EP0180059A2

EP0180059A2 - Print medium source selection

Info

Publication number: EP0180059A2
Application number: EP85112604A
Authority: EP
Inventors: Paul Richard Daniels
Original assignee: International Business Machines Corp
Current assignee: International Business Machines Corp
Priority date: 1984-10-31
Filing date: 1985-10-04
Publication date: 1986-05-07
Also published as: DE3585589D1; EP0180059A3; JPS61114940A; EP0180059B1; CA1233268A

Abstract

In an output printer for use in word processing or data processing applications an apparatus for handling a plurality of document types such as continuous forms and cut sheets is provided. In the present invention there is disclosed a user-friendly technique comprising interactive sequences of operator actions and hardware condition detection by the control logic for selecting the document type handling apparatus for a given print session.

Description

Technical Field

This invention relates to output printers for use in data or word processing environments which printers have a plurality of document type handling apparatus simultaneously resident therein. More specifically, this invention relates to a technique for operator selection of one of the plurality of resident document type handling apparatus.

Background Art

Output printers are known which have apparatus therein for handling several types of documents. For example, U.S. Patent 4,452,543 assigned to Florida Data Corp. shows feed'paths within the printer for manually fed cut sheets, automatically fed cut sheets, and marginally punched continuous forms.
Commonly assigned U.S. application Serial No. 617,763, filed 6 June 1984, having Parks et al as inventors discloses the integration of apparatus for three document types in the printer, each document type feed path sharing in part a common path to and past the print station.
Other printers such as the IBM 52XX series have apparatus for only one document type handling resident therein, individually fed cut sheets, and additional apparatus is required to be attached for handling continuous forms or automatic feeding of cut sheets or envelopes.
When a single document type handling apparatus is resident at any one time, it is fairly simple for printer control logic to determine processing required by sensing the document handling device physically installed. This method is not readily adaptable to printers where a plurality of document type handling apparatus is present. Providing a switch for document type selection is not the most desirable solution because of several disadvantages. Increased cost is one and arises from the cost of the switch itself as well as its associated hardware.
Another disadvantage relates to human factors usability considerations associated with requiring the operator to set a switch to correspond to the document type to be fed. A mismatch in switch setting and document type supplied could result in jamming conditions and possible loss of data. For example, if marginally punched continuous forms were to be fed but the switch was inadvertently set on automatic cut sheet feeding, feeding from the sheet feed would cause interference with the continuous forms. Therefore, it is desirable to have a technique which avoids these possible malfunctions associated with prior art teachings while providing a simple and, from a human factors standpoint, satisfactory man/machine interface. It is desirable, of course, in output printers of the type herein referred to to minimize the necessity of operator intervention during print sessions.
Disclosure of the Invention
The present invention provides a means for operator selection of document type feed apparatus which eliminates the requirement for a hardware switch and facilitates document feed type selection using normal operator action sequences. This document feed type selection technique utilizes components already standard in output printers. These components are a paper sensor near the print station and LOAD, START and STOP buttons on the control panel. Improved printer control logic is provided wherein the condition detected at the sensor in combination with operator initiated sequences are used to cause the correct document type to be advanced to the print station. Thus, a simple, inexpensive human factors positive method is presented for reliably feeding the desired document type using its associated handling apparatus coresident in the printer with a plurality of different document type handling apparatus.

Brief Description of the Drawing

A better understanding of the present invention will be
forthcoming from the following description made in conjunction with the accompanying drawing wherein:

Fig. 1 is a schematic diagram illustrating the multidocument- type handling apparatus coresident in a printer;
Fig. 2 is a flow chart of the steps performed by the control logic for deactivating automatic document feed apparatus;
Fig. 3 is a flow chart of the method followed by the control logic for initiating automatic document feeding;
Fig. 4 is a flow chart illustrating the steps followed by the control logic for conditioning the printer for accepting man- µally inserted documents;
Fig. 5 shows those steps followed by the printer control logic in suppressing unnecessary operator prompts.

Best Mode for Carrying Out the Invention

In current office environments it is often desirable to change the type of print medium on which printing occurs. At any time during the day there may be cut sheets or envelopes fed manually or automatically from a sheet feed device as well as marginally punched continuous forms and friction-fed roll forms. Each feed sequence requires some unique hardware involvement for implementation. To select the type of document handling apparatus to be activated requires that the printer control logic distinguish between automatic document feed operation, either of two types of continuous forms or manually fed documents. It is advantageous to have the control sequence for continuous forms and manually fed document operations be essentially the same since neither requires mechanisms or components other than for indexing past the print station, sensing paper presence, and load sequence activator.
Before proceeding with a description of the improved printer control logic, refer to Fig. 1 which is a schematic diagram of a printer having apparatus for handling a variety of document types resident therein. As used throughout this application, document type means cut sheets, continuous forms, marginally punched continuous forms for tractor feeding, enveiopes, etc. The print station comprises a printhead 2 which may be of any type and a platen 4. Immediately upstream of the print station is a pair of feed rollers 6 and 8. Rollers 6, 8 are manually positionable to contact the sheet or web passing therebetween. Exit feed rollers 10 and 12 are provided downstream of the print station. Immediately preceding entry to the nip formed by feed rollers 6 and 8 is a sensor 14 which may be of any conventional type.
Print receiving media follow path 20 indicated by the dotted line. The print media may be of any of several document types. Hopper 24 may contain one kind of cut sheets, hopper 26, a different size or kind of cut sheets or envelopes. At station 28, however, a different type of print medium source may be supplied, that is, it may be an entry point for manually inserted sheets, multipart forms, labels or envelopes, or in the illustrated setup, a roll of continuous forms whether marginally punched or not Not shown but well understood in the art are the document separator, advancing and guide means necessary to urge the document toward common path portion 20 along paths 30, 32 and 34, respectively, from the document supply areas 24, 26 and 28. One obvious difference between cut sheets, continuous webs, and marginally punched continuous webs is that the tractor feed, not shown in Fig. 1, requires that the feed rollers 6, 8 be released.
Control logic 40 represents the electronics for operating the printer. For simplicity's sake only the connection between the control logic, the paper sensor, the document type supplies 24, 26 and 28, and a control panel 44 are indicated by dotted lines in this figure.
The control panel 44 may have, among other buttons and displays, at least a LOAD button 46 for initiating movement of the document type from the selected source to the print station. A STOP button 48 is provided for halting a print operation. Also provided is START button 50. A message display area for communicating printer status to the operator is represented at 52.
The following description associated with Figs. 2-5 points out the simplicity of the inventive technique for minimizing operator steps needed to select print medium or document type by combining conventional operator supply replenishing steps with control panel button depressions to enable the feed apparatus associated with the desired print medium.
In this illustrative embodiment the printer control logic initializes the printer to the automatic document feed mode after power on. The automatic document feed mode may be overridden if the operator loads continuous forms or manually inserts sheets between the ejection of the last printed sheet and before the feed of the next. Once an override occurs in this manner, subsequent paper supply depletion conditions cause load paper prompts to the operator. This is what happens when automatic is not active. If automatic were active, a sheet would be fed automatically, following a paper out. with no need for an operator prompt.
If the printer control logic issues a load paper prompt and the operator presses START without loading paper, the current and subsequent sheets will be fed by the automatic document feed device. When the printer control logic senses a paper out condition after the last physical line on the sheet has passed the print station, it issues a load paper prompt during continuous forms feeding or manual document insertion. If the operator presses LOAD before getting a paper out message, the load paper prompt for continuous forms or manually loaded documents is bypassed provided paper was placed at the load position when the LOAD button was pressed and paper presence is sensed at the time the load paper prompt would be issued.
If the operator presses LOAD without having placed paper in the load position, that is, at the nip formed by feed rollers 6, 8 such that the presence of paper is not sensed by sensor 15 the printer control logic will load from the currently active automatic feed device. If the logic attempts an automatic feed and the active hopper is empty, as determined by the sensor not making within a predetermined time period, the logic issues a load paper prompt.
The feed type selected by the operator may at any time be overridden by a command in the host data stream. The override may result in an operator feed change prompt as needed.
As earlier noted, in the illustrative embodiment the printer is initialized to automatic document feed mode, therefore, positive action must be taken to select either of the continuous forms feed handling devices or manual document insertion mode. This action must be taken at a time when a feed is pending, i.e., between the ejection of the last page and the feed of the next page.
Automatic document feed is deactivated when the printer control logic senses the absence of paper followed by the presence of paper followed by a LOAD button depression followed by a continuation of paper presence at the sensor. Operator actions required to cause this sequence and to make a feed-type transition are the same as those actions normally needed for loading continuous forms or manually inserted documents.
When the feed is pending, the operator presses STOP, loads the document type, continuous forms, cut sheets, envelopes or the like by placing it against the feed rollers 6, 8 upstream of the print head 2 (Fig. 1), and presses LOAD. Finally, the operator presses START to continue printer operation. By the time the control logic is ready to execute the feed, it has already sensed the feed-type transition sequence and reverts to continuous forms or manual operation for subsequent pages until such time as the operator again selects automatic feed operation.
Referring now to Fig. 2, the deactivation of the automatic feed mode to which the system has been initialized will be described. The sequence commences at the start terminal 102 and continues with the determination at decision block 104 whether it is necessary to load paper at 104. That is, if paper has passed the print point, then more paper must be loaded before printing continues. If paper load is not required the condition is examined continuously until a paper load is required. At decision block 106 a determination is made whether the automatic feed mode is active. If it is not the system issues at 108 commands to process a load as if manually fed documents or marginally punched continuous forms are being used and proceeds to the end of the sequence at 110.
At this point, the operator must make a determination at 112 whether to deactivate the automatic mode. If not, a determination is made whether paper has been loaded and sensed at 114. If not, paper is loaded from the automatic feed source at 116. If paper has been loaded and sensed the automatic feed mode is deactivated at 118 and the routine terminates.
Returning to decision block ₁₁2, if the operator wants to deactivate the automatic feed mode, the STOP button must be depressed at block 120 before the automatic load cycle occurs. Then at step 122 the operator inserts paper and depresses first the LOAD button then the START button as indicated at step 124. The printer controls pick up again at decision block 114 and proceed as just described.
Referring now to Fig. 3, the sequence executed by the printer control logic 40 of Fig. 1 to activate automatic feed mode will be described. This sequence occurs when either continuous forms or manual insertion mode is active and is accomplished by the control logic sensing the absence of a document, entering the printer-not-ready state, reentering the printer ready state and again sensing document absence. The operator action required to cause this sequence is the depression of the START button without loading either continuous forms or manually inserting a document when the load paper prompt is issued. The control logic senses that the printer has entered the ready state with no paper loaded and feeds the current and subsequent pages from the automatic document feed hopper. The control logic causes documents to be fed automatically until such time as a feed-type transition sequence is sensed which overrides automatic operation.
From entry at the start terminal 130, a determination is made at test ₁32 whether a paper load is required. If not, the determination is made repeatedly until a positive response occurs. At decision block 134 a test is made whether the automatic feed mode is active. If yes, processing occurs at 136 for automatically fed documents and continues until the end 140.
If the automatic feed mode is not active, then at 142 the printer control logic causes the printer to go to a not-ready state and issues a load paper prompt. At this point the operator determines, as indicated at step 144, whether to activate the automatic feed mode. If not, the operator action required to achieve the desired result at 146 is to insert paper and depress LOAD button.
If the operator wants to activate automatic feed mode or if the operator has inserted paper and depressed the LOAD button, the operator then should depress the START button at 148. The control logic then tests at 150 to see if paper has been loaded and sensed. If yes, control branches to the end of the sequence. If not, at 152 the automatic feed mode is activated and documents are loaded therefrom.
Refer now to Fig. 4 for a better understanding of the transition to manual load from automatic feed mode. The switch to manual load from automatic fed mode is accomplished when the printer is in the not ready state. The control logic senses a LOAD button depression simultaneously with the absence of document at sensor ₁₄ (Fig. 1). The operator causes this condition by pressing the LOAD button without placing a document in the load position against the feed rollers 6, 8 upstream of print head 2. The control logic, on sensing paper absence, cycles the sheet feed device to cause a feed from the currently active source. This particular mode of operation does not cause transition to automatic document feed mode.
The sequence is entered at the start terminal 160 and a determination made at 162 whether a paper load is required. If not, the determination is made again as described with reference to Fig. 2. If a paper load is required, the controls determine at 164 whether the automatic feed mode is active. If it is, then at 166 the load is. accomplished in accordance with the procedure set out for automatic feeding and the routine is exited at terminal 170. If the automatic feed mode is not active, then the printer control logic enters the not-ready state at step 172 and issues a load paper prompt for the operator.
Step 174 represents the operator's determination whether to perform a manual load. If so, the operator must manually insert paper at step 176. In either event, at step 178 the operator depresses the LOAD button. The printer control logic checks the paper sensor at 180. If paper is present it issues the necessary cc.nr_hdnds to accept a manually inserted sheet at 182. If paper is not present at the paper sensor, then the control logic enters the default sequence for loading paper from the automatic document feed handling device at ₁84 and exits the routine at terminal 170.
Refer now to Fig. 5 for an understanding of how the improved printer control logic of the present invention suppresses load paper prompts. This is accomplished by a method quite similar to that used for selecting continuous forms or manual insertion mode. When the control logic senses that paper has already been loaded when it would ordinarily issue a load paper prompt, the logic bypasses the prompt and restarts printing without requiring additional operator intervention. This sequence allows the operator to stop the printer at a page boundary and load paper without waiting for a prompt, thereby enhancing throughput and improving operator human factors at the man/machine interface.
This sequence is entered at the start terminal 200 and, in the same manner earlier described, a query is made at step 202 whether a paper load is required. If not, the logic continues to cycle through that query. Once a positive response is sensed at step 204 the control logic determines whether the automatic feed mode is active. If so, the logic processes an automatic feed sequence at step 206 before it exits the routine at terminal 210. If the automatic mode is not active, the operator is given an opportunity to determine at step 212 whether it is desirable to suppress a prompt If it is not necessary to suppress the load paper prompt, normal operation continues with test at step 214 whether the operator has loaded paper and it has been sensed at sensor 14 (Fig. 1). If not, the printer control logic causes the printer to enter the not-ready state and issue a load paper prompt at 216 before exiting the sequence at terminal 210.
Returning now to decision block 212, if the operator does want to suppress a load paper prompt, then at step 220 the operator must depress the STOP button before the load paper prompt can be issued. At step 222 the operator then must insert paper and depress the LOAD button to ensure print continuation. At step 224 the operator depresses the START button and processing continues at decision block 214 as previously described.
While the invention has been described having reference to a particular preferred embodiment, it is, of course, understood by those skilled in the art that various changes in form and detail may be made without departing from the scope of the invention.

Claims

₁. A user-friendly method for operator interaction with an output printer for selecting a print medium source from a plurality of sources present in' the printer, each source having associated therewith means for conveying a print medium to the print station, comprising the steps of:

interpreting unique sequences of operator button depressions;

detecting print medium presence at the print station; and

actuating a conveying means in response to the interpreted sequence.

2. An interactive method of identifying to printer control logic which of a plurality of paper sources to activate comprising:

interpreting operator initiated control signals;

detecting the condition in the paper feed path to the print station; and

activating a paper source in response to the unique sequence of control signals interpreted and paper path condition detected.

3. A method of operating an output printer to print on one of a plurality of resident print media types comprising:

detecting paper path condition;

interpreting operator command sequences; and conveying a print medium to the print station in response to the command sequence interpreted.

4. A method of choosing one from a group of paper types available in a printer having limited operator inftiable commands comprising:

receiving a sequence of operator commands; sensing paper path condition upstream of the print station; and

initiating a paper feed responsive to the interpretation of the sequence received and condition detected.

5. The method of Claims 1, 2, 3, or 4 additionally including the step of

inhibiting messages to the operator ordinarily associated with subsets of the operator initiated commands in sequence with paper path condition.

6. Printer control logic system for paper selection from a variety of paper sources resident in a printer having limited operator interface commands comprising:

means for determining paper source currently in use;

means for sensing unique sequences of operator commands;

means for detecting whether paper is present in the feed path; and

means for initiating a feed from a particular source in response to the results of the determining and detecting steps in combination with the sensing step.

7. The system of Claim 6 additionally comprising: means for inhibiting messages prompting operator action usually associated with intermediate commands in the unique sequence.

8. A method of activating one of a plurality of print medium source handling devices resident in a printer having a control panel with START, STOP and LOAD command buttons requiring minimum operator interaction comprising the steps of:

sensing unique sequences of LOAD, STOP and START commands; and

detecting paper presence in the feed path to the print station.

9. A method of overriding default automatic cut sheet feeding mode and selecting from a plurality of other feed modes coresident in a printer comprising the steps of:

determining which paper source was last in use;

sensing a unique sequence of operator commands entered;

detecting feed path condition adjacent the print station; and

actuating the feed mode corresponding to unique sequence of commands sensed and the detected feed condition.

10. A method of improving user friendliness in selecting from a plurality of print medium sources available in an output printer having LOAD, START and STOP commands enterable from a control panel comprising: overriding a default print medium source selection by responding to unique sequences of commands entered in combination with condition detection at a predetermined location in the feed path.

11. A method of operating printer controls for print medium selection utilizing existing operator machine interface elements for providing additional functions comprising:

initiating feed operations in response to operator commands entered in timed sequence with the detection of the condition of a predetermined location in the feed path.