US3405481A

US3405481A - Surface modification apparatus

Info

Publication number: US3405481A
Application number: US559493A
Authority: US
Inventors: James E Harper
Original assignee: Individual
Current assignee: Individual
Priority date: 1966-06-22
Filing date: 1966-06-22
Publication date: 1968-10-15
Anticipated expiration: 1985-10-15

Description

SURFACE MODIFI CATION APPARATUS Filed June 22, 1966 4 Sheets-Sheet l INVENT OR JAMES E. H RPE BYwf% @7414 ATTORNEYS Oct. 15, 1968 J. E. HARPER 3,405,481

SURFACE MOD IFICATION APPARATUS Filed June 22, 1966 4 Sheets-Sheet 2 INVENT OR JAMES E, HARPEQ BY M/ ATTORNEY 5 Oct. 15, 1968 J. E. HARPER SURFACE MODIFICATION APPARATUS 4 Sheets-Sheet 5 Filed June 22, 1966 m m m JAMES E HARPER J gm ATTORNEYS United States Patent 3,405,481 SURFACE MODIFICATION APPARATUS James E. Harper, Rosecroft Park, Md; I '(6040 Haverhill St., Oxon Hill, Md. 20022) Filed June 22, 1966, Ser. No. 559,493

- i 11 Claims. (Cl. 519) ABSTRACT OF THE DISCLOSURE treated to produce a uniform matte finish on the surface.

The present invention is concerned with an apparatus for the application of particulate material to the surface of moving webs or sheets for the purpose of modifying said surfaces. While various modifications and modes of utility for the apparatus will occur to those skilled in the art, same will be described in terms of the application of abrasive materials to the surfaces of metal webs such as aluminum, or the like, for the purpose of producing a completely uniformally abraded surface hereinafter referred to as a matte finished surface.

A particular application of the apparatus comprising the invention is in a process for manufacturing printing plates of various types wherein an aluminum backing may be provided with an abraded surface to which are applied one or more of a variety of materials comprising photosensitive compounds, glassing compounds and the like in various combinations so that the finished product, when exposed to light through a mask of one form or another and thereafter treated to remove or fix the lightstruck areas, can be used directly on a lithographic press to reproduce imagescorresponding to the characters retained on the base surface.

So called matte finishes on metal surfaces have been produced before by any one of a variety of methods and apparatus ranging from manual sand-blasting through highly complex machines, an example of which is shown in a number of prior art patents, such as 2,276,594, among others. Such methods and apparatus as have been used prior hereto are subject to deficient performance and lack of versatility which has resulted in the failure of such methods and apparatus to produce completely uniform edge-to-edge treatment of the base surface to the desired and selected degree and with a consistency that permits of rapid continuous treatment of the base with assured results, be it in web or sheet form.

It is thus an object of the invention, then, to produce an apparatus for the surface treatment of sheet or web materials to produce a uniform application of particulate material thereon.

It is a further object of the invention to produce a machine capable of providing an extremely uniform matte finish on metal plates, sheets, foils and the like in a continuous operation.

It is an additional object of the invention to produce a machine capable of forming a variable depth but highly uniform edge-to-edge matte finish on a variety of base materials, such as aluminum, plastics, stone and the like.

An additional object of the invention is to produce a machine having selectively variable performance characteristics for treating the surfaces of metal webs or sheets Patented Oct. 15, 1968 inthe production of printing plates, and the like, as, for example, lithographic printing plates. p I

Still another object of the invention is to produce a machine for abrading and thus producing a matte finish, on the surface of various articles such as metal webs, plates, plastic materials, stone, ceramic materials, and the like, where a' highly uniform finish is desired for improving surface adherence characteristics or surface ornamentation of the material in question.

An additional object of the invention is to produce an apparatus capable of causing an unusually uniform application of particulate material to a flat surface. i These and other objects of the invention, not specifically set forth but inherent therein and readily apparent to those skilled in the art, may be attained by the present invention comprising a closed housing having shielded material entry andexit slots; means for conveying the material to be treated through said housing in a horizontal position; means disposed above the surface of the'material to be treated for applying particulate material to the surface thereof, said last mentioned means comprising a source of particulate material having a discharge opening within the housing; a driven fiat diffuser disc disposed within the housing to receive the particulate material discharged from said opening; a multi-bladed impeller means disposed below and coaxial with said disc; meansfor driving said disc and said impeller means in the same direction at different rotational speeds; ring means surrounding said impeller means and spaced from the periphery thereof, said impeller means including blades pitched and inclined relative to the horizontal plane of the impeller whereby the particulatematerial is swept downwardly in a swirling, generally circular motion onto and across the surface of the material to be treated.

Preferably, though not necessarily, the disc and impeller are carried in a pressurized bearing cartridge, while the impeller blades and ring are surfaced with or formed from an abrasive resistant material such as Neoprene, or the like, and, further, means may be provided to both recover the particulate material for reuse where desirable and to clean the treated material before same passes through the exit slot in the housing.

Having thus described the invention in broad concept, the mode of operation and structure thereof will be readily apparent from consideration of the following descriptive matter and drawing referred to herein and where:

FIG. 1 is a top plan view of the apparatus, certain parts being broken away for clarity,

FIG. 2 is a side elevation of the apparatus shown in FIG. 1, again certain parts being broken away or shown in section for clarity,

FIG. 3 is a further elevational view, largely schematic, of the apparatus shown in FIG. 1, certain parts being removed or sectioned,

FIG. 4 is a sectional view through the disc-impeller cartridge bearing, shown particularly in FIGS. 1 and 2, and taken along the line 4-4 of FIG. 1, and

FIGS. 5 and 6 are front and sectional views of a blade mounted on the impeller shown in FIGS. 1, 2 and 3.

Turning first to FIGS. 1 and 2, it will be seen that the apparatus includes a closed generally box-like rectangular housing 10 including

vertical columns

2, 4, 6 and 8 suitably laced together by

top cross beams

12, 14, 16 and 18. The terminal ends of

beams

12 and 16 are cantilevered, as shown, slightly outwardly beyond beams 14 and 18.

The framework defined by the columns and beams is completely closed by means of

sheet metal walls

22, 24, 26 and 28 (FIGS. 2 and 3) and a sheet metal top 32.

The bottom of the housing 10 is also closed by a plurality of sloping

sheet metal members

34, 36 and 38 3. (FIGS. 2 and'3), same merging at their lower ends to define a hopper 20.

As is also shown in FIG. 1, the cross beams 12 and'16 are further tied together, intermediate their ends by

cross braces

44, 46 which also serve as diffuser and impeller supports along with'tie members 48-and 52.

As mentioned, the

endsof beams

12 and 16 are cantilevered outwardly and each end portion carried thereon

bracket members

52, 52 and 54, 54 respectively, same being of conventional construction and in'which are supported horizontal and parallel web-

guide rollers

56 and 58 respectively. 7

Also externally mounted on theframework of housing 10, specifically on beam 12, are a'pair of

motor mounting pads

62 and 64 upon which are mounted

electric motors

66 and 68, as shown.

Motors

66 and 68 include the usual mounting brackets 72, 7-4 bolted to

pads

62, 64 via elongated slot and bolt connectors, both purely conventional, whereby the motors may be adjusted longitudinally, to a limited degree, of beam 12..

Both of the motors 6'6 and 68 are in turn connected to a bearing cartridge 100, to be described, via

belts

76, 76' and 78, 78' whereby the motors may drive, independently, and respectively, a diffuser disc 82 and an impeller assembly 90 fixed to and suspended for rotation beneath the cartridge 100.

It might be added that cartridge 100 is supported rigidly in

cross members

44, 46 and tie members 48 and 52 so as to be approximately centered within housing 10.

As is obvious from an inspection of the drawings, the diffuser disc 82 is simply a fiat disc having a diameter such that its circumferential edge overlies a multiple series of blades 92, shown as twelve in number, which are, in turn, mounted on a further flat disc 91, of smaller diameter than diffuser disc 82.

Digressing momentarily to FIGS. and 6, it will be seen that the blades 92 include mounting lugs 94 which are removably fixed to the disc 91 as by bolts 96 or the like. Each blade 92 is generally rectangular in plan form and it is important to note that each is disposed so as to define a pitch angle of approximately degrees to the horizontal while also being depressed in a root to tip angle of approximately 5 degrees below the horizontal as clearly illustrated in the drawings. While the impeller assembly disclosed includes 12 blades 92 disposed in equal spaced apart angular positions on impeller disc 91, a greater or lesser number of blades may be used depending on the results desired and the fineness of the particulate material applied to the surface to be treated. For forming material, usually aluminum, into a base for lithographic printing plates, a very excellent matte finish is produced on aluminum by the use of twelve blades at a rotational speed of about 800 to 1000 r.p.m. of the impeller assembly 90 with the diffuser disc 82 rotating in the same direction as the impeller assembly, but, only at about r.p.rn. Different materials, however, even different grades of aluminum may require different rotational speeds of diffuser disc 82 and impeller assembly 90, hence the former is designed to be driven at speeds from 25 to 60 r.p.m., while the impeller may be driven at from 700 to 1500 r.p.m., as may be desired, to produce given results on a particular article being processed.

As shown in FIGS. 1 and,2, the outer periphery of the impeller assembly 90 is surrounded by a ring member, hereinafter called a blast ring, 98, same being supported on

channel members

102, 104 extending across the housing 10. Blast ring 98 may be formed of especially hardened, abrasive resistant steel, the same material being used in the fabrication of impeller blades 92. However, a readily available substitute material is common, heavy gage sheet steel, same being provided with an abrasion resistant coating such as Neoprene rubber, a commercial product sold on the open market for applications where abrasion resistance is essential.

As is self-evident, the interior of housing 10 is continuously filled with particulate material, be it abrasive or Whatever, when the apparatus is in operation. Thus, having in mind that the impeller assembly and the diffuser disc 82 must be driven by means within the housing, it becomes apparent that it is most desirable to prevent the particulate material from causing excessive wear on bearings which carry these instrumentalities. Also, it is desirable to provide the most simple means of driving the impeller assembly 90 and diffuser disc 82 which must be coaxial and in relatively close vertical relation. This means comprises the bearing cartridge illustrated in FIG. 4.

As shown in FIG. 4, the bearing cartridge is comprised of a cylindrical support shell having annular, high

pressure fluid seals

112, 114 disposed at either terminal end thereof. Immediately behind the

seals

112, 114 are

annular bearings

116, 118 of the anti-friction type, said bearing 118 being press fit within shell 110 while bearing 116, of the roller, thrust-bearing type is retained in place by a bearing retainer 134 bolted or otherwise removably fixed to the lower end of shell 110.

Riding within the shell 110, supported on and retained in place by

bearings

116, 118 is a drive shell 132 also of hollow, cylindrical form. The upper and lower ends of the drive shell 132 project outwardly above and below the ends of support shell 110; the upper end having fixed thereto, as by bolts 138 and spacer 142, a pair of drive pulleys 144, 144' which, when driven, rotate the drive shell 132 within the support shell 110. As evident in FIG. 2, the drive shell 132 has affixed to its lower end, by any suitable means, the diffuser disc 82 which it both supports and drives.

Drive shell 132, as stated, is also a hollow cylinder. Therefore further high pressure,

fluid seals

122, 124 may be and are carried interiorly of this element; bearing 128 being a roller-thrust bearing engaging an annular land 146 formed on a drive shaft 148 extending interiorly of and through drive shell 132.

As clearly shown in FIG. 4, the opposite ends of shaft 148 extend above and below drive shell 132 in which it is rotatably supported. The top of this shaft is provided with pulleys 152, 152' suitably fixed in place by bolts 154 and spacer 156. The lower end of shaft 148, in turn, carries a fiat disc 91 comprising a part of impeller assembly 90 to which the blades 92 are fastened as per FIG. 5.

As seen in FIGS. 1 and 2,

belts

76, 76' and 78, 78 are trained over

pulleys

144, 144' and 152, 152 respectively so that

electric motors

66 and 68 may drive diffuser disc 82 and impeller assembly 90 at different rotational speeds, as may prove desirable.

It will be noted that chambers are formed between support shell 110 and drive shell 132 and drive shell 132 and shaft 148. It will also be noted that support shell 110 is provided with parts PI and PE, while drive shell 132 is provided with parts A and B. Thus the entire interior of the bearing cartridge can be pressurized by oil under pressure passing therethrough by a pump P, driven by motor M and supplied with oil from reservoir R. The reservoir R also receives the oil flow from port PE as is schematically shown in FIG. 4.

The web or sheet material W to be abraded or otherwise treated with particulate material is passed through housing 10 immediately below and in close proximity to impeller assembly 90 and blast ring 98 as clearly shown in FIG. 2. In order to permit entry of the material W into housing 10 and also its egress therefrom, the sheet metal walls 22 and 24 are provided with suitable openings, 172, 174, in this case, in the form of elongated slots. The peripheral edges of these openings are provided with coplannar, vertically spaced

flexible seal members

176, 178, 182, 184, respectively. Preferably these members are of a non-marring material such as reinforced rubber or the like so that the article or web to be treated will not be scratched if it should contact the upper and lower peripheral edges thereof during movement through the apparatus.

Disposed inwardly of each of the

seals

178 and 184 are ballie members 186, 188 respectively, quite similar in substance and shape to those which characterize

seals

178, 184. These bafile elements 186, 188 are disposed close to the top surface of the material to be treated and, with

seals

178, 184, form what may be defined as trap chambers to prevent the escape of the particulate material from the interior of housing 10.

. For the purpose of guiding the base material through the openings 172, 174; in the described embodiment, same comprising acontniuous web, a pair of

rollers

192, 198 are mounted via brackets 196, 198' on

columns

2 and 8 and 4 and 6, respectively. These rollers are rotatable about horizontal axes and are so positioned that the periphery thereof is located relative to openings 172, 174 so as to guide the web W therethrough. As thus described, the apparatus is capable of performing the objects set forth herein above. However, for the purpose of showing a complete apparatus, such as would be etficiently and completely installed in a commercial establishment, consideration will now be given to FIG. 3, which is, as has been stated, largely in schematic form, much of the structure having been previously described.

As seen in FIG. 3, the opening 42 in the hopper-like bottom of housing 10 provides access from the bottom, beneath metal wall 26 to a vertically extending duct 202 which has its upper end disposed substantially above the vertical extent of housing 10. Both the lower and upper ends of duct 202 are closed by

curved housings

204, and 206; the lower housing 204 being in communication with the hopper-like bottom of housing 10.

The upper housing 206 provides a passage placing the upper end of duct 202 in sealed communication with a hopper 208 of conventional sheet metal construction.

Disposed within duct 202 and supported by and on a frame assembly, not shown, is an endless bucket conveyor 210. Conveyor 210 is comprised of upper and

lower sprockets

214, 212 over which is trained an endless belt 216 of rubber, canvas or the ilke.

Aflixed to the belt 216 by any suitable means, such as rivets, bolts or the like, are a plurality of buckets 218. These buckets, readily fabricated of sheet metal are comprised of a back wall 222 aflixed to belt 216 and an outwardly sloped front wall 224.

The conveyor is driven from an electric motor 220 which may be directly and mechanically connected to sprocket 212. Thus, as the buckets 218 are moved downwardly, they will scoop up material which accumulates in the hopper-like bottom of housing 10 and convey same upwardly in duct 202. The speed of the conveyor is so regulated that as the buckets approach the top of duct 202 and change direction over sprocket 214 the material contained therein will be caused to be discharged by a combination of gravitational and directional forces so to be slung out of the buckets, due to the sloping wall 224, and against the housing 206 which directs it into the aforesaid hopper 208. While other and more elaborate conveying arrangements are perfectly feasible, it has been found that the described system is adaquate for the intended purpose.

As also clearly shown in FIG. 3, the hopper 208 dis charges the particulate material, by gravity, down a supply tube 212 having an opening directly above the diffuser disc 82 and located as near as possible to the center of the difiuser disc 82. Thus the particulate material is continually circulated through the apparatus.

For the purpose of removing fines and dust created within housing 10 as some of the particulate material is broken down by continued reuse, the upper end of the housing may be provided with an opening in wall 26, at 224, in communication with a duct 226 which leads to a conventional exhaust fan, not shown, fines are sucked out of housing 10 through this duct.

In the drawings, the apparatus is shown as it might be applied to an abrading process for base material used in the manufacture of printing plates. In this case the material, aluminum, is in web form and is to be treated for a two-side, matte finish. The web W is fed from a conventional unwind stand, not shown, over the top of housing 10, guided by

rollers

58 and 56; down the vertical side 24 over roller 192, then through entry slot 174 beneath the impeller assembly 90. The web then passes beneath baffle 188 and before it leaves the housing is exposed to a cleaning apparatus 230, which may either blow or vacuum the web free of residue. Thereafter, it passes out of exit slot 172 over roller 194 and vertically downwardly to a second roller 232 mounted on bracket 234.

As is shown a second applicator unitis positioned in housing 10 directly beneath the unit previously described. Since the two-diffuser, and impeller-units are identical and driven in precisely the same manner, the lower unit need not be described in detail, identical parts being identified by three hundred series reference numerals, having the last two digits corresponding to the last two digits of the previously used reference numerals.

After passage beneath impeller assembly 390, the web passes out slot 388, but is again cleaned by a suitable pressure or suction nozzle 342 spaced behind 'bafiie 338. After exit from the housing the web is vacuumed at vacuum means 391 and passes into a wash chamber 400 where jets of water emitted from sprays 396 complete the cleaning operation.

If one side treatment, only, is desired the web can be passed beneath the upper unit or directly beneath lower unit 390, depending on which side is to be treated. In this case, roll 232 is mounted below slot 372 as shown in phantom in FIG. 2 or roll 192 may be moved below slot 72 in a similar manner depending on which unit is utilized.

If sheet material is to be treated suitable conveyor means may be trained through housing 10 to carry the sheets beneath the treating units.

The operation of the apparatus, insofar as application of particulate material is concerned is as follows: The particulate material, be it sand or Car bo r-undum or the equivalent, is discharged downwardly from hopper 208 through regulating valve 209, shown as a simple man ually operated gate valve, through feed tube and down to the center of the rotating diffuser disc 82. This disc, rotating at a relatively slow r.p.m. gradually spins the abrasive material outwardly in a completely uniform pattern. Eventually centrifugal force causes the abrasive to drop over the peripheral edge of the diffuser at a constant rate and uniformly about the full 360 circumference.

This uniform discharge of abrasive falls directly into blades 92 of impeller assembly 90 where the pitch angle of the blades directs it downwardly and inwardly in a swirling, circular motion across the surface of the web W. The blast ring 98 acts to prevent circumferential spinoif of abrasive from the tips of blades 92, assuring that all of the abrasive and the energy imported thereto, both downwardly and circularly, is dissipated by the action of the particles against the surface of the Web. In addition, because the blades 92 do not extend inwardly to the center of the impeller hub, but are evenly spaced above the periphery of disc 91, no Vent-uri effect is created tending to suck up the particles. Instead the particles impact and sweep across the surface producing an exceptionally uniform pitted surface or matte finish from one edge to the other of the web.

Having thus described the invention in detail, it will be apparent that various uses for and modifications thereof will occur to those skilled in the art, same being within the spirit and scope of the concepts which are limited as defined hereinafter.

What is claimed is:

1. An apparatus for applying particulate material to the surface of material to be provided with a matte finish comprising a housing means; a source of particulate material discharging within the housing means, diffuser means comprising a flat, rotating disc disposed below said source; impeller means disposed below and co-aXial with said diffuser means, said impeller means including a central disc-like support and a plurality of angularly spaced blades positioned around the circumferential edge of said support and immediately below the circumferential edge of said diffuser means; a blast ring surrounding the impeller means, said blades being provided with a pitch angle and inclined downwardly relative to a horizontal plane passing through said diifuser means and co-operating with said blast ring to direct flow of the particulate material dropping from the edge of said diffuser means downwardly in a swirling motion onto the treatment surface of the material; means for rotating said dilfuser means and said impeller means at different rotational speeds and means for moving the material to be treated beneath and generally parallel to the plane of said impeller means.

2. An apparatus as defined in claim 1, wherein the pitch angle of said blades is approximately 25 and the angle of downward inclination, root to tip, is 5 below the horizontal.

3. An apparatus as defined in claim 1 including means for recovering particulate material swept over the surface being treated and returning same to the source for reuse.

4. An apparatus as defined in claim 1, wherein the central disc-like support of said impeller means has a diameter less than that of said difiuser disc; said blades being removably fixed to said central disc-like support and of a length comprising substantially less than one: half of the total overall diameter of said impeller means.

5. An apparatus as defined in claim 1, wherein said impeller means and said blast ring are comprised of wear resistant material and said particulate material is an abrasive.

6. An apparatus as defined in claim 1, wherein said housing means is provided with entrance and exit apertures for the material to be treated and said apertures are provided with flexible baffies at least one of which is spaced inwardly of the housing defining therewith a trap chamber between the interior of the housing and the aper ture with which it is associated.

7. In a sheet metal abrading apparatus for producing a matte finish on the surface of the metal a rotating disc; a rotating impeller means disposed beneath and coaxial with said disc; ring means surrounding the impeller means, said impeller means comprising a further disc having a diameter less than that of said first mentioned disc, blades mounted thereon in angularly spaced relationship about the periphery thereof, said blades being inclined downwardly from and twisted relative to the plane of the further disc and common means including co-axial driven means rotating in a sealed, fluid filled pressurized bearing cartridge for supporting said rotating disc and said rotating impeller means.

8. In a sheet metal abrading apparatus as defined in claim 7, said cartridge comprising a first stationary cylindrical shell; a second cylindrical shell rotatable within and supported by said stationary shell,'a shaft rotatably journaled within and carried by said second mentioned cylindrical shell, apertured chambers formed between said first and said second shells and said second shell and said shaft, bearing means within each of said chambers and seal means closing said chambers to the atmosphere and means for supplying oil under pressure to said cham- =bers, said second cylindrical shell carrying the first rotating disc, said shaft carrying the impeller means.

9. An apparatus as defined in claim 8, includin means for driving said shaft and said second mentioned, rotatable shell at different angular velocities.

10. An apparatus as defined in claim 8, including further means for supplying abrasive material to the upper surface of said first mentioned disc at the center thereof.

11. An apparatus as defined in claim 7 wherein said impeller means and said ring means are fabricated of abrasive resistant materials.

References Cited UNITED STATES PATENTS 469,642 2/ 1892 Nehr 51-9 1,876,688 9/1932 Kasser 5l14 2,204,636 6/ 1940 Turnbull 5l-l4 X 2,765,588 10/ 1956 Puhr-Westerheide 51-9 3,217,447 11/1965 Canole 5ll4 X LESTER M. SWINGLE, Primary Examiner.