Nov. 30, 1965 J. RABINOW SUCTION PICK UP WITH AIR BEARING Filed Sept. 25, 1963 NM NM NM INVENTOR Jacob Rab/now ATTORNEYS United States Patent Ofiice 3,226,723 Patented Nov. 30, 1965 This invention relates to pneumatic pick up devices, and particularly to devices for handling cards, envelopes, card-sets, documents or other sheets or sheet-like articles. In the interest of brevity, the articles handled by my invention shall be referred to as sheets henceforth.
Many prior devices use suction to pick up sheets one at a time for the purposes of stacking, feeding, transporting, etc. In the usual arrangement such vacuum devices engage the surface of the sheet and hold it attached to the pick up device by suction. Subject to certain inherent limitations which are well known in the art, these devices are satisfactory.
In some instances it is either necessary or highly desirable that the surface of the sheet is not touched. For example, a sheet having a wet surface, or a sheet which cannot be marked in any way must not be touched. Also, carbon paper sheets, particularly in sheet or sheet-sets present a smearing problem. The usual prior art suction devices rely on firm, sealing contact of the sheet with the area of the suction head around the edges of the suction hole or holes, to adhere the sheet to the suction head.
An object of my invention is to provide a suction pick up device for sheets, wherein the sheets are not physical- 1y contacted by the suction head.
In practice of my invention I have a suction head with a sheet-confronting area provided with a suction opening (or openings). In addition, I provide sufficient pneumatic pressure at the edges of the suction opening to form an air bearing between the surface of the sheet and the surface of the suction head which confronts the sheet. Thus, the major affected area of the sheet is attracted toward the head by suction, and a smaller area around the edges of the suction opening are blown away from the suction head in a manner such that they remain slightly spaced from the suction head. In those instances where the sheet is highly flexible additional blowing force can be applied at a point or points within the major suction area to prevent buckling of the sheet.
It is realized that the above typical sheet is both pushed away from and pulled toward the suction head; however, the pulling force is greater than the pushing force so that the resultant force acting on the sheet will maintain the sheet closely adjacent to the suction opening in the head while the head is positioned adjacent to the sheet (in a rest position), and while it is lifted or otherwise displaced for transporting the sheet. Although there will be certain inefficiency in use of the vacuum (due to leakage of air into the vacuum chamber), the losses will not be appreciable in view of the overall benefits obtained by the system.
Other objects and features will become evident in following the description of the illustrated form of the invention.
FIGURE 1 is a diagrammatic view showing a typical application of my invention.
FIGURE 2 is a schematic view showing the suction and pressure circuits of my pick up device.
FIGURE 3 is a longitudinal sectional view on an enlarged scale showing my suction head and also showing it being used with a stack of sheets instead of single sheets as in FIGURE 1.
FIGURE 4 is an enlarged sectional view taken on line 4-4 of FIGURE 3.
FIGURE 5 is a perspective schematic view showing the suction and pressure action on a typical sheet.
FIGURE 1 shows my pick up device used withsheets 12 which are fed horizontally on table 14 to the stop 16. Although any suitable mechanical means can be used forcycling head 10 of my device from the pick up position (shown in full lines) to the transport position at 10a (shown in dotted lines), in the interest of simplicity I have shownlift rods 18 attached tohead 10 and movable by a suitable actuating mechanism (not shown).
In operation,sheet 12 beneathhead 10 is adheared to the head and moved toposition 12a (shown in dotted lines) at which a take-away device (not shown) removes the sheet fromhead 10 at position 10a. The take-away device is assumed to be conventional and of any design.
The details of pick uphead 10 are shown best in FIG- URES 3 and 4. The head consists of ahousing having walls 26 defining a suction orvacuum chamber 28. Thelower surface 30 of the head circumscribes suction opening 32 which is in direct communication with thesuction chamber 28. Anair conductor 34, for instance a tube, hose, etc. is attached tohead 10 by conventional coupling and is in communication withsuction chamber 28. As shown in FIGURE 2 a filter 36 (optical) can be interposed in thesuction line 34 which is ultimately attached to avacuum source 38. Valve 40 is also interposed insuction line 34 between the vacuum source andfilter 36. Again, the valve is optional but when used, it can be timed with the motion ofhead 10, eg by locating the valve actuator 41 in the path ofhead 10 or otherwise.
Asource 42 of pneumatic pressure is connected bypressure line 44 to manifold 46 (FIGURES 3 and 4) located along the edges of opening 32 and nearsurface 30. Manifold 46 as illustrated, is made of a tube provided with a plurality of blowingapertures 48 acting as nozzles with their axes directed toward the surface of sheet 12 (FIGURE 4) and outwardly fromchamber 28. It is understood that themanifold 46 may be constructed in other ways, for instance it may be cast integral with the head structure or may take the form of a plurality of individual tubes. Also, to prevent a very flexible sheet from buckling too much, additional blowing nozzles 43 of the manifold can be located at selected positions in opening 32.
In operation (FIGURES 35), whenhead 10 is brought in confronting relationship to asheet 12, the area of the sheet slightly inward of the edges ofopening 32 is drawn toward the interior of the head by the suction ofchamber 28, and this is shown by thelonger arrows 52 in FIG- URE 5. Concurrently, the area of the sheet adjacent to surface 30 (adjacent to the edge of opening 32) is acted upon by the air blowing through opening 48 (and 49 when provided), but the total pressure blowing on the surface of sheet 12 (arrows 54 forapertures 48, andarrows 55 for apertures 49) is considerably less than the suction pressure. The blowing air flows intochamber 28 and to the exterior of the head thereby forming an air bearing for the sheet where it directly confrontssurface 30 ofhead 10.
Whenhead 10 has supported the sheet as described above, the head can be moved by movingmeans 18 or the equivalent. To remove the sheet, it can either be slid on its air bearing parallel or substantially parallel tosurface 30 because the top surface ofsheet 12 will not contactsurface 30 ofhead 10. If desired, valve 40 can be used to vent the vacuum inchamber 28 to facilitate removal of the sheet from the head after the sheet has been transported by the head.
It is understood that the illustrated embodiments of the invention have been given by way of example only. All modifications falling within the scope of the following claims may be resorted to.
I claimn A 1. A sheet transport to pick up and to move sheets without'touching them during pickup and moving, said transport comprising a suction head having a sheet confronting surface adapted to confront the surface of a sheet, a suction' chamber in said head" and adapted to be connected with a suction'source, said chamber having a suction opening" in said confronting surface, means to move said'head to 'a position at which said sheet-confronting surface'is adjacent to the surface of the sheet so that the vacuum in the region of said surface draws said sheet toward'saidhead, pneumatic pressure conducting means preventing contact of the sheet with said head by provid ing a'layer of air therebetween and localized in' the re gion of the edges of said opening, the pulling pressure exerted on said sheet as a result of the suction of said opening being greater than the pneumatic pressure applied to said sheet by said pressure conducting means so that upon movement of said head said sheet is moved therewith, and said head moving means moving said head with the sheet so supported. p v
2, A sheet transport for flexible individual sheets, said transport comprising a head provided with a vacuum cavity, means for connecting said cavity to a vacuum source, said head having a sheet confronting surface at the edges of said cavity and defining the edges of a main suction opening adapted to confront a sheet, means for moving said head from a remote position to a position at which said main suction opening and said surface confront said sheet thereby enabling the suction to draw said sheet toward said main suction opening and said surface, pneumatic pressure conductors adjacent to said edges of said suction opening, means for connecting said conductors to a source of pneumatic pressure, said conductors having blowing apertures at said edges of said opening and arranged to blow air between the sheet and said sheet confronting surface thereby forming a pad of air between said surface and sheet while the sheet is held by the suction of said main suction opening, an air manifold connected with said pressure source and having a blowing aperture in the region of the center of said main suction opening and directed toward the sheet to provide a pressure force on the sheet at a location which prevents the sheet from buckling inward of said main suction opening but without structurally contacting the sheet, the force exerted on the sheet as a result of the suction of said opening being greater than the combined pressure forces exerted on said sheet by said pneumatic pressure source through said manifold and conductors so that the sheet is suspended adjacent to the head with a pad of air separating the sheet from said confronting surface of the head, and said moving means moving said head and the sheet to a remote location while so suspended.
References Cited by the Examiner UNITED STATES PATENTS 1,578,822 3/1926 Glover t 271 11 2,905,768 9/1959 Cronquist. 2,984,398 5/1961 Chalmers a. 226-97 x 3,127,007 3/1964 Smith 271-74 X M. HENSON, WOOD, JR., Primary Examiner.
ROBERT B. REEBES, Examiner.