US3715040A

Movatterモバイル変換

Info

Publication number: US3715040A
Application number: US00054827A
Authority: US
Inventors: A Polus; R Scheel
Original assignee: Advanced Digital Systems Inc
Current assignee: Advanced Digital Systems Inc
Priority date: 1970-07-14
Filing date: 1970-07-14
Publication date: 1973-02-06
Anticipated expiration: 1990-02-06

Abstract

A tape reel retrieval system having a plurality of bins or frames which can be stacked in groups depending on the size of the tape library. Each bin includes a plurality of reels, each in its own storage box, each box having an open side and interior gripping fingers. The frame carries a bridge which is movable along the reels until it reaches a selected one which it then extracts from the side-by-side reel arrangement. The reel is removed from the box, the box is returned to its storage location, and the reel is carried to the end of the bin by a gripping and transfer device on the bridge. The reel is then transferred to a conveyor which takes the reel to a point of use adjacent a tape transport.

Description

Feb. 6, 1973 United States Patent 1191 Polus et al.

3,545,803 12/1970 Ruscitti................... ....294/l06 DATA ACCESSING SYSTEM Primary Examiner-Drayton E. Hloffman Assistant ExaminerLawrence J. Oresky Att0rneyRoylance, Abrams, Kruger, Berdo & Kaul Mohawk, N.Y.

[57] ABSTRACT A tape reel retrieval system havin or fr [22] Filed: July 14, 1970 g a plurality of bins ames which can be stacked in groups de App]. No.: 54,827

pending es a pluon the size of the tape library. Each bin includ rality of reels, each in its own storage box, each box having an open side and interior gri fr .214/l6.4 R, 242/181, 294/93...B65g 1/06 16.4 A, 16.4 R;

152 51 int. Cl...

pping fingers. The Field Of S arh..-.-----.- l ame carries a bridge which is movable alon reels until it reaches a selected one which it th g the- 340/l74.l C;235/6l.ll4,64.ll5;242/l80, en BX- 131, 683 tracts from the side-by-side reel arrangement. The reel is removed from the box, the box is returned to its storage location, and the reel is carried to the end of the bin by a gripping and transfer device on the bridge. The reel is then transferred to a conve [56] References Cited yor ape UNITED STATES PATENTS which takes the reel to a point of use adjacent a t transport.

.214/ 16.4 v 10 Claims, 15 Drawing Figures 3 & 411 6 2 in 1 2 Wright. Humcnuk...........................

m a r. mm ua BC O4 6666 9999 HHHH 6550 8008 356 1 ,4 1 435 4380 9 ,9 2323 PATENTEDFEB 6197a 3,715,040 SHEET 20F 7 INVENTORS.

' ANTHONY EMPOLUS FIG. 2 RUSSELL H. SCHEEL 3.2m,m 44,, EM, 5 1d ATTORNEYS.

PATENTEUFEB 6|975 3.715.040 SHEET 30F 7 FIG. 3

l e 9 3 22 INVENTORS.

ANTHONY P POLUS FIG 4 I RUSSELL H. SCHEEL BY?7 I diam; 2 1,, ATTORNEYS.

PAIENTEUFEB s 1915 3.715.040 sum u or 7 25 I 94 pl 90 F|G.5

93 FIG. 8

' INVENTORE ANTHONY "P POLUS I53 RUSSELL H. SCHEEL FIG. 6 7 1 mm, I 4. MINI M ATTORNEYS.

I v I lhm um. ll I H 1 PATENTED FEB 6ms 3 7 15.040

sum 5 or 7 FIG. 9

r WVENTORS.

ANTHONY P POLUS RUSSELL H SCHEEL PATENTEDFEB s 1915 FIG. l5

SHEET 7 OF 7 PUT COMPLEMENT IN MEMORY, +2

DRIVE BRIDGE, COUNT PULSES CARRY PULSE INTERRUPT 2 BEFORE SELECTED REEL BOX STOP BRIDGE DRIVE MOTOR, CHECK POSITION (2 SHORT OF DESIRED BOX) SLOW SPEEDMOVE 2 INTERRUPT I EXTRACT BOX WITHDRAW REEL RETURN BOX MOVE BRIDGE TO CONVEYOR HAND OFF TO VERTICAL CONVEYOR DRIVE CONVEYOR HAND OFF TO HORIZONTAL CONVEYOR DRIVE HORIZ.

STOP AT TRANSPORT DATA ACCESSING SYSTEM This invention relates to an apparatus for providing access to data stored on an elongated record medium and, more specifically an apparatus for selecting a desired one of a plurality of reels of stored data and rapidly conveying the selected reel to a tape transport.

In todays computer using facilities, it has become common to amass large libraries of stored data in the form of reels of magnetic tape, microfilm or other elongated webs which are machine readable. Some of these libraries include webs, notably magnetic tape, on which information can be written or corrected and from which information can be read, or data in a form which can be read only. Regardless of the specific recording medium or the read-write capability, a fundamental problem is to locate a specific reel in the library storage facility, transport the reel to a machine capable of reading the data recorded thereon, or writing additional data thereon or correcting previously written data, within a predetermined interval of time.

It has been customary to have an individual manually seek and remove a reel of tape on which information was stored or was to be recorded in the library storage facility, carry it to a device for handling and processing the tape, and place it thereon, the devices for reading or recording on the web being generally known by the generic term tape transports. However, as processing speeds of these machines have gradually been increased in order to maximize the use of machine time, the length of time required to locate and obtain the desired reel of tape and to manually convey it and place it on the machine became a significant factor in the total operating time to retrieve or store data. Thus, attempts have been made to develop apparatus which would handle tape reels completely, or partially, automatically.

The prior art includes several such attempts, each of which involves equipment of considerable complexity or relatively low speed, or both. Clearly, the attempts to mechanize this operation have contributed improvement over manual loading, but nevertheless contain significant disadvantages.

An object of the present invention is to provide means for high density storage of reels of tape and for automatically selecting, extracting and conveying a desired reel toa tape transport.

Another object is to provide such an apparatus which is further capable of returning the selected reel to its unique storage location.

A further object is to provide a reel storage and retrieval system in which the reels have preselected permanent addresses from which they can be removed and towhich they can be returned automatically.

As used herein, the term tape is intended to constitute a shorthand notation for any elongated record medium in the nature of a ribbon or web of indefinite length. The term includes, but is not limited to, tape on which information can be magnetically recordedor on which information can be stored by punching or by producing identifiable markings by optical means.

Broadly described, the invention includes one or more storage cabinets or bins, at least half of each bin being utilized for high density storage. Each bin is provided with a movable bridge which is capable of traversing the storage compartment, stopping at a.position adjacent a selected reel, extracting the reel, carrying it to a conveyor and transferring it to the conveyor for movement to a position adjacent the tape transport. The reel can then be manually removed from the conveyor and placed on the transport, or further conveyor means can be used to place it on the transport without manual intervention.

In order that the manner in which the foregoing and other objects are attained in accordance with the invention can be understood in detail, a particularly advantageous embodiment thereof will be described with reference to the accompanying drawings, which form a part of this specification, and wherein:

FIG. 1 is a perspective view of a computer system incorporating the present invention;

FIG. 2 is a plan view of one storage and retrieval unit in accordance with the invention;

FIG. 3 is a front elevation of the storage and retrieval unit of FIG. 2;

FIG. 4 is a section of the storage and retrieval unit along lines 4-4 of FIG. 2;

FIG. 5 is a bottom view of the bridge structure of the storage and retrieval unit;

FIG. 6 is a detail of the bridge structure of FIG. 5;

FIG. 7 is a plan view of the bridge structure of FIG. 5;

FIG. 8 is an end view of the storage and retrieval unit shown in FIGS. 2-4;

FIG. 9 is a side elevation showing the details of a reel gripping apparatus carried by the bridge structure of FIGS. 5 and 7;

FIG. 10 is an end view of the structure of FIG. 9;

FIG. 11 is an end view of an alternative embodiment of the reel gripping structure of FIGS. 9 and 10;

FIG. 12 is a detail of a portion of FIG. 7;

FIG. 13 is an elevation of the reel transfer mechanism;

FIG. 14 is a block diagram of the control circuit; and

FIG. 15 is a functional flow diagram showing the operation of the system.

FIG. 1 shows a general arrangement of a tape reel retrieval system in accordance with the invention, the object of the system being to select a specific desired reel of tape and bring it to a point immediately adjacent atape transport 15 of conventional design. The selected reel is conveyed to the transport, or returned from the transport to its storagepoint, in a horizontal conveyor channel orconduit 16 which has an opening 17 immediately above the transport. Atypical reel 18 which has been conveyed to the transport for use, or which has been placed by an operator on the conveyor for return to the storage unit, is shown in opening 17. A waiting point" can also be provided at which a reel 19 can be placed when it is about to be returned to the storage point, if the conveyor happens to be in use.

Horizontal conveyor 16 extends across the top of a plurality of storage units orbins 20. Eachunit 20 constitutes an essentially independent structure which can be used alone if the library to be stored is relatively small, or which can be joined to any number of like units by making a minor modification to the conveyor system. As shown in FIG. I, each individual unit is supported by the contained within an external rectangular frame including corner posts 21, a rectangular floor frame 22and an upper frame includingside rails 23 and end rails 24. Two

rods

25 and 26 extend along sides rails 23 to constitute a guide and bearing surface to support a bridge assembly indicated generally at 27.Bridge 27 is designed, as will be described hereinafter, to traverse the length of unit by riding on

rails

25 and 26 in the directions indicated by double-headed arrow 28.

Thelower frame structure 22 supports afloor 29 which, in turn, supports a plurality ofreel boxes 30 which contain reels of tape. Each reel box is essentially identical to every other reel box except that it has a unique location and is intended to contain a specific unique reel. Means is provided, as will be described, to identify a specific box, stop thebridge 27 adjacent that box, extract the box, remove the reel therefrom, return the box to its location, and then transport the reel, by moving the bridge, toward a vertical conveyor structure including areel carrier 31 which is guided by vertical rods or rails 32 and 33.Vertical reel carrier 31 is shown supporting a reel 34 and is movable, as by adrive wire 35, in the directions indicated bydoubleheaded arrow 36.Carrier 31 transports the reel upwardly into anupper extension 37 on the top unit of the stack, at which point the reel is transferred to a horizontal conveyor contained withinconduit 16. The horizontal conveyor, which is movable in the directions indicated by double-headedarrow 38, transports the reel to the position shown byreel 18.

It will be recognized that the conveyor withinchannel 16 can serve a plurality of stacks of individual storedunits 20 and that each such stack is served by a vertical conveyor including a carrier such ascarrier 31. It will be further recognized that the horizontal conveyor can serve more than one tape transport, and thatconduit 16 can be extended beyondtransport 15 to other units if desired for a particular installation.

The details of one bin storage unit can be more clearly understood by referring to FIGS. 2-11. In FIG. 2,unit 20 is shown in plan view withbridge assembly 27 disposed in a position to extract one reel box from its normal storage location. It will be seen, viewing FIGS. 2-4, together, all of which show the apparatus with the bridge in the same location, that theindividual reel boxes 30 rest onfloor 29 betweenupstanding ridges 39 which are formed as part of the floor. Thus, the boxes are separate and guided by the floor ridges and can move across the floor parallel to the ridges freely. Also, aroof member 40 is provided with depending ridges 41 which are parallel with and directly aboveparallel ridges 39 to support and guide the upper ends ofboxes 30.

The shape of an individual box can best be seen in FIG. 4 in which it can be seen that the box is substantially rectangular having front, back, top and bottom walls 42-45, respectively, with thetop wall 44 having a downwardly extendingrecess 46 which has afront surface 47 and aback surface 48 against which a drive pin can operate to move the box across the interior of the unit.Slots 46 can be seen in plan view in FIG. 2. When dealing with tape reels of the usual commercial diameter, approximately 10 inches, the width ofslot 46 between

surfaces

47 and 48 is approximately l inch. Apin 49 is carried by the bridge structure and depends intoslots 46 as the bridge traverses the length of the unit.

Walls 42-45 are joined on one side of the box by avertical wall 50 which is perpendicular to the axis of a reel and which supports a Y-shaped reel gripping member 51 which is attached to wall 50 bysuitable fasteners 52 such as rivets or bolts and nuts. The gripping member 51 includes threespring fingers 53 which protrude perpendicularly fromwall 50 and which are dimensioned to fit within the central opening of a tape reel. The end of eachmember 53 is slightly tapered or bent inwardly to permit the reel to be forced over the three fingers which resiliently bend inwardly slightly but which provide sufficient radial outward force to solidly retain the reel within the box.Spring fingers 53 can be made from any suitable resilient material, including a spring brass or bronze, or a plastic having adequate strength and resiliency characteristics.

It will be recognized that the wall of the box opposite and parallel to wall 50 is absent so that reels can be inserted into or withdrawn from the box without the necessity of opening a lid. When the boxes are all in their normal storage locations, as shown in FIG. 2, thewall 50 of one box closes the open side of the adjacent box to minimize entry of dust or the like. Also, resilient strips can be placed around the exposed edges of walls 42-45 so that when one box is placed next to the other an effective dust seal is created.

Turning now to the bridge structure, it will be seen that the bridge can be caused to traverse the length of the storage unit by the action of

bridge drive wires

55 and 56, one end of each wire being attached to one side of the bridge and the other end of each wire being attached to the other side of the bridge.Wire 55 extends from the bridge and passes around apulley 57 which is firmly pinned to adrive shaft 58 at the conveyor end of the unit. The wire then extends the full length of the unit and passes around apulley 59 and returns to the other side of the bridge. Similarly,wire 56 is connected to the bridge, passes around apulley 60, which is also firmly attached toshaft 58, after which the wire extends the full length of the unit beneath the bridge, passes around apulley 61 and returns to the other side of the bridge.

Pulleys

59 and 61 are mounted for free rotation about

axles

62 and 63 which are connected to the frame of the unit.

Driveshaft 58 is journalled for rotation in bearing supports 64, 65 and 66 which are attached to endframe member 24. Aspur gear 67 is firmly attached toshaft 58 and meshes with aspur gear 68 which is attached to the drive shaft 69 of a bidirectionalelectric motor 70.Motor 70 is mounted in aflange 71 which is attached to endframe member 24. Rotation ofmotor 70drives shaft 58 through

gears

67 and 68, causing

pulleys

57 and 60 to rotate, thereby exerting force on

wires

55 and 56 and moving the bridge assembly longitudinally in the unit.

vertical rods

32 and 33. In FIG. 2 the unit is shown as though it were the bottom unit in a stack or the only unit used, the lower ends of

rods

32 and 33 being clamped in

brackets

72 and 73 which are welded or otherwise firmly attached to crossbrace 74 which is part ofrectangular floor frame 22. Adrive wire 35 is connected to the lower end ofreel carrier 31 and passes around apulley 76 which is journalled for rotation about an axle which is connected tolongitudinal brace 77. The wire then passes around apulley 78 which is connected to thedrive shaft 79 of a bidirectionalelectric motor 80 which is also attached tolongitudinal brace 77. The wire then passes upwardly around similar pulleys at the upper end of the unit and returns to be connected to the upper end ofvertical reel carrier 31.

It will be observed thatreel carrier 31 is provided with a Y-shapedreel gripping member 81 which has protrudingspring fingers 82 and is substantially identical with the reel gripping member provided on the interior of each reel box. It will be observed also that one ofspring fingers 53 on the interior of the reel box is disposed directly above the axis of the reel and that one offingers 82 is similarly disposed directly above the reel axis, and that the radially outwardly extending arm portions of the gripping member are separated at their center lines by angles of 120.

Turning now to the bridge structure, it will be seen thatpin 49 is attached to a point near one end of a smallhorizontal plate 85 which is attached at its other end to apin 86.Pin 86 is firmly connected to arack 87, the lower side of which is smooth and the upper surface of which is provided with gear teeth.Rack 87 lies in a slottedchannel 88 and is freely movable lengthwise in the slot, or perpendicular to the direction of motion of the bridge, which motion, for purposes of reference, is parallel to the axes of all reels. Aspur gear 89 meshes with the teeth onrack 87, rotation ofgear 89 being used to drive the rack in its longitudinal direction.Gear 89 is pinned to the shaft of abidirectional motor 90 which is mounted on and carried by the bridge as sembly. Specifically, the motor is mounted through aflange 91 which is attached to across brace 92 extending between main side rails 93 and 94 of the bridge structure. One end of each of side rails 93 and 94 is connected to a bearinghousing 95 which containsbearings 96 to provide low friction contact withrod 25. At the other end, asimilar bearing housing 97houses bearings 98 which ride onrail 26,housing 97 being connected to the other ends of side rails 93 and 94.

It will be observed thatplate 85 extends slightly outwardly from the end ofrack 87 and also extends toward the conveyor end of the unit. As previously mentioned,pin 49 depends intoslot 46 so that motion ofrack 87 carries with it plate 85 andpin 49. After approximately 1 inch of motion ofrack 87pin 49 comes in contact withside 47 ofslot 46, as seen in FIG. 8, causing one reel box to slide acrossfloor 29 in the slot formed byridges 39. The motion ofrack 87 to extract the box is controlled by the energization ofbidirectional motor 90, the rack being moved until the reel contained within the box is in position to be transported along the unit.

The mechanism for removing the reel from the box will be described. As will be seen in FIGS. 3, 4 and 8, a reel gripping and extracting mechanism indicated generally at 100 depends frombridge 27.Mechanism 100 includes anupper plate 101 which has a centrally located hole through which a threadedshaft 102 extends. Internally threaded

nuts

103 and 104hold plate 101 in the proper vertical position onshaft 102. The apparatus to whichshaft 102 is connected on the bridge will be discussed hereinafter.

Four

corner plates

105, 106, 107 and 108 depend from the corners ofplate 101 and support alower plate 109. Asolenoid 110 is mounted in an L-shaped bracket 111 which is attached to the lower plate, the solenoid being mounted so that its axis is parallel with the axes of the reels in the bin. Also, the axis of the solenoid lies in a horizontal plane which also contains the axes of the reels stored in the boxes inthe bin. Anoutput shaft 112 of the solenoid passes through one end of a cylindricalgripper mechanism housing 113 which rests onplate 109 and the front portion of which protrudes forwardly from the plate, the direction forward being used in this context to refer to the direction of the bridge when it is moving towardvertical carrier 31. The forward portion ofhousing 113 includes three openings spaced 120 apart through which three

gripper feet

114, 115 and 1 16 protrude radially.

The details of the gripping mechanism can be more clearly seen in FIGS. 9 and 10 in which it will be seen thatshaft 112 ofsolenoid 110 extends through an opening inhousing 113,shaft 112 having anopening 121 in the end thereof to receive and grip three

cables

122, 123 and 124. The interior of the housing is provided with threebrackets 125 126 and 127 which are spaced 120 apart and attached to the interior surface of the housing. Each bracket extends forwardly from its attachment point and radially inwardly at about a 45 angle, each bracket terminating in a loop for retaining an axle. The three

axles

128, 129 and 130 rotatably support three

pulley wheels

131, 132 and 133 over which the cables pass from the end ofshaft 112. The other end of each cable is attached to one of

shafts

134, 135 and 136 which pass through the radial circularly spaced openings in the housing and are connected to the

gripper feet

114, 115 and 116, respectively. Coil compression springs 137, 138 and 139

surround shafts

134, 135 and 136, respectively, and tend to press the gripper feet outwardly.

In the embodiment shown in FIGS.'9 and 10,sole noid 1 10 is designed so that when it isdeenergized shaft 1 12 is retracted to its fully retracted position within the solenoid housing. When energized,solenoid 112 extends, tending to permitslack in cables 122424 and permitting compression springs 137-139 to urge gripper feet 114-116 radially outwardly. The structure is inserted within the central opening of a tape reel before the solenoid is energized so that the gripper feet lie in the plane of the reel. When the solenoid is energized the feet will extend outwardly, firmly gripping the reel opening. It will be observed thatshaft 135 andgripper foot 115 extend downwardly from the axis of the gripper mechanism and, as previously described, with.

respect to the reel axis. Thus, with the other feet spaced 120 fromfoot 115, it will be seen that the feet are angularly spaced from the reel gripping members on the interior of each reel housing box and from the gripping member onvertical conveyor 31. These members thus interdigitate and can all exist within a given reel at any time. It will be observed further, as shown in FIG. 9, that the outward surface of each gripper foot includes a radially inwardly extendingU-shaped indentation 140 the interior of which is designed to be equal to or slightly larger than the axial dimension of the central opening of a reel. Thus, the gripping action does not relay entirely upon friction but provides a positive grip so that relative motion of the gripping mechanism and the housing box will cause the reel to be extracted from the box positively.

An alternative embodiment to the apparatus shown in FIGS. 9 and 10 is shown in FIG. 11 wherein the solenoid is a rotary solenoid having anoutput shaft 141 which protrudes into thegripper mechanism housing 143 and is firmly attached to a disc 142. One end of each of three

lengths

144, 145 and 146 is pivotally connected to a point on the disc, the three connection points being spaced 120 apart. The other end of each link is connected to the inner end of three

shafts

147, 148 and 149, the outer ends of which are connected to the gripper feet. Rotary motion of the solenoid causes the disc to move in directions shown by double-headedarrow 150, causing the shafts and gripper feet to move radially inwardly or outwardly.

The mechanism for causing the reel gripping mechanism to move axially, with respect to the reel, for the purpose of inserting the gripper feet into the reel opening and extracting the reel from the box will now be described.Shaft 102, which supports the reel gripping and extracting mechanism, extends upwardly, as shown in FIG. 6, through one end of alink 151 and through anelongated slot 152 in arectangular plate 153 which extends between

side members

93 and 94 of the bridge structure. The upper end ofshaft 102 is fastened in a lozenge-shapedslide member 154 which is capable of sliding, in a direction parallel to the reel axes, between two

guide members

155 and 156. As seen in FIG. 6. guidemember 156 is an L-shaped structure having alower shoulder 157 which prevents downward movement ofslide 154 and a vertically inwardly facing surface which prevent lateral movement of the slide member. The other end oflink 151 carries a pin 158 (FIG. 5) which protrudes downwardly below the link far enough to permit attachment of one end of acoil spring 159, the other end of which is fixed toplate 153.Pin 158 extends upwardly through anelongated slot 160 inplate 153,slot 160 having long sides which are parallel to

side members

93 and 94. As seen in FIG. 7, the end ofslot 160 which is closest tomotor 90, includes an offset portion into whichpin 158 is urged byspring 159. Anadditional coil spring 161 is connected between the upper end ofpin 158 and across brace 162 which extends between

side members

93 and 94.Spring 161 tends to urgepin 158 toward bearingcarrier 95 at the left-hand end of the bridge structure as shown in FIGS. 5 and 7. However, so long aspin 158 is in the offset portion ofslot 160 and is retained therein by the action ofspring 159,spring 161 is ineffective to cause the pin to move to the other end ofthe slot (FIG. 12).

It will be observed that ifpin 158 is moved forwardly, out of the offset portion ofslot 160 and against the action ofspring 159,spring 161 causes the pin to move to the other end of the slot, carrying with itshaft 102 andslide member 154.Slide 154 is limited to motion parallel to the axes of the reels by

guides

155 and 156. This also limits motion ofshaft 102 to that direction so that the shaft and the reel gripping and extracting mechanism carried by the shaft moves forwardly the length ofslot 152. Thus, if a reel is in the position shown in FIG. 8 and pin 158 is removed from the offset portion ofslot 160 as described, the reel gripping feet are moved into the central opening in the reel and are in position to grip the reel as described above.

The means for movingpin 158 out of the offset portion of the slot and for returning it to that offset portion are carried byrack 87. Referring again to FIG. 6, rack 87 carries a downwardly openingU-shaped bracket member 165, the outer end of which supports an inwardly protrudingpin 166. Apin 167, which lies in the same horizontal plane aspin 166, protrudes forwardly fromrack 87, the vertical planes in which pins 166 and 167 lie being spaced apart a distance of approximately 1 inch.

The operation of this part of the mechanism begins withslide member 154 in the position shown in FIG. 6 and withlink 151 as shown in FIG. 5, this being the withdrawn position of the reel gripping and extracting mechanism. Asrack 87 is moved alongchannel 88 in the direction to remove a reel from its storage location, pin 49 engagessurface 47 ofslot 46 and moves the box into the access area. The motion proceeds uninterrupted, pin 166 being designed to passpin 158 whenpin 158 is in the offset portion ofslot 160. However, whenpin 167 is carried by the rack to the position occupied bypin 158,pin 158 is caused, by a camming action against the walls ofslot 160, to move forwardly in the slot out of the offsetportion. At thattime spring 161 causespin 158 to move suddenly to the other end of the slot, as previously described, causingslide member 154 andshaft 102 and the reel gripping and extracting mechanism carried thereby to suddenly move forward. At this point, microswitches, omitted from the drawings for clarity, deenergize motor causing the motion of the rack to stop. Solenoid is then actuated, causing the gripping feet to grip the interior opening of the reel.Motor 90 is then energized to move in the opposite direction, initiating motion ofrack 87 in its oppositedirection causing pin 166 to now come in contact withpin 158 to return it toward the offset portion ofslot 160. Whilepin 158 is being caused to travel the length of slot the reel gripping and extracting mechanism is still in its forward position and the reel has not yet been extracted from its box. However, the box does not move becausepin 49 must travel the length ofslot 46 before it comes in contact withsurface 48, at which time the first motion of the box will take place. The lengths of

slots

160 and 46 are dimensioned so that the offset portion ofslot 160 will be reached bypin 158 beforepin 49 contacts surface 48. Motion ofpin 158 to the other end of the slot causesslide member 154 andshaft 102 to return to its rear position, moving the reel gripping and extracting mechanism slowly to the rear and slowly extracting the reel from the box. It should be recognized that this slow motion actually takes place in a very short period of time, but is a slow motion when compared with the sudden or snap motion of the reel gripping mechanism in its forward motion.

As soon as the reel has been extracted from the box,pin 158 has been returned to the offset portion ofslot 160 and is retained therein byspring 159,rack 87 is free to travel the rest of the length of its motion, permittingpin 49 to act againstsurface 48 and return the empty box to its storage location.

In the next step of theoperation motor 70 is energized, causing rotation ofshaft 58 and causing

wires

55 and 56 to pullbridge 27 the length of the bin structure until the reel gripping and extracting mechanism approachesvertical conveyor 31. As previously described, the gripping fingers onmember 31 are disposed just like the members on the interior of each reel housing box so that the gripping feet carried by the bridge interdigitate with those fingers. Thus, the bridge can simply be run to the end of the box until the reel is forced overfingers 82, at whichtime solenoid 110 can be energized and the bridge can be withdrawn in toto, extracting feet 114-116 from the interior of the reel. It is unnecessary, at that point, to operate the bridge, although this full cycle of rack motion can be gone through if desired. It may be desirable to design the apparatus to do so, in view of the relatively simple operation thereof and in view of the simplified circuitry required.

FIG. 13 shows means for transferring the reel from the vertical conveyor to the horizontal conveyor in the process of providing a reel to a transport, and the means for transferring from the horizontal to the vertical conveyor in returning the reel to its normal storage location. As will be seen, the vertical conveyor extends upwardly into theupper extension 37 at the rear of the stack of storage bins. Using identifying numerals similar to those previously used, the vertical reel carrier is identified as 31 with this carrier being guided by

vertical rods

32 and 33. It will be noted that the upper ends of the rods are securely attached in ablock 175 at the upper end ofhousing 37. A cable and pulley system, similar to that described with reference to the bridge drive structure, is provided for moving the reel carrier vertically, but this is not shown in FIG. 13 for simplicity. As seen in FIGS. 3, 4 and 13,reel carrier 31 is provided with threeopenings 176 which are spaced 120 apart and which are angularly disposed midway between radially outwardly extending legs of the reel gripping device supported bycarrier 31. The openings are radially outwardly spaced from the circle in which thereel gripping arms 82 lie and, when a reel of tape is on the carrier, are hidden thereby. When a reel of tape is to be transferred from the vertical conveyor to the horizontal conveyor,carrier 31 is moved to a predetermined uppermost position and stopped. The predetermined uppermost position is that-which lies between two horizontally extending

rods

178 and 179 which support and guide ahorizontal reel carrier 180.Carrier 180 is substantially identical tocarrier 31 and is provided with areel gripper 181 having outwardly extending resilient fingers to grip a reel. On the horizontal carrier, the fingers are disposed to interdigitate with those oncarrier 31. In the predetermined position,reel carrier 31 is adjacent asolenoid structure 182 which includes outwardly projectingsolenoid plunger rods 183 which, in the predetermined position, are aligned withopenings 176.Solenoid structure 182 is carried bybrackets 184 which support the structure from the wall ofhousing 37.

When a reel is to be transferred from the vertical to the horizontal conveyor, the two

carriers

31 and 180 are brought to their aligned predetermined positions andsolenoid 182 is actuated, causing the plungers to pass throughopenings 176 and push the reel from the vertical to the horizontal conveyor. The horizontal conveyor then carries the reel to the desired position adjacent a reel transport, the carrier being driven by a wire drive similar to that described with reference tocarrier 31.

It will be apparent that when a reel is to be returned to its storage position and is to be transferred from the horizontal to the vertical conveyor, solenoid is actuated when the two carriers are in their interdigitating positions, pressing the reel from the horizontal to the vertical conveyor, after which the vertical conveyor returns the reel to the appropriate bin and transfers it to the reel structure which then returns it to its home box and to its normal storage position.

FIG. 14 shows a simplified block diagram of the circuitry for controlling the various functions of the apparatus as described above. Each of thereel storage boxes 30 is provided with a highly reflective patch on the upper surface thereof, the patch being of relatively narrow width. The bridge structure carries with it alight source 190 which directs light toward the upper surface of the boxes, which light is reflected from the reflective patches. A photo-detector 191 receives the pulses of light which are reflected as the bridge passes over the boxes, one pulse per box. The electrical signal from thephotodetector 191 is connected to amplifier means 192 which functions to amplify and sharpen each pulse, producing one pulse per box. The pulses emanating fromunit 152 are connected to acounter 193 which counts the received pulses.

Before operating the apparatus a desired box is selected by number and the complement of the count is entered in amemory 194. Thus, if there are twenty boxes in a specific bin and box 11 counting from the end opposite the conveyor is desired, then the complement of 10, or 9, is entered incomputer 194. The count is provided by the memory to the counter with the addition of two counts, so that 11 is supplied to the counter by the memory. Then, ascounter 193 counts pulses from

unit

192, 20 being a full count, a carry pulse is provided when the bridge has passed nine boxes, two short of the desired box. A carry pulse is then supplied on aconductor 195 to an interruptcircuit 196. The interrupt circuit terminates the action of thebridge drive motor 90 throughmotor control 197. That unit stops motion of the bridge at which time the interrupt circuit checks to see that the memory and the counter have correlated with the desired input. Then, the motor is activated to move the bridge for two more pulses, at which time the bridge is at the desired box. Then, the reel is extracted and delivered to the transport. The entire sequence can be overseen by asequence control unit 197 and vertical and horizontal

conveyor drive units

198 and 199.

FIG. 15 shows the sequence of events in flow diagram form, beginning with the placing of the complement of the desired count in the memory plus two counts. The bridge is driven and pulses are counted as previously described. A carry pulse at full count interrupts motor operation two counts before the selected reel box is arrived at, stopping the bridge drive motor and checking position two short of the desired box. The

bridge is then moved at a slow motor speed for two pulses, or two boxes, at which time motor operation is again interrupted. The proper box is extracted and the reel is withdrawn from the box in accordance with the operation previously described. The box is then returned and the bridge is moved towardvertical conveyor 31. When the bridge reaches the conveyor, the reel is handed off to the vertical conveyor and the conveyor is driven vertically to the predetermined position at which point the reel is handed off to the horizontal conveyor. The horizontal conveyor is then driven to deliver the reel to the desired transport.

While certain advantageous embodiments have been chosen to illustrate the invention, it will be understood by those skilled in the art that various changes and modifications can be made therein without departing from the scope of the invention as defined in the appended claims.

What is claimed is:

1. A data accessing system comprising the combination of a frame;

means for supporting a plurality of tape reels in sideby-side relationship in said frame,

said means for supporting comprising a plurality of reel storage boxes each dimensioned to hold one reel,

each of said boxes having an open side through which a reel can be removed in a direction parallel to the axis of the reel,

a wall perpendicular to the axis of the reel when a reel is stored therein, and

a plurality of spring fingers, protruding into the interior of the box from said wall to engage the central opening of the reel;

means for extracting a selected one of said plurality of tape reels from its relationship with the remaining reels;

means for transporting said selected reel to a location near one end of said frame;

means for conveying said selected reel from within said frame to a point of use outside of said frame; and

means, carried by said means for transporting, for

transferring said selected reel from said means for supporting to said means for transporting and from said means for transporting to said means for conveying.

2. Apparatus according toclaim 1 wherein said means for supporting a plurality of reels further comprises 1 a floor panel for supporting said plurality of reel storage boxes, said panel having a plurality of upstanding spaced parallel ribs defining elongated recesses in which said boxes can slide in direction perpendicular to the axes of the reels supported thereby,

each of said recesses being at least twice as long as the diameter of a reel, the normal storage location for said boxes being at one end of the recesses;

and wherein said means for extracting one of said plurality of reels includes means for sliding the box containing the selected reel from the normal storage location along the recess to a location at which the reel can be moved axially without interfering with the remaining reels.

3. Apparatus according toclaim 1 wherein said means for extracting a selected one of said reels includes means for moving one of said reel boxes in a direction perpendicular to the reel axis from a normal storage location to a second location and for returning the box to its normal location.

4. Apparatus according toclaim 3 wherein said means for transferring said selected reel includes a plurality of radially extendible and retractable fingers;

means for carrying said fingers in a plane perpendicular to the axis of a reel, said fingers being angularly disposed in interengaging relationship with said plurality of spring fingers in said reel boxes. 5. A data accessing system comprising the combination of a frame;

means for supporting a plurality of tape reels in sideby-side relationship in said frame;

means, carried by said means for transporting, for transferring said selected reel from said means for supporting to said means for transporting and from said means for transporting to said means for conveying,

said means for transferring a selected reel including a plurality of radially extendible and retractable fingers; and

means for carrying said fingers in a plane perpendicular to the axis of a reel and in equiangular disposed relationship.

6. A data accessing system comprising the combination of a frame;

means for transporting said selected reel to a location near one end of said frame, said means for transporting including bridge means for traversing said frame along said plurality of tape reels and for supporting said means for extracting guide means mounted on said frame for supporting and guiding said bridge means; and

a motor for moving said bridge means along said guide means,

means, carried by said means for transporting, for transferring said selected reel from said means for supporting to said means for transporting and from said means for transporting to said means for conveying.

7. Apparatus according toclaim 6 wherein said motor is an electric motor.

8. A data accessing system comprising the combination of a frame;

means for conveying said selected reel from within said frame to a point of use outside of said frame,

said means for conveying including a pair of parallel guide rails extending from within said frame to a point external of said frame;

a reel carrier journalled for movement along said guide rails;

a plurality of spring fingers protruding from said reel carrier to support and grip a reel;

a motor to drive said reel carrier; and mechanical means interconnecting said motor and said reel carrier; and

9. A tape reel retrieval system comprising a plurality of tape bin assemblies each including a frame;

means for supporting a plurality of tape reels in side-by-side relationship in said frame;

means for transporting said selected reel to a location near one end of said frame; and

means, carried by said means for transporting, for

transferring said selected reel means for supporting to said means for transporting, and from said means for transporting; said system further comprising means for receiving a reel from said means for transporting and for conveying the reel selected from one of said bin assemblies to a point external of said plurality of bin assemblies, said means for receiving a reel from said means for transporting and for conveying the reel selected including two parallel guide rails extending along ends of said plurality of tape bin assemblies; a reel carrier movable along said. guide rails; a plurality of spring fingers protruding from said reel carrier to support and grip a reel; and means for driving said reel carrierv 10. A tape reel retrieval system comprising the combination of a frame;

means for supporting a plurality of tape reels in sideby-side relationship in said frame; means for extracting a selected one of said plurality of tape reels from its relationship with the remaining reels; means for transporting said selected reel to a location near one end of said frame, said means for transporting including bridge means for traversing said frame along said plurality of tape reels and for supporting said means for extracting; guide means mounted on said frame for supporting and guiding said bridge means; and drive means for moving said bridge means along said guide means, means at one end of said frame for receiving said selected reel and for making said reel available for use outside said frame; and means, carried by said means for transporting, for transferring said selected reel from said means for supporting to said means for transporting and from said means for transporting to said means for receiving at one end of said frame.

* I I I

Claims

1. A data accessing system comprising the combination of a frame; means for supporting a plurality of tape reels in side-by-side relationship in said frame, said means for supporting comprising a plurality of reel storage boxes each dimensioned to hold one reel, each of said boxes having an open side through which a reel can be removed in a direction parallel to the axis of the reel, a wall perpendicular to the axis of the reel when a reel is stored therein, and a plurality of spring fingers, protruding into the interior of the box from said wall to engage the central opening of the reel; means for extracting a selected one of said plurality of tape reels from its relationship with the remaining reels; means for transporting said selected reel to a location near one end of said frame; means for conveying said selected reel from within said frame to a point of use outside of said frame; and means, carried by said means for transporting, for transferring said selected reel from said means for supporting to said means for transporting and from said means for transporting to said means for conveying.

2. Apparatus according to claim 1 wherein said means for supporting a plurality of reels further comprises a floor panel for supporting said plurality of reel storage boxes, said panel having a plurality of upstanding spaced parallel ribs defining elongated recesses in which said boxes can slide in direction perpendicular to the axes of the reels supported thereby, each of said recesses being at least twice as long as the diameter of a reel, the normal storage location for said boxes being at one end of the recesses; and wherein said means for extracting one of said plurality of reels includes means for sliding the box containing the selected reel from the normal storage location along the recess to a location at which the reel can be moved axially without interfering with the remaining reels.

3. Apparatus according to claim 1 wherein said means for extracting a selected one of said reels includes means for moving one of said reel boxes in a direction perpendicular to the reel axis from a normal storage location to a second location and for returning the box to its normal location.

4. Apparatus according to claim 3 wherein said means for transferring said selected reel includes a plurality of radially extendible and retractable fingers; means for carrying said fingers in a plane perpendicular to the axis of a reel, said fingers being angularly disposed in interengaging relationship with said plurality of spring fingers in said reel boxes.

5. A data accessing system comprising the combination of a frame; means for supporting a plurality of tape reels in side-by-side relationship in said frame; means for extracting a selected one of said plurality of tape reels from its relationship with the remaining reels; means for transporting said selected reel to a location near one end of said frame; means for conveying said selected reel from within said frame to a point of use outside of said frame; and means, carried by said means for transporting, for transferring said selected reel from said means for supporting to said means for transporting and from said means for transporting to said means for conveying, said means for transferring a selected reel including a plurality of radially extendible and retractablE fingers; and means for carrying said fingers in a plane perpendicular to the axis of a reel and in equiangular disposed relationship.

6. A data accessing system comprising the combination of a frame; means for supporting a plurality of tape reels in side-by-side relationship in said frame; means for extracting a selected one of said plurality of tape reels from its relationship with the remaining reels; means for transporting said selected reel to a location near one end of said frame, said means for transporting including bridge means for traversing said frame along said plurality of tape reels and for supporting said means for extracting guide means mounted on said frame for supporting and guiding said bridge means; and a motor for moving said bridge means along said guide means, means for conveying said selected reel from within said frame to a point of use outside of said frame; and means, carried by said means for transporting, for transferring said selected reel from said means for supporting to said means for transporting and from said means for transporting to said means for conveying.

7. Apparatus according to claim 6 wherein said motor is an electric motor.

8. A data accessing system comprising the combination of a frame; means for supporting a plurality of tape reels in side-by-side relationship in said frame; means for extracting a selected one of said plurality of tape reels from its relationship with the remaining reels; means for transporting said selected reel to a location near one end of said frame; means for conveying said selected reel from within said frame to a point of use outside of said frame, said means for conveying including a pair of parallel guide rails extending from within said frame to a point external of said frame; a reel carrier journalled for movement along said guide rails; a plurality of spring fingers protruding from said reel carrier to support and grip a reel; a motor to drive said reel carrier; and mechanical means interconnecting said motor and said reel carrier; and means, carried by said means for transporting, for transferring said selected reel from said means for supporting to said means for transporting and from said means for transporting to said means for conveying.

9. A tape reel retrieval system comprising a plurality of tape bin assemblies each including a frame; means for supporting a plurality of tape reels in side-by-side relationship in said frame; means for extracting a selected one of said plurality of tape reels from its relationship with the remaining reels; means for transporting said selected reel to a location near one end of said frame; and means, carried by said means for transporting, for transferring said selected reel means for supporting to said means for transporting, and from said means for transporting; said system further comprising means for receiving a reel from said means for transporting and for conveying the reel selected from one of said bin assemblies to a point external of said plurality of bin assemblies, said means for receiving a reel from said means for transporting and for conveying the reel selected including two parallel guide rails extending along ends of said plurality of tape bin assemblies; a reel carrier movable along said guide rails; a plurality of spring fingers protruding from said reel carrier to support and grip a reel; and means for driving said reel carrier.