
– Google Patents
Apparatus for treating surfaces with particulate abrasive

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Publication number
GB1592104A

GB1592104A
GB52779/77A
GB5277977A
GB1592104A
GB 1592104 A
GB1592104 A
GB 1592104A
GB 52779/77 A
GB52779/77 A
GB 52779/77A
GB 5277977 A
GB5277977 A
GB 5277977A
GB 1592104 A
GB1592104 A
GB 1592104A
Authority
GB
United Kingdom
Prior art keywords
abrasive
collection bin
enclosure
wheel
chute
Prior art date
1976-12-20
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)

Expired

Application number
GB52779/77A
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

Individual

Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
1976-12-20
Filing date
1977-12-19
Publication date
1981-07-01

1977-12-19
Application filed by Individual
filed
Critical
Individual

1981-07-01
Publication of GB1592104A
publication
Critical
patent/GB1592104A/en

Status
Expired
legal-status
Critical
Current

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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

B24C3/065—Abrasive blasting machines or devices; Plants characterised by the arrangement of the component assemblies with respect to each other movable; portable with suction means for the abrasive and the waste material

B24C3/067—Self-contained units for floorings

E—FIXED CONSTRUCTIONS

E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES

E01C—CONSTRUCTION OF, OR SURFACES FOR, ROADS, SPORTS GROUNDS, OR THE LIKE; MACHINES OR AUXILIARY TOOLS FOR CONSTRUCTION OR REPAIR

E01C23/00—Auxiliary devices or arrangements for constructing, repairing, reconditioning, or taking-up road or like surfaces

E01C23/06—Devices or arrangements for working the finished surface; Devices for repairing or reconditioning the surface of damaged paving; Recycling in place or on the road

E01C23/08—Devices or arrangements for working the finished surface; Devices for repairing or reconditioning the surface of damaged paving; Recycling in place or on the road for roughening or patterning; for removing the surface down to a predetermined depth high spots or material bonded to the surface, e.g. markings; for maintaining earth roads, clay courts or like surfaces by means of surface working tools, e.g. scarifiers, levelling blades

E—FIXED CONSTRUCTIONS

E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES

E01H—STREET CLEANING; CLEANING OF PERMANENT WAYS; CLEANING BEACHES; DISPERSING OR PREVENTING FOG IN GENERAL CLEANING STREET OR RAILWAY FURNITURE OR TUNNEL WALLS

E01H1/00—Removing undesirable matter from roads or like surfaces, with or without moistening of the surface

E01H1/08—Pneumatically dislodging or taking-up undesirable matter or small objects; Drying by heat only or by streams of gas; Cleaning by projecting abrasive particles

E—FIXED CONSTRUCTIONS

E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES

E01C—CONSTRUCTION OF, OR SURFACES FOR, ROADS, SPORTS GROUNDS, OR THE LIKE; MACHINES OR AUXILIARY TOOLS FOR CONSTRUCTION OR REPAIR

E01C2301/00—Machine characteristics, parts or accessories not otherwise provided for

E01C2301/50—Methods or devices for preventing dust by spraying or sucking

Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS

Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE

Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS

Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products

Y02P70/10—Greenhouse gas [GHG] capture, material saving, heat recovery or other energy efficient measures, e.g. motor control, characterised by manufacturing processes, e.g. for rolling metal or metal working

Description

PATENT SPECIFICATION
( 11) 1 592 104 ( 21) Application No 52779/77 ( 22) Filed 19 D-c 1977 ( 19) ( 31) Convention Application No 752787 ( 32) Filed 20 Dec 1976 in / -( 33) United States of America (US) ( 44) Complete Specification published 1 July 1981 ( 51) INT CL ‘ B 24 C 3/06 3/14 9/00 ( 52) Index at acceptance B 3 D 8 A 1 8 A 3 ( 72) Inventor JOHN JARVIS SHELTON ( 54) APPARATUS FOR TREATING SURFACES WITH PARTICULATE ABRASIVE ( 71) I, ROBERT Tivis NELSON, a citizen of the United States of America, of P.O Box 763, 715 East Reno, Oklahoma City, Oklahoma 73101, United States of America, do hereby declare the invention, for which I pray that a patent may be granted to me, and the method by which it is to be performed, to be particularly described in and by the following statement: This invention relates to mobile surface treating apparatus in which abrasive is impacted against the surface to be treated, removed from the surface to prevent substantial accumulation of spent abrasive on the surface, and recycled for subsequent use in the apparatus.
The cleaning of large surfaces, e g, metal, concrete and the like, may be periodically desired, for instance, to prepare the surface for painting In the past, air blasting with crushed slag or sand has been employed to clean the surface; however, air blasting requires compressed air which is often expensive and often contains moisture such that, for instance, reoxidation of a treated metal surface may be enhanced prior to the application of protective coatings Additionally, air blasting generally requires a large labor force Moreover, the abrasives commonly employed in air blasting such as crushed slag are subject to considerable disintegration on impact with the surface being treated, and thus are generally not recycled.
Further labor is required to effect clean-up of spent abrasive in the area of the surface treating operation Also, air blasting can be an environmental hazard due to the excessive amounts of dust created, and thus, protective equipment must often be provided to insure the safety of personnel in the area of the surface treating operation.
As an alternative, it has been proposed to employ centrifugal blasting wheels to propel particulate abrasive at high velocity against the surface being treated and to recover the abrasive for reuse Apparatus employing centrifugal blasting wheels and means for recovery of spent abrasives are disclosed, for instance, in U S Pat No.
3,691,689 In accordance with that patent, spent abrasive is swept into a collection bin by a rotating broom positioned behind the blast area Such apparatus have significantly decreased the operating costs for treating surfaces and, since the blast area can be enclosed, the escape of dust from the system can be minimised, thereby increasing the safety of personnel in the area of treatment as compared to conventional air blasting operations.
Other proposals for surface treating apparatus have included the use of the kinetic energy of the abrasive to rebound abrasive from the surface being treated to a collection hopper for gravity feed to a centrifugal throwing wheel For instance, in U.S Patent No 3,977,128 to James R Goff, there is disclosed an abrasive throwing machine wherein abrasive is projected by a centrifugal throwing wheel to impact the surface being treated at an inclined angle and has a predetermined angle of rebound into a rebound path In order to direct the rebounding abrasive to a storage hopper which is positioned above the centrifugal throwing wheel, rotary brushes are employed Moreover, the blast pattern is concentrated in a relatively narrow width, i.e about 18 inches wide from a wheel having a diameter of 12 inches, such that the amount of abrasive striking on the sides of the enclosure is relatively small.
In accordance with my invention, mobile surface treating apparatus are provided which seek to enhance recovery of spent abrasive.
According to this invention, I provide an apparatus for the treatment of a surface with particulate abrasive which is projected at high velocity against said surface, comprising an enclosure having an opening therein adapted to confront said surface, wherein said enclosure comprises a delivery section having a projecting means therein for propelling abrasive through the opening CO 1,592,104 to contact the surface; a first collection bin in communication with said projecting means for supplying abrasive thereto; a second collection bin in communication with said enclosure to receive abrasive passing from said opening; said second collection bin being below said first collection bin and adapted to receive abrasive directed thereto due to kinetic energy of said abrasive rebounded from said surface; a chute being positioned to convey abrasive rebounded from said opening, said chute being adapted to receive abrasive rebounded from said surface and direct rebounded abrasive towards said second collection bin; and recirculating means in communication with said second collection bin to lift abrasive from said second collection bin to said first collection bin.
Thus, the device of this invention effectively utilises the kinetic energy of rebounding particles in recovering the particles and returning them to a storage hopper for feeding to the projecting means.
The walls of the chute are oriented such that rebounding abrasive which strikes them is directed towards the second collection bin.
In one aspect of my invention, the chute also serves to attenuate the kinetic energy of the abrasive particles such that they do not enter the second collection bin with such force that they rebound out of the collection bin In order to provide the desired attenuation of the kinetic energy of the abrasive, the chute is provided with an attenuation zone having reduced cross-sectional area such that abrasive strikes the walls of the zone thereby decreasing its kinetic energy.
Also, the attenuation zone can be provided with a restriction, which is essentially impermeable to the abrasive, over which the abrasive must pass to enter the second collection bin and thus additional kinetic energy attenuation surfaces are provided.
The chute is preferably a generally inverted U-shape with an essentially abrasive-impermeable restriction separating an upwardly directed concentrating zone from the attenuation zone The attenuation zone is generally downwardly directed and is terminated with a discharge opening for discharging abrasive to the second collection bin The chute can be relatively small and yet direct abrasive to the collection bin at relatively low kinetic energy levels The ability to employ a relatively small chute not only permits the recovery of increased amounts of abrasive without supplemental means to assist in motivating abrasive to the collection bin, but also reduces the weight of the apparatus which is an essential consideration for apparatus for treating, for instance, tops of oil storage tanks.
In another aspect of my invention, the apparatus can treat surfaces adjacent to obstructions to the apparatus while still employing the rebounding of abrasive for recovery and a wide blast pattern In accordance with this aspect of the invention, a centrifugal blasting wheel is oriented such that the leading edge of the blast pattern is adjacent to one side of the opening, and the abrasive striking the leading edge of the blast pattern is projected in a plane parallel to the axis of the blasting wheel such that the side wall of the enclosure need not extend beyond the opening adjacent to the leading edge of the blast pattern It is thus apparent that undue striking of the side wall with rebounding abrasive can be abated which striking may unduly attenuate the kinetic energy of the abrasive and hinder its recovery by rebounding.
In a further aspect of my invention, the enclosure is provided with a sealing means 85 surrounding the periphery of the opening and adapted to restrain the undesired escape of abrasive The sealing means is advantageously adapted to direct abrasive which has not rebounded into the second collection 90 bin to a rotary broom behind the opening which picks up and directs the abrasive to the collection bin Thus, additional abrasive can be recovered within the apparatus for recycle Due to the attenuation of the re 95 bounding abrasive, the abrasive can be delivered to a collection bin which also can serve as a collection bin for abrasive picked up by the rotary broom The bounding action of the abrasive which passes to 100 the broom is desirably attenuated such that the abrasive contacts the broom at a point where it can be directed into the collection bin This attenuation may be provided by, for instance, the resilient seal or other 105 essentially abrasive impervious restriction between the opening and the broom.
In another aspect of my invention, the apparatus are substantially closed systems allowing little grit or dust to reach the 110 atmosphere The apparatus are preferably provided with means to separate the dust and debris from the spent abrasive employing air circulation patterns Air circulation means preferably channels the flow of air 115 through the chute, thus assisting in directing rebounding abrasive into the collection bin, and increasing the recovery of spent abrasive The air flow can also serve to remove dust and debris from the abrasive 120 passed to the collection by by being drawn through the collection bin The air can be passed to a plenum which reduces the velocity of the air to separate entrained abrasive The air laden with dust and debris 125 can be passed to the atmosphere or a dust collection system The means for separating waste materials from the abrasive can conveniently be positioned in the apparatus so 1,592,104 as to not unduly restrict the mobility of the apparatus, and can be relatively compact.
These and other aspects and advantages of the present invention are more apparent in the following detail description, particularly when considered in conjunction with the accompanying drawings in which like parts are designated by like reference numerals In the drawings:Figure 1 is a schematic sectional, side elevation view of a mobile, surface treating apparatus in accordance with the present invention; Figure 2 is a schematic sectional, side elevation view from the obverse side of the enclosure of the apparatus of Figure 1; Figure 3 is a schematic sectional front elevation view along line A-A of Figure 2 further illustrating the enclosure of the apparatus of Figure 1; Figure 4 is a schematic cross-sectional view along line B-B of Figure 1 illustrating the air circulation system of the apparatus; Figure 5 is a schematic front elevation view of the apparatus of Figure 1; and Figure 6 is a schematic bottom view of the apparatus of Figure 1 illustrating a blast zone, a sealing means, and a rotary broom.
With reference to the drawings, an abrasive blasting apparatus generally designated by the numeral 10 is adapted for treating surfaces, preferably generally flat and substantially horizontal surfaces The apparatus comprises frame 12 and enclosure 14 suspended therefrom having opening 16 therein which is adapted to confront surface 18 which is treated with particulate abrasive.
Enclosure 14 is illustrated as having two sections, delivery section 20 and chute section 22 Enclosure 14 can be fabricated from light-weight material, such as thingauged steel or aluminum Portions of the enclosure coming in contact with the abrasive may be lined with a replaceable, abrasion-resistant material, e g steel plate.
Resilient seal 24 is provided around the periphery of opening 16 of enclosure 14 to substantially restrain the escape of abrasive from the’ enclosure The resilient seal is preferably comprised of a material that is sufficiently flexible to pass over or around minor obstructions present on the surface being treated The rear portion of the seal permits spent abrasive material to pass under its edge when the apparatus moves across the surface being treated for recovery by a following rotary broom Elastomeric materials for the purpose are well-known in the art such as natural rubbers, synthetic rubbers, and other elastomeric materials, including polyurethane elastomers, butadiene rubbers and the like As shown in Figure 6, side resilient seals 23 (left side) and 25 (right side) are also provided.
-65 Centrifugal blasting wheel 26 is provided within enclosure 14 for projecting a stream of particulate abrasive 28 to surface 18 being treated and is driven by high-speed electric motor 30 Frequently conventional, commercially-available centrifugal blasting 70 wheels are operated at about 1000 to 4000 rpm Other projecting means such as those utilizing compressed gas streams rather than centrifugal force might alternatively be used but are generally less preferred Centrifugal 75 blastting wheel 26 is illustrated as rotating in a plane which is at an angle to the surface being treated, and thus the abrasive strikes the surface at an angle in blast pattern 32.
The blast pattern is generally oblong with 80 a major dimension and a minor dimension.
When the abrasive impacts the surface being treated at an angle, e g, an acute angle along the major dimension of the pattern, the abrasive has a motion component paral 85 lel to the plane of the surface being treated which assists in lifting debris from the surface The orientation of centrifugal blasting wheel is preferably such that abrasive strikes the surface at an angle of incidence counter 90 to the forward movement of the apparatus; however, alternatively, the orientation of the wheel may be such that abrasive has an angle of incidence normal to the surface or coincident with the forward movement of 95 the apparatus Frequently, the abrasive is projected at an acute angle designated by «a» in the drawing of about 300 to 900, preferably about 450 to 750, relative to the surface The abrasive, due to the high 100 speeds at which it is propelled to the surface, will rebound from the surface The angle to the surface at which the abrasive rebounds, i.e, the angle of reflectance, will depend upon the angle of incidence of the abrasive, 105 the configuration of the abrasive and surface being treated at the point of impact.
the action of the abrasive on the surface and the like Generally, the angle of reflectance is diffuse as depicted by stream 110 34 since the abrasive and surface being treated frequently have irregular surfaces.
Often a majority, e g, at least about 60 or weight percent, of the abrasive rebounds within about 15 or 20 of the theoretical 115 angle of reflection An angle of incidence which is not normal to the surface assists in the recovery of abrasive by rebounding since the spent abrasive can generally be directed towards collection means without 120 significantly interfering with abrasive being propelled to the surface.
The projected abrasive has substantial amounts of kinetic energy and some of this energy is depleted due to the action of the 125 abrasive on the surface being treated and by impact with other abrasive and the walls of the enclosure Hence, the kinetic energy of rebounding abrasive may widely vary with some particles having little, if any, kinetic 130 1,592,104 energy and others having substantial kinetic energy The apparatus of my invention is provided with chute 22 for recovering the abrasive through its rebounding action by directing the abrasive to collection bin 36 and for reducing the kinetic energy of the high kinetic energy abrasive partcles so that abrasive does not ricochet from the collection bin Chute 22 is adapted to direct the diffuse stream of rebounding abrasive to the collection bin and is provided with concentration section 38 and attenuation section The concentration section comprises side walls 42, side chute wall 44, upper walls 46 and 48, and rear wall 50 off of which abrasive can ricochet and at least a portion will be directed to the attenuation section for passage to the collection bin The walls are depicted as having curvilinear portions which are adapted to provide a desired reflectance angle to direct abrasive impinging thereon to the attenuation section Abrasive may strike one or more of the walls of concentration section 38 prior to being directed to the attenuation section, and this impact may assist in reducing the kinetic energy of the abrasive In order to collect a substantial portion of ricocheting stream 34, the entrance area of concentration section 38 should have a sufficiently large cross-sectional area to encompass the blast pattern and extend as close to the surface being treated as is practical.
Chute 22 is depicted as having a generally inverted U-shape with the concentration section 38 forming the upwardly directed portion and the attenuation section 40 being downwardly directed The attenuation section is illustrated as following the concen:40 trating zone in the direction of the angle of reflectance of the abrasive Thus, the general lateral movement of the abrasive need not be altered in directing the abrasive to the collection bin The attenuation section serves to -further reduce the kinetic energy and thus the momentum of the abrasive The attenuation section is depicted as having walls 52 which are tapered inward to discharge opening 54 Walls 52 are oriented at sufficiently steep angles such that abrasive which impacts against them does not generally tend to ricochet out of the attenuation section Baffle 56 is provided in attenuation section 40 to minimize the amount of abrasive ricocheting from the attenuation section and to reduce the kinetic energy of the abrasive prior to being passed to collection bin 36 As shown in the drawings, the ‘baffle is in the configuration of an apex having relatively steep sides depicted at angle «b» which often is about 100 to 30 .
Thus, abrasive can ricochet between the baffle and the walls ‘to attenuate the kinetic energy As ‘shown, the baffle -terminates :65 before reaching the bottom of attenuation section 40 and the baffle is directly above and has a width greater than discharge opening 54 to retard direct flow of high kinetic energy particles to the collection bin.
Thus, relatively low kinetic energy abrasive 70 can be delivered to the collection bin.
The stream of impacting abrasive 28 from centrifugal blastig wheel 26 is a fanshaped stream and the blast pattern may have a width of 30 inches or more As a 75 result, abrasive ricochets to the sides of the blast zone as well as toward the rear Generally, following edge 58 of the blast pattern from a centrifugal blasting wheel is at a greater angle to vertical than the leading ’80 edge 60 Thus, leading edge 60 of the blast pattern may be adjacent to the side of the apparatus thereby permitting surfaces close to obstructions or edges to be treated, and the rebounding abrasive need not unduly 85 impact against the adjacent side wall 42.
The abrasive striking the leading edge of the blast pattern advantageously has an angle of incidence in a plane substantially parallel to axis 27 of the centrifugal blasting wheel ’90 to retard lateral rebounding of the abrasive at the leading edge Conveniently, the centrifugal throwing wheel can be offset towards the leading edge side to facilitate providing a desired incidence angle at the leading edge 95 of the blast pattern The abrasive striking the leading edge of the blast pattern is propelled by the wheel in a plane substantially perpendicular to the surface and parallel to axis 27 The abrasive impacting toward the 100 following edge of the blast pattern, due to its greater angle of incidence, will tend to be reflected at a greater angle The abrasive at the following edge is therefore propelled by the wheel in a plane inclined to the surface 105 being treated and parallel to axis 27 As depicted in Figures 2 and 3, enclosure 14 is extended laterally on the side adjacent the following edge of the blast pattern such that abrasive does not unduly contact the 110 side wall of chute 22, i e, a wall substantially parallel to the minor dimension of the blast pattern at the following edge, and does not lose excessive kinetic energy such that recovery of abrasive is deleteriously affected 115 Recovery of this laterally rebounding abrasive is enhanced by a side chute comprising side wall 44 which is adapted to direct abrasive impinging thereon towards the collection bin Laterally beyond side wall 4 is 120 inclined chute 62 which directs abrasive into attenuation section 40 and collection bin 36 Opening 16 can be of any suitable configuration, and because of the generally oblong blast pattern,’the opening is often of 125 an oval or rectangular configuration.
Abrasive is passed from chute 22 to collection bin 36 for elevation for recycle ‘to the centrifugal blasting wheel by elevator 64.
Elevator 164 conveys the spent abrasive 130 1,592,104 material from the collection bin to storage hopper 66 and, as depicted is comprised of an outer housing 68 surrounding an endless belt or chain 70 The continuous belt or chain has attached at intervals scoops or buckets 72 In operation, a particular scoop or bucket is empty on the vertical downpath of the continuous elevator loop As it passes horizontally through collection bin 36, the scoop is in a vertical collecting position.
Continuing on the vertical up-path, the scoop is full of abrasive particles which are dumped into hopper 66 for collection as the scoop passes horizontally across the top of the elevator means Preferably, the scoops do not contact the inner surface of housing 68 or the bottom of collection bin 36 when passing therethrough Other elevating means such as pneumatic lift devices may also be used in the apparatus of the invention The abrasive is stored in hopper 66 which is of a sufficient size to contain adequate reserves of abrasive material for surface treating.
Hopper 66 is in communication with centrifugal blasting wheel 26 via feeding passageway 74 Valve 76 is provided at the exit aperture of hopper 66 and may be opened to provide a desired flow of abrasive from the hopper through the passageway and to the blasting wheel The desired rate of flow is influenced by numerous factors, such as the size of the blasting wheel, the type of abrasive, the power available to the wheel, the type of surface being treated and the desired effect thereon A normal rate of abrasive flow is frequently about 25 to 1000 pounds per minute, e g, about 250 to 750 pounds per minute.
A large portion of the abrasive passes into collection bin 36 by means of rebounding through chute 22 However some of the abrasive may have lost sufficient kinetic energy that it does not rebound through chute 22 and is not impacted by new high velocity abrasive to impart sufficient kinetic energy thereto to provide for recovery by rebounding through chute 22 In an aspect of this invention, abrasive not recovered by rebounding through chute 22 is recovered by rotary broom 78 in a certain relationship with collection bin 36 and chute 22 To prevent an undue accumulation of particles, resilient seal 24 is adapted to permit abrasive, especially abrasive having low kinetic energy, to pass under its rear portion upon the forward movement of the apparatus across the surface being treated Advantageously, flap 80 is provided between the blasting zone and rotary broom 78 to direct the abrasive toward the rotary broom Flap is adapted to further attenuate the kinetic energy of the abrasive prior to contacting the broom, e g, by the flap being in a slanted orientation and it may be constructed of a resilient material to further absorb kinetic energy The flap can be affixed to the rear collection bin 36 to assist in directing abrasive picked up by the broom to the collection bin For most efficient recovery, the broom should be slightly wider 70 than opening 16 Side resilient seals 23 and are provided to further assist directing abrasive passing from underneath seal 24 to the rotary broom The rotating broom has sufficient rotational speed that abrasive 75 recovered from the surface by being projected upwardly and forward, into collection bin 36 Under normal operating conditions, the rotating brush is operated at about 200 to 750 rpm, preferably about 350 to 600 80 rpm The bristles may be of any strong erosion resistant material such as nylon, polyolefin, steel, or the like It is particularly desirable to dislodge and remove all foreign matter, and with the rotating broom con 85 tacting the surface undergoing treatment, both the spent abrasive material and the debris resulting from the cleaning of the surface are removed from the surface and additional abrasive is recovered for reuse 90 By utilizing both chute 22 and the rotating broom in combination, the removal of abrasive and foreign material from the surface is enhanced without significant labor and energy consumption 95 The abrasive surface cleaning apparatus depicted in the drawings is essentially a closed system allowing very little grit or dust to reach the atmosphere With the continuous impacting of abrasive particles on the 100 surface being treated, a great amount of grit and dust is accumulated from the removal of paint, rust and other substances from the surface Desirably, means are provided for exhausting these contaminants 105 from the blasting zone Advantageously, even the larger pieces of grit are exhausted from the apparatus since, for example, pieces of rust, paint, and the like, if recycled to impact the surface, may stain the treated 110 surface In accordance with an aspect of this invention, the separation of powdered abrasive, dust, debris, and the like from reusable abrasive is enhanced by certain air flows in enclosure 14 and elevator housing 68 115 Air blower 82, which is depicted in Figure 1, draws air through collection bin 36 such that light grit and dust particles become entrained therein by sweeping the recovered abrasive Additionally, the air may be laden 120 with light grit and dust particles by passing through enclosure 14 or around rotary broom 78 Exit duct 84 of blower 82 may be connected to dust collection system 86, or the exhaust may be released directly to 125 the atmosphere The dust collector can be part of the apparatus or remote from the apparatus, depending mainly upon the weight restriction imposed by the use of the apparatus Air for circulation and entraining 130 1,592,104 small waste materials may enter the enclosure at several points For example, air may enter the system around the periphery of resilient seal 24, pass through the blast zone and chute 22, intermingling with the rebounding abrasive and assisting in its recovery, to collection bin 36 The flow of air into the enclosure from between seal 24 and the surface being treated also may serve to pull stray abrasive particles out of cracks under the seal, especially on uneven surfaces, for recovery by rebounding or by the rotary brook The mouth or entrance area of concentration section 38 is wider than that area immediately prior to the attenuation section 40, and thus the velocity of the air flow through chute 22 is increased in the area of the entrance to the attenuation section thereby enhancing recovery of abrasive Air can also enter into the enclosure with abrasive being fed to centrifugal blasting wheel 26 Centrifugal blasting wheel 26 not only propels abrasive but also acts as a blower to circulate air in the enclosure The air stream follows the stream of projected particles through the recovery system and can assist in cooling abrasive after its impact with the surface Air flap 88 is provided at the rear of rotary broom 78 and air enters in the gap between the flap and the surface being treated Air flap 88 may be lifted or lowered to regulate the amount of air entering behind the broom and thus it affects the vacuum within enclosure 14.
As illustrated in Figures 1 and 4, air flows through collection bin 36 and up air duct which is immediately above behind the elevator pick up zone of the collection bin.
It is apparent that the air circulation system of this invention sweeps through abrasive as it enters collection bin 36 This results in air washing of the spent abrasive for effective removal of foreign material and dust powder from reusable abrasive particles Air duct 90 widens prior to blower82 to form an expanded plenum generally designated as 92 This widening results in a decrease in the flow velocity of the air such that usable abrasive which may be entrained in the air can be separated therefrom The plenum also contains baffles 94 which extend across the plenum and are adapted to enhance the knock-out of entrained abrasive.
The air velocity in plenum 92 is, however, sufficient to maintain dust and other waste to be exhausted from the system entrained in the air Elevator walls 96 are provided such that air drawn across the collection bin does not unduly interfere with the elevation of the abrasive.
Advantageously, the air flow rate is sufficient to draw small, waste particles upwardly through elevator housing 6 B to exit port 84 For example, an air flow of about 1000 to 3000 cubic feet per minute has been found adequate for a 50 horsepower blasting wheel However, the air flow rate should not be so great as to cause undue exhaust of useful abrasive from the system.
The apparatus of the present invention 70 can be self-propelled by providing one or more drive wheels, for instance, near the front of the apparatus, and can be powered by conventional means, for example, hydraulic, electric, internal combustion, or 75 pneumatic drive means The abrasive surface cleaning apparatus of this invention normally operates, whether self-propelled or externally propelled, at speeds of about O to 150 feet or more per minute, depending upon the 80 type of surface being treated and the desired effect thereon Advantageously, the apparatus is designed so that the operator can vary the speed or even stop the movement of the apparatus without terminating the treating 85 operation The apparatus can also be provided with a steering handle 98 Controls for regulating the speed of the machine, the speed of the throwing device and the rotational speed of the rotary broom, can be 90 mounted near the steering handle It will be apparent that the rate of travel of the machine can be adapted to suit a particular application.
The apparatus of my invention may be 95 used on horizontal or slightly inclined surfaces While the apparatus has been described as being mobile and especially adapted for use in treating substantially flat, horizontal surfaces, it can be operated in a 100 stationary position with the surface being treated moving past the opening in the enclosure Whether operated in a stationary position or mobilized, the recovery of abrasive utilizing the rebound of the abrasive 105 retards accumulation of abrasive on the surface being treated in such large quantities to deleteriously affect the cleaning action.
Thus, the apparatus can continue to treat the surface while stationary, moving slowly, 110 or even moving backward.
The device of this invention may be compact, making it relatively maneuverable.
Furthermore, since substantially all of the abrasive material is removed from the sur 115 face and recycled by the rebounding and the rotating brush means, the amount of the spent abrasive which is lost is relatively small This reduces the overall cost of operation, the amount of abrasive material which 120 must be carried by the apparatus, and thus the weight of the machine Additionally, the energy of the rebounding particles is efficiently utilized to enhance recovery of the abrasive Moreover, the forward speed 125 of the machine can be changed without surges of spent abrasive particles clogging the recycle mechanism.
When not in operation, it is desirable to elevate seal 24 from the surface such that 130 unnecessary wear does not occur As depicted in Figure 1, delivery section 20 of the enclosure is movably attached to chute section 22 wherein opening 16 is defined by chute section 22 and seal 24 is affixed to chute section 22 Also, chute section 22 is not affixed to collection bin 36 Suspension means 100 which are affixed to frame 12 serve to support chute 22 and are adapted to permit, if desired, seal 24 to follow the contour of the surface being treated when the apparatus is in operation independent of the movement of the frame Mating members 19 and 21 are provided at the movable junction of the delivery section and the chute section to abate loss of abrasive and dust from the enclosure Also, suspension means 100 serve to elevate chute 22 when the apparatus is not in operation to avoid contact of seal 24 with the surface, and lifting of the delivery section or other portions of the apparatus is not required.
Any type of conventional abrasive material can be used in the apparatus, for example, metal shot, metal grit, sand, glass beads, metal oxide particles, and stone The choice of the particular materials and the diameter or size thereof, will depend upon the particular application and upon the specific surface composition of the material to be treated Generally, spherical metal shot is preferred because of its durability and its desirable effect upon the surface being treated Spherically shaped abrasive particles also give a good blast pattern on the surface and a more predictable angle of reflectance from the surface However, this apparatus may be used equally well with irregular or angularly shaped particles Such irregular particles are especially useful when a rough surface is desired, for example, a non-skid surface Conventionally used shot material will begin to break up and its surfaces will become rough and gritty This irregular surface causes the particles to ricochet from the surface in an unpredictable manner, thus it is preferred to have the combined recovery systems Under certain circumstances, it is desirable to use this gritty material in order to produce a rough surface, e.g, a non-skid surface In this case, it is particularly advantageous to utilize a recovery system which can recover virtually % of the spent abrasive Also, as the abrasive particles begin to break up, their mass is reduced; they will possess less kinetic energy, thereby increasing the probability that the particle will not be captured by rebounding in chute 22 However, the preferred dual recovery system of this invention enables recycling these smaller, but still useful, abrasive particles which might otherwise be lost.
Thus it has been found possible, with an apparatus in accordance with the invention, to provide enhanced recovery of spent abrasive without increasing the energy requirements of the apparatus, and frequently, the energy requirements for recovery of the abrasive can be significantly reduced 70 Furthermore, it has been found that the versatility of the surface treating apparatus of my invention is increased in that the apparatus may be operated at slow speeds, or even be stationary with respect to the 75 surface being treated, and be operated in forward or reverse, with recovery of spent abrasive and without undue masking of the surface being treated by an accumulation of spent abrasive Moreover, advantageous 80 air flow patterns may be provided which assist in the recovery of spent abrasive and ensure minimal escape of dust to the environment The air flow patterns can also serve to enhance the separation of maste 85 materials such as paint and rust from the abrasive within the apparatus Large, low density waste particles can be exhausted from the apparatus without undue loss of abrasive and without employing large separa 90 tion zones which may detract from the mobility of the apparatus Furthermore, particulate abrasive may be propelled by a centrifugal blasting wheel in a wide, fanshaped pattern, and the spent abrasive 95 efficiently recovered for recycle.
Although the invention has been described with reference to a preferred embodiment, alterations and rearrangements can be made, and still the result would be within the scope 100 of my invention.

Claims (22)

WHAT I CLAIM IS: –

1 An apparatus for the treatment of a surface with particulate abrasive, which is 105 projected at high velocity against said surface, comprising an enclosure having an opening therein adapted to confront said surface, wherein said enclosure comprises a delivery section having a projecting means 110 therein for propelling abrasive through the opening to contact the surface; a first collection bin in communication with said projecting means for supplying abrasive thereto; a second collection bin in communication with 115 said enclosure to receive abrasive passing from said opening; said second collection bin being below said first collection bin and adapted to receive abrasive directed thereto due to kinetic energy of said abrasive 120 rebounded from said surface; a chute being positioned to convey abrasive rebounded from said opening, said chute being adapted to receive abrasive rebounded from said surface and direct rebounded abrasive to 125 wards said second collection bin; and recirculating means in communication with said second collection bin to lift abrasive from said second collection bin to said first collection bin 130 1,592,104 1,592,104

2 The apparatus of claim 1, wherein said chute has a generally inverted U-shape having an upwardly directed concentration zone and a downwardly directed attenuation zone having a discharge opening, said upwardly directed concentration zone having walls adapted to direct rebounded abrasive to the attenuation zone wherein rebounded abrasive strikes the walls of the attenuation zone, thereby decreasing the kinetic energy of the abrasive prior to its passing to the discharge opening; said second collection bein being in communication with the discharge opening of the attenuation zone to receive abrasive passing from the discharge opening.

3 The apparatus of claim 2, wherein said attenuation zone has a lesser cross-sectional area than that of the concentration zone.

4 The apparatus of claim 2 or 3, wherein the attenuation zone follows the concentration zone in the direction of travel of the rebounded abrasive.

5 The apparatus of any one of claims 2 to 4, wherein the attenuating zone contains a baffle.

6 The apparatus of claim 5, wherein the baffle is in an upwardly oriented apex configuration with the discharge opening being below the baffle.

7 The apparatus of any one of claims 1 to 6, comprising recovery means for directing spent abrasive to said second collection bin.

8 The apparatus of claim 7, wherein the recovery means comprises a rotary broom behind said second collection bin adapted to contact the surface being treated to direct unrecovered spent abrasive to the collection bin.

9 The apparatus of any one of the preceding claims, wherein the projecting means comprises a centrifugal blasting wheel.

10 The apparatus of claim 9, wherein the blasting wheel has an abrasive inlet and said first collection bin is above the abrasive inlet of the blasting wheel.

11 The apparatus of any of claims 1 to 10, wherein the projecting means is adapted to direct abrasive at an acuate angle to said surface.

12 The apparatus of any of claims 1 to 11, wherein said recirculating means comprises an elevator in communication with said second collection bin to delivery abrasive therein to said first collection bin which is adapted to supply abrasive to the means for propelling abrasive.

13 The apparatus of any of claims 1 to 12, further including a blower adapted to draw air through the enclosure, and an air duct in communication with said second collection bin and the blower such that the air is drawn from said enclosure across said second collection bin to sweep waste material from spent abrasive, said air duct defining a plenum between said second collection bin and the blower, said plenum having a sufficiently large cross-sectional area to 70 facilitate separation of entrained abrasive from the air stream.

14 The apparatus of claim 13, wherein baffles are provided in said plenum to facilitate separation of entrained abrasive 75 from the air stream.

The apparatus of any one of the preceding claims comprising a frame, said delivery section being attached to said frame and the enclosure having a blasting section 80 in movable relationship with said frame and said delivery section, which blasting section is in communication with the delivery section such that projected abrasive from the propelling means passes into the blasting section 85 and through the opening and is directed by kinetic energy of said abrasive rebounding from said surface to the second collection bin which is attached to said frame.

16 The apparatus of claim 15, wherein 90 a lifting means extends between said frame and said blasting section and is adapted to lift said blasting section.

17 An apparatus according to any one of the preceding claims which is mobile 95

18 An apparatus according to any one of the preceding claims comprising sealing means surrounding said opening and adapted to contact said surface to establish sealing contact between the enclosure and 100 said surface.

19 An apparatus according to any one of the preceding claims, wherein the projecting means comprises a centrifugal blasting wheel in said enclosure for propelling abra 105 sive as a fan-shaped stream through said opening in the enclosure to provide a blast pattern on the surface, said blast pattern being oblong with a major dimension and a minor dimension having a leading edge 110 adjacent to one side of the opening and a following edge wherein said wheel is positioned in said enclosure such that abrasive at the leading edge is propelled by the wheel in a plane substantially perpendicular to said 115 surface and parallel to the axis of rotation of the wheel and abrasive at the following edge is propelled by the wheel in a plane inclined to said surface and parallel to the axis of rotation of the wheel; and said chute 120 extends beyond the following edge of the blast pattern to recover rebounding abrasive at its angle of reflectance from the surface at the following edge of the blast pattern.

The apparatus of claim 19 wherein 125 the abrasive is projected at an acute angle to said surface along the major dimension of the blast pattern.

21 The apparatus of claim 19 or 20, 1,592,104 wherein a portion of the chute is parallel to the major dimension of the blast pattern and another portion of the chute is parallel to the minor dimension of the blast pattern at the following edge.

22 An apparatus for the treatment of surface with particulate abrasive substantially as shown in the accompanying drawthereto.
BATCHELLOR, KIRK & EYLES, Chartered Patent Agents, 22 Pear Tree Court, Farringdon Road, London EC 1 R ODS.
For the Applicant.
Printed for Her Majesty’s Stationery Office by Burgess & Son (Abingdon), Ltd -1981.
Published at The Patent Office, 25 Southampton Buildings, London, WC 2 A l AY, from which copies may be obtained.

GB52779/77A
1976-12-20
1977-12-19
Apparatus for treating surfaces with particulate abrasive

Expired

GB1592104A
(en)

Applications Claiming Priority (1)

Application Number
Priority Date
Filing Date
Title

US05/752,787

US4376358A
(en)

1976-12-20
1976-12-20
Surface treating apparatus

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GB1592104A
true

GB1592104A
(en)

1981-07-01

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ID=25027841
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Title
Priority Date
Filing Date

GB52779/77A
Expired

GB1592104A
(en)

1976-12-20
1977-12-19
Apparatus for treating surfaces with particulate abrasive

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US
(1)

US4376358A
(en)

JP
(1)

JPS5380893A
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CA
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CA1141550A
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DE
(1)

DE2756786A1
(en)

ES
(1)

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FR
(1)

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GB
(1)

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NL
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NO
(1)

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PT
(1)

PT67430B
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SE
(1)

SE7714326L
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US
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patent/US4376358A/en
not_active
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SE
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patent/SE7714326L/en
not_active
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1977-12-19
PT
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patent/PT67430B/en
unknown

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GB
GB52779/77A
patent/GB1592104A/en
not_active
Expired

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NL
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not_active
Application Discontinuation

1977-12-19
NO
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unknown

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JP
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patent/JPS5380893A/en
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CA
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patent/CA1141550A/en
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1977-12-19
FR
FR7738281A
patent/FR2374140A1/en
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Granted

1977-12-20
ES
ES465252A
patent/ES465252A1/en
not_active
Expired

1977-12-20
DE
DE19772756786
patent/DE2756786A1/en
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1978

1978-01-02
MX
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patent/MX145226A/en
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Title

GB2251399A
(en)

1990-12-06
1992-07-08
Williams N L Eng Ltd
Apparatus for abrasive treatment of surfaces

GB2251399B
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1990-12-06
1995-03-22
Williams N L Eng Ltd
Apparatus for surface treatment

GB2526095A
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2014-05-13
2015-11-18
Friction Safe Ltd
Friction enhancement of a paved surface

WO2015173557A1
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2014-05-13
2015-11-19
Friction Safe Limited
Method to improve friction level of a paved surface

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Publication date

CA1141550A
(en)

1983-02-22

PT67430B
(en)

1980-10-02

NL7714044A
(en)

1978-06-22

FR2374140B1
(en)

1983-04-15

NO774366L
(en)

1978-06-21

SE7714326L
(en)

1978-06-21

FR2374140A1
(en)

1978-07-13

US4376358A
(en)

1983-03-15

DE2756786A1
(en)

1978-06-29

JPS5380893A
(en)

1978-07-17

PT67430A
(en)

1978-01-01

MX145226A
(en)

1982-01-14

ES465252A1
(en)

1978-09-16

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