US3623775A

US3623775A - Loading and unloading an endless web in a cartridge

Info

Publication number: US3623775A
Application number: US51109A
Authority: US
Inventors: Paul J Arseneault; Louis B Feierabend; William R Golz; Otto R Luhrs; James T Smith
Original assignee: International Business Machines Corp
Current assignee: International Business Machines Corp
Priority date: 1970-06-30
Filing date: 1970-06-30
Publication date: 1971-11-30
Anticipated expiration: 1988-11-30
Also published as: GB1298914A; CA938947A; JPS5211219B1

Abstract

Two cartridges are shown herein which have the capability of storing a folded endless loop of tape. The cartridges are designed so that by pneumatic pressure the loop of tape may be unloaded from the cartridge by a controlled unfolding and reloaded into the cartridge by a controlled folding. Two cartridges are shown, one containing a porous wall to permit the appropriate air flow to control the folding and unfolding, and the other containing air passages in nonporous walls to control the folding and unfolding.

Description

United States Patent Paul J. Arseneault Longmont;

Louis B. Feierabend, Boulder; William R. 6012, Longmont; Otto R. Luhrs, Boulder; James T. Smith, Boulder, all of C010.

June 30, 1970 Nov. 30, 1971 International Business Machines Corporation Armonlt, N.Y.

lnventors Appl. No. Filed Patented Assignee LOADING AND UNLOADING AN ENDLESS WEB IN A CARTRIDGE 9 Claims, 5 Drawing Figs.

Int. Cl B65g 53/00 Field of Search 226/7, 97,

95,1l8,1l9;274/4R;179/1002 Z;352/78, 127; 242/197, 182; 302/2; 206/51 [56] References Cited UNITED STATES PATENTS 3,165,594 1/1965 Wootten 226/97 X 3,185,400 5/1965 Maxey 226/118 X 2.995313 8/1961 Namenyi-Katzw. 242/5516 3.386,?72 6/1968 Platter et a1. 226/97 X FOREIGN PATENTS 71.628 1/1960 France 226/97 67,481 10/1957 France 4. 226/97 Primary Examiner Allen N. Knowles Atmrnevx-Hanifin and Jancin and Homer L. Knearl ABSTRACT: Two cartridges are shown herein which have the capability of storing a folded endless loop of tape. The cartridges are designed so that by pneumatic pressure the loop of tape may be unloaded from the cartridge by a controlled unfolding and reloaded into the cartridge by a controlled folding. Two cartridges are shown. one containing a porous wall to permit the appropriate air flow to control the folding and unfolding, and the other containing air passages in nonporous walls to control the folding and unfolding.

PATENIED mlvao l97| SHEET 1 [IF 2 INVENTORS PAUL J. ARSENEAULT LOUIS B FEIERABEND WTLUAM R. GOLZ OTTO R4 LUHRS JAMES T SMITH Z MZ H ATTORNEY LOADING AND UNLOADING AN ENDLESS WEB IN A CARTRIDGE CROSS-REFERENCE TO RELATED APPLICATION Application Ser. No. 51,091, filed June 30, 1970, entitled Loading and Unloading an Endless Web in a Cartridge," by P. J. Arseneault et al., filed concurrently herewith and assigned to the same assignee as the present application, has claims considered generic to the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention This invention relates to the storage of endless tape loops in g More P rticularly, the invention relates to loading and unloading a tape loop in a cartridge by folding and unfolding the loop with pneumatic pressure. The purpose is to unload and load the tape loop into a pneumatic chamber. The pneumatic chamber could either be a read station or a communication chamber to another cartridge or a read station.

2. Description of the Prior Art Storage of endless loops in cartridges is well known. These cartridges typically contain a folded tape which always remains in the cartridge. The edge of the cartridge usually has openings where a small portion of the tape can be engaged by a capstan and a magnetic read/write head. Thus, as the tape moves, it moves past these openings and does not leave the cartridge as a whole. These cartridges are not, therefore, concerned with completely loading and unloading a tape loop from the cartridge; neither are they concerned with the inherent problem of how to fold and unfold the tape loop as it is loaded and unloaded.

Another type of endless tape loop storage is shown in U.S. Pat. No. 2,995,313 having a reel with an eccentric post which always holds the end of the tape loop. Thus, to store the tape loop, the reel with the post is rotated and the loop is wrapped around the hub and the post of the reel.

A United Kingdom Pat. No. 1,037,8l (Aug. 3, 1966) teaches an endless tape loop stored in a column wherein the tape loop is almost entirely loaded and unloaded from the column when it goes to a pneumatic chamber for read/write operations. However, the storage column contains a post on the inside of the tape loop. Thus, when the tape loop is pneumatically loaded from the storage column to the reading chamber, the loop is restrained at the mouth of the cartridge by this post. The post has pneumatic conduits to provide an air bearing between the tape and the post as the tape is driven. This United Kingdom patent also does not fold the tape on itself as it is loaded and unloaded from the storage column. The storage column contains a partition about which the tape loop will fold once.

The shortcoming of the prior art tape loop storage cartridges and tape loop storage reels is that they all contain restraints which never allow the tape loop to completely leave the cartridge. Because the tape loops are always restrained by the container in the prior art, the read/write station for the tape loop must be positioned immediately adjacent the container. Tape loops so restrained by their container cannot be interchanged between containers. Also, all of the cartridges in the prior art are relatively large in size and do not lend themselves to a library data processing system containing many cartridges which can be moved automatically.

It is an object of this invention to load and unload a cartridge with an endless tape loop without restraining the tape loop in any way to the cartridge.

It is another object of this invention to compact the size of storage container required for an endless tape loop by folding the tape loop on itself as it is loaded into the cartridge.

SUMMARY OF THE INVENTION In accordance with this invention, the above objects have been accomplished by a cartridge containing a pneumatic path for initially drawing one end of an endless web, such as a tape loop, into the cartridge, and another pneumatic path for evacuating the inside of the tape loop to fold the tape loop upon itself, and to draw the end of the loop into the cartridge. When the tape is being unloaded, the mouth of the cartridge is evacuated to draw the tape out of the cartridge. At the same time, a back pressure is provided by pneumatic passages in the cartridge to hold the folds of the loop against the walls of the cartridge until they are unfolded and drawn out by the vacuum at at the mouth of the cartridge.

In addition, the end edges of the cartridge mouth are matched to the end edges of the pneumatic chamber mouth. Thus, as the tape is moving into-and-out-of, from-and-to, the cartridge, the edges of the tape loop will not catch on the edge of the chamber or the edge of the cartridge. In addition, the throat of the chamber can be constricted as it arrives at the cartridge in order to draw the tail end of the loop into the cartridge more vigorously. This will insure that the loop is completely loaded into the cartridge.

The great advantage of our invention is that the tape loop can be moved entirely free of the cartridge in which it rides during storage. Thus, the tape loop can be moved over some distance through pneumatic chambers to a number of work stations or to another cartridge. Yet another advantage of our invention is that by having the tap loop fold upon itself, the size of the cartridge is reduced and inherently will ultimately reduce the size of a data processing library using the cartridges. Yet, another advantage of our invention is its low coast of construction in that there are a minimum number of moving parts in the loading and unloading of the tape loop.

The foregoing and other objects, features and advantages of the invention will be apparent from the following more particular description of preferred embodiments of the invention as illustrated in the accompanying drawings.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 shows one preferred embodiment of the invention wherein the pneumatic passages in the cartridge are accomplished by use of porous materials in the walls. FIG. 2 shows another preferred embodiment of the invention where the cartridge has nonporous walls with pneumatic passages in the walls.

FIG. 3 shows a section of the cartridge in FIG. 2 as it begins to load an endless tape loop from an adjoining pneumatic chamber.

FIG. 4 shows an end view of the cartridge in FIG. 3 with the endless tape loop being loaded into the cartridge and about one half of the loop already stored in the cartridge.

FIG. 5 is a sectional view of FIG. 4 with a tape loop being loaded into the cartridge.

DESCRIPTION OF THE PREFERRED EMBODIMENTS In FIG. I a cut-a-way of the cartridge made of porous wall material is shown. Inside the cartridge is a cut-a-way section of an endless tape loop 10 in the stored position.

The cartridge is made up of a nonporous outer wall 12 double doors 14, and an inner porous wall 16. When the cartridge is at a loading and unloading station, the double doors 14 are swung open. Doors are hinged and spring-loaded to normally remain closed. Opening can be accomplished either by pneumatic or mechanical means.

Pneumatic pressure inside the cartridge to control the loading and unloading of the endless loop 10 is accomplished by a vacuum being applied through opening 18 in the outer cartridge wall 12. The inner porous wall 16 pneumatically connects all inner walls of the cartridge to the opening I8.

To unload the tape loop 10 after the doors are opened, a vacuum would be applied at the mouth of the cartridge to draw the first fold of the tape loop out of the cartridge. To keep the entire tape loop from being pulled out as a glob, a back pneumatic pressure is applied through opening 18. This vacuum at opening 18 tends to hold the innermost fold of the tape loop against the back wall 20 of the cartridge. In addition, the vacuum is carried through the porous walls I6 and tends to HOUSE 515 hold the folds touching the side 22 of the porous wall 16. Back pressure is much less than the vacuum at the mouth of the cartridge so that the end walls of the cartridge tend to supply air. The air supplied is evacuated through the mouth of the cartridge and thus draws the tape loop out. Thus, with back pressure applied at opening 18 and a vacuum applied at the mouth of the cartridge, the tape loop will be unfolded as it is drawn out of the mouth of the cartridge.

To reload the tape loop 10 back into the cartridge, the vacuum is applied at hole 18 at the bottom of the cartridge, and the pnuematic pressure in the chamber the tape loop is coming from is released. The vacuum at 18 draws the leading edge of the loop into the bottom of the cartridge. With the leading edge of the loop against the bottom of the cartridge, the flow of air is through the porous wall 16 at each end 23 of the cartridge. Flow of air through this porous wall evacuates air from the inside of the tape loop. This causes the tape loop to fold upon itself in the cartridge. As the tape loop is being collapsed, the vacuum being drawn through the end walls 23 of the cartridge will also draw the tape loop into the cartridge. With the tail of the tape loop inside the cartridge, the doors 14 are released and enclose the stored loop. The vacuum at hold 18 is then released and the cartridge may be manually or automatically removed from the load/unload station.

Another embodiment of the invention is shown in FIG. 2 in which no porous walls are used, but instead pneumatic passages are provided in a nonporous wall cartridge. In the cartridge of FIG. 2, the doors are hinged at the bottom of the cartridge. These doors are again spring-loaded in a closed position by springs mounted in the walls of the cartridge. The doors can be opened by pneumatic pressure. A tape loop is not shown in FIG. 2, but would, in fact, be stored in the same manner as shown for the cartridge in FIG. 1.

To unload the cartridge in FIG. 2, doors 26 are opened and a vacuum is applied at the mouth of the cartridge. To control the unfolding of the stored tape loop another vacuum is applied at the back or bottom of the cartridge and acts through longitudinal ports 28 and transverse channels 30 to hold the innermost fold of the tape loop to the bottom of the cartridge and to hold the other folds to the sides of the cartridge. Thus, the vacuum at the mouth of the cartridge will draw air supplied through ports 34 and pull the tape loop out fold-by-fold rather than as a single glob of tape.

To reload the tape back into the cartridge, a vacuum is again applied to the bottom of the cartridge and acts through ports 28 and channels 30 to draw the leading edge of the loop into the cartridge. A second vacuum is applied at each end of the cartridge through passageways 32 and ports 34 (only one shown in FIG. 2). The vacuum through ports 34 acts to evacuate air out of the center of the tape loop as it enters the cartridge and to draw the loop into the cartridge. Eventually, the entire tape loop will be folded upon itself and be inside the cartridge. At this point the doors 26 may be released and will be spring-loaded shut to hold the loop in a stored position in the cartridge. With the loop stored, vacuums at the bottom of the cartridge through ports 28 and at the ends of the cartridges through passages 32 are released. The cartridge may then be automatically or manually removed from the tape loading and unloading station.

In FIG. 3, the end of the tape loop is shown abutting against the back of the cartridge as it is just beginning to reload into the cartridge. FIG. 3 is a sectional view as seen from the end of the cartridge. Doors 26 are held open by a vacuum through ports 36. The vacuum to draw the tape loop into the cartridge and to hold the leading edge of the loop against the back of the cartridge is applied through port 38. The flow of air to port 38 is via channels 30 and ports 28 in the cartridge walls.

The vacuum to draw air out of the center of the loop is being applied through port 34. Port 34 does the main job of folding the tape loop after the leading edge of the tape loop abuts against the back of the cartridge. The effect of port 34 is to evacuate the center of the tape loop and in general to draw the tape loop into the cartridge as the-tape loop folds upon itself. After the entire loop has been folded into the cartridge, the vacuum at ports 36 is released and doors 26 close so that the cartridge may be manually or automatically removed from the load/unload station.

In FIG. 4, the same view of the cartridge is shown as in FIG. 3, except that the tape loop is now about one-half loaded into the cartridge. As the tape moves into the cartridge, the loop collapses on itself due to the vacuum in port 34 drawing the air out of the loop and then folds on itself randomly inside the cartridge.

To aid the drawing of the tape into the cartridge, the pneumatic chamber 39, through which the tape loop moves, has a slight constriction. Ramps 40 at the end of the pneumatic chamber act to constrict the size of the chamber. This increases the rate of air flow from the chamber and into the cartridge when the tape loop is being reloaded into the cartridge. The increased rate of airflow, in turn, aids the final drawing-in of the tail end of the tape loop before the cartridge doors are closed.

Also shown in FIG. 4 is the fact that the vacuum port 34 on each end of the cartridge acts not only to evacuate the center of the loop, but to evacuate air from around the loop as it moves into the cartridge. This also aids the folding of the loop upon itself and ultimately is responsible for drawing in the trailing edge of the loop. In effect, airflow from the pneumatic chamber 39 into port 34 will push the trailing edge of the tape loop up past the ports 34 and allow plenty of room for doors 26 to close.

In FIG. 5, a sectional view through the side of the cartridge and the load/unload station is shown. Passage 42 is provided so that the cartridge itself may be manually or automatically moved into position at the load/unload station. Ports 44 are used to apply vacuum to passages 32 and ports 34 at each end of the cartridge. Port 38 applies a vacuum to the back of the cartridge as previously described in FIG. 3. As shown in FIG. 5, the tape loop 10 is about one-half loaded into the cartridge. Thus, there is a vacuum being applied through port 38 and port 44. The vacuum through port 38 acts largely to hold the end of the tape or leading edge of the tape loop against the back of the cartridge. The vacuum through ports 44 acts through ports 34 in the cartridge to evacuate the loop and also to draw the loop in upon itself until it is entirely loaded into the cartridge.

An additional design feature shown in FIG. 5 is the rounding or beveling of the end walls of the pneumatic chamber 39 at points 46. Also, shown is the beveling of the inside end walls of the cartridge at points 48. This beveling prevents the edge of the tape from catching on either the mouth of the cartridge or the mouth of the pneumatic chamber 39 as the tape loop moves in and out of the cartridge. If this beveling is not provided, there is a risk that the tape loop will be caught on one of these edges and tend to flop over as it moves between the cartridge and the pneumatic chamber.

While the invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention. Various materials may be used to form the walls of the cartridge with plastic materials being particularly attractive because of their low cost and ease of manufacture. The cartridge is shown approximately at actual size in the drawings. Dimensions and size of the cartridge are not critical. The design elements common to the invention as described comprise, among other things, the provision of some passage to draw the leading edge of the tape loop in an additional pneumatic passage to cause the tape to fold upon itself after if enters the cartridge.

What is claimed is:

1. Apparatus for loading and unloading an endless web between a cartridge and pneumatic chamber so that when stored in the cartridge the web is folded and when in the chamber the web is entirely free of the cartridge comprising:

first means for evacuating air through the nonporous walls of the cartridge so that, when the endless web is being loaded, the leading edge of the web will be drawn into the cartridge and, when the web is being unloaded, the innermost fold of the web will be held in the cartridge until the entire loop is withdrawn;

second means for evacuating through the nonporous walls air from inside the loop of the endless web and air from around the endless web so that, when the web is being loaded, the loop of the web will collapse and the web will fold upon itself as it enters the cartridge;

means for supplying air through the nonporous walls to the inside of the cartridge when the web is being unloaded so that airflow out the mouth of the cartridge will draw the endless web out of the cartridge.

2. Apparatus of claim 1 wherein said first evacuating means comprises:

vacuum ports through the back wall of the cartridge.

3. Apparatus of claim 1 wherein said first evacuating means comprises in addition:

channels around the back and sidewalls of the cartridge.

4. Apparatus of claim 1 wherein said second evacuating means comprises vacuum ports through the end walls of the cartridge.

5. Apparatus of claim 1 comprising in addition means for constricting the throat of the chamber so that the rate of airflow is increased during loading and unloading of the web and thus the drawing action on the web into and out of the cartridge is strengthened.

6. Apparatus of claim 1 comprising in addition means for beveling the end walls of the cartridge and the chamber at the mouth of the cartridge so that the endless web will move smoothly between the cartridge and the chamber.

7. A cartridge for loading and unloading a folded tape loop between the cartridge and a pneumatic chamber comprising:

walls for containing the folded tape loop when the loop is stored in the cartridge;

a first pneumatic passage through the backwall of the cartridge for supplying a vacuum to the back of the cartridge so that, when loading the tape loop, the first fold of the loop will be drawn to the back of the cartridge, and, when unloading the tape loop, the innermost fold of the cartridge is held at the back of the cartridge until the entire tape loop is withdrawn from the cartridge;

a second pneumatic passage through the end walls of the cartridge for either supplying air or a vacuum, the air being supplied during unloading so that the tape loop will be drawn out the mouth of the cartridge and the vacuum being supplied during loading so that the tape loop will collapse and fold upon itself as it enters the cartridge.

8. The cartridge of claim 7 comprising in addition a third pneumatic passage in the sidewalls of the cartridge for supplying a vacuum to the sides of the cartridge during unloading of the tape loop so that each fold is held in the cartridge until movement of the tape loop out of the cartridge causes the loop to unfold one fold at a time.

9. The cartridge of claim 5 comprising in addition a bevel in the end wall of the cartridge at the mouth of the cartridge for smoothing the transition between the end walls of the cartridge and the pneumatic chamber.

Claims

1. Apparatus for loading and unloading an endless web between a cartridge and pneumatic chamber so that when stored in the cartridge the web is folded and when in the chamber the web is entirely free of the cartridge comprising: first means for evacuating air through the nonporous walls of the cartridge so that, when the endless web is being loaded, the leading edge of the web will be drawn into the cartridge and, when the web is being unloaded, the innermost fold of the web will be held in the cartridge until the entire loop is withdrawn; second means for evacuating through the nonporous walls air from inside the loop of the endless web and air from around the endless web so that, when the web is being loaded, the loop of the web will collapse and the web will fold upon itself as it enters the cartridge; means for supplying air through the nonporous walls to the inside of the cartridge when the web is being unloaded so that airflow out the mouth of the cartridge will draw the endless web out of the cartridge.

2. Apparatus of claim 1 wherein said first evacuating means comprises: vacuum ports through the back wall of the cartridge.

3. Apparatus of claim 1 wherein said first evacuating means comprises in addition: channels around the back and sidewalls of the cartridge.

7. A cartridge for loading and unloading a folded tape loop between the cartridge and a pneumatic chamber comprising: walls for containing the folded tape loop when the loop is stored in the cartridge; a first pneumatic passage through the back wall of the cartridge for supplying a vacuum to the back of the cartridge so that, when loading the tape loop, the first fold of the loop will be drawn to the back of the cartridge, and, when unloaDing the tape loop, the innermost fold of the cartridge is held at the back of the cartridge until the entire tape loop is withdrawn from the cartridge; a second pneumatic passage through the end walls of the cartridge for either supplying air or a vacuum, the air being supplied during unloading so that the tape loop will be drawn out the mouth of the cartridge and the vacuum being supplied during loading so that the tape loop will collapse and fold upon itself as it enters the cartridge.