EP0093242B1 - Automatisches Kontrollverfahren für eine elektrophotographische Kopiermaschine - Google Patents

Automatisches Kontrollverfahren für eine elektrophotographische Kopiermaschine Download PDF

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Publication number
EP0093242B1
EP0093242B1 EP19830101748 EP83101748A EP0093242B1 EP 0093242 B1 EP0093242 B1 EP 0093242B1 EP 19830101748 EP19830101748 EP 19830101748 EP 83101748 A EP83101748 A EP 83101748A EP 0093242 B1 EP0093242 B1 EP 0093242B1
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Prior art keywords
procedure
machine
test
image receiving
sequence
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EP19830101748
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English (en)
French (fr)
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EP0093242A1 (de
Inventor
Clark Boman
Robert Clark Brannan
Billy Dorris Hyde
Michael Alfred Laliberty
Thomas Travis Underhill
Marvin Wedel
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International Business Machines Corp
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International Business Machines Corp
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    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03GELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
    • G03G15/00Apparatus for electrographic processes using a charge pattern
    • G03G15/55Self-diagnostics; Malfunction or lifetime display

Definitions

  • the invention relates to an automatic checkout procedure for an electrophotographic machine by which procedure several subsystems and features of the machine is automatically tested.
  • electrophotographic machines copies of documents or other subjects are produced by creating an image of the subject on a photoreceptive surface, developing the image and then fusing the image to copy material.
  • the electrophotographic process is of the transfer type where a photoreceptive material is placed around a rotating drum or arranged as a belt to be driven by a system of rollers.
  • photoreceptive material is passed under a stationary charge generating station to place a relatively uniform electrostatic charge, to a potential which is usually several hundred volts, across the entirety of the photoreceptive surface.
  • the photoreceptor is moved to an imaging station where it receives light rays reflected from the document to be copied.
  • the photoreceptive material Since white areas of the original document reflect large amounts of light, the photoreceptive material is discharged in white areas to relatively low levels while the dark areas continue to contain high voltage levels even after exposure. In that manner, the photoreceptive material is caused to bear a charge pattern which corresponds to the printing, shading, etc. present on the original document and is therefore, an electrostatic image of that document.
  • Electrophotographic machines may also be organized to provide a printing function where the image on the photoreceptive surface results from character generation rather than from an optical review of an original document.
  • Character generation may be produced, for example, by driving a light generating source from information held in digital memory.
  • the generating source may be a laser gun, an array of light- emitting diodes, light modulators, etc. which direct light rays to the photoreceptor and cause it to bear a charge pattern which is an image of the information used to drive the generating source.
  • the next step in the process is to move the image to a developing station where developing material called toner is placed on the image.
  • This material may be in the form of a black powder which carries a charge opposite in polarity to the charge pattern on the photoreceptor. Because of the attraction of the oppositely charged toner, it adheres to the surface of the photoreceptor in proportions related to the shading of the original. Thus, black character printing should receive heavy toner deposits, white background areas should receive none, and gray or otherwise shaded half-tone character portions of the original should receive intermediate amounts.
  • the developed image is moved from the developer to a transfer station where a copy receiving material, usually paper, is juxtaposed to the developed image on the photoreceptor.
  • a charge is placed on the back-side of the copy paper so that when the paper is stripped from the photoreceptor, the toner material is held on the paper and removed from the photoreceptor.
  • the transfer operation seldom transfers 100% of the toner from the receptor to the copy paper.
  • Toner remaining on the photoreceptor after transfer is called residual toner.
  • the remaining process steps call for permanently bonding the transferred toner material to the copy paper and cleaning the residual toner left on the photoreceptor so that it can be reused for subsequent copy production.
  • the cleaning step it is customary to pass the photoreceptor under a preclean charge generating station to neutralize the charged areas on the photoreceptor.
  • the photoreceptor may also be moved under an erase lamp to discharge any remaining charge. In that manner, the residual toner is no longer held by electrostatic attraction to the photoreceptive surface and thus it can be more easily removed at a cleaning station.
  • the cleaning station In order to avoid overburdening the cleaning station, it is customary to remove all charge present on the photoreceptive surface outside of the image area prior to the development step. This is usually done by using an interimage erase lamp to discharge photoreceptive material between the trailing edge of one image and the leading edge of the next. Also, erase lamps are used to erase charge along the edges of the photoreceptor outside of the image area. For example, if the original document is 21.6x27.9 cm in size, and if a full sized reproduction is desired, the dimensions of the image on the photoreceptor will also be 21.6x27.9 cm. The interimage and erase lamps remove charge outside of the 21.6x27.9 cm image area.
  • a common variation on the above-described process used in many electrophotographic machines involves the use of specially prepared paper where the copy paper itself carries a coating of photosensitive material. By utilizing that technique, the image is electrostatically painted directly on the copy paper. The copy paper is sent through a developer and then to a fuser for permanent bonding. Machines of this type avoid the residual toner problem and therefore there is no need for cleaning stations, erase lamps, preclean generating coronas, etc.
  • the resulting copy paper with its special photosensitive coating is much more expensive than plain bond copy paper and the special coating is considered to detract from the resulting product. As a consequence, coated paper machines are usually favored only for low volume applications or where quality product is not essential.
  • SADF semiautomatic
  • ADF automatic document feed devices
  • Collators are often added to the base machine so that collated sets of copies can be automatically produced.
  • Many machines have a duplex feature so that copies can be produced on both sides of the copy sheet.
  • Other features add to machine versatility such as the production of copies which are a reduced or magnified version of the original document.
  • Other features improve copy quality such as mechanisms for controlling the concentration of toner in machines which utilize a carrier/toner development mix.
  • Many modern electrophotographic machines are controlled by microprocessors rather than by hardwired analog or digital logic.
  • microprocessors have enabled the addition of many new innovative functions at low cost such as, for example, error logs and automatic diagnostic capabilities to ease troubleshooting and improve maintenance.
  • Microprocessor routines have also aided in the establishment of a degree of "artificial intelligence" to anticipate the operators need on document feed operations, collate, and other areas. Additionally, microprocessors have made economical the addition of innovative functions such as the provision of separator sheets between different sets of copies within a collator.
  • the basic electrophotographic machine involves the interaction of several important subsystems to produce a copy sheet or print and several other. subsystems which control copy quality or which provide convenience functions.
  • the modern electrophotographic machine whether used as a copier or as a printer, can be a very complex amalgam of subsystems and features. Any one or more of these subsystems can gradually come to operate in a degraded fashion with the result that degraded copy quality begins to become apparent.
  • one subsystem degrades more rapidly than others with the consequence that maintenance personnel are led to the improperly functioning subsystem and after fixing that problem, move on to other machines.
  • other subsystems may also be in the process of gradually degraded operation and after a period of time, maintenance personnel will be back to remedy these subsequent problems.
  • US-A-4..162.396 discloses a semiautomatic procedure for separately addressing and independently exercising individual machine functions in a cyclically operable electrophotographic copying machine for maintenance purposes.
  • Automatic means within the machine responds to control panel actuations to select one of a plurality of maintenance modes wherein the operator has close control over the selected machine functions via control panel actuations. All functions of the copying machine may be separately tested by the machine operator, the one after the other.
  • the semiautomatic procedure needs close machine operator intervention during the entire test period.
  • the present inventions is a maintenance tool carried within the control mechanism of an electro-photographic copy or print machine to enable the machine to automatically cycle through a series of distinct jobs to conduct an automatic test of the major functional areas of itself in a sequential fashion thereby producing test sheets or copies for each distinct job which can be visually inspected to determine the proper functioning of each of the several subsystems and features tested.
  • the automatic testing process is related to the IBM Series III Copier/Duplicator and includes a test of features such as the document feed, the collator, the alternate paper bin, the duplex, the reduction function, the separate function, and subsystems such as a shutter used for toner concentration control, the erase lamps, the magnetic brush developer voltage bias control, and the charge corona grid voltage bias control.
  • the advantages offered by the invention are mainly that a tool has been created through which the ordinary machine user as well as maintenance personnel can ascertain the proper functioning of each of the major functional areas of the machine by instituting a series of distinct jobs within an automatic testing operation carried out by the machine itself to produce copies, each of which show information about a specific subsystem or function.
  • maintenance personnel when called to correct a malfunctioning portion of a machine, they can, once the major problem is fixed, easily check the other major functional areas of a machine in order to ascertain any developing problems.
  • the automatic test procedure of this invention has another major benefit where machines are located in remote geographic areas.
  • the invention herein described makes it possible for the ordinary machine user of a remotely located machine to cause the machine to test itself and produce test sheets or copies showing the functioning of each of the major functional areas of the machine.
  • the user of the machine in the remote location can send the test copies to an expert, or can telephone a distant expert, describe the results of the test and receive directions to correct the improperly working subsystems without the need for dispatching special maintenance personnel to the remote location.
  • Fig. 1 shows a perspective view of the IBM Series III Copier/Duplicator.
  • Control tower 10 contains a set of keys or buttons 11 which may be selected by an operator to instruct the machine to perform various functions.
  • this set of keys contains a push button for a first reduction mode, another for a second reduction mode, one for the duplex operation, one for collate, another for separate, buttons for a light copy or dark copy mode, and others.
  • the numbers of copies to be made is selected by the operator from the push buttons 12 with the number selected appearing in numeric display 13.
  • Control tower 10 also contains a start button 14 and a stop reset button 15. Messages to instruct the operator to take corrective action appear in the area 16.
  • Fig. 1 also shows a tray 17 for the automatic document feed.
  • a stack of original sheets may be fed one at a time automatically from this tray to the document processing station.
  • Tray 18 is provided to accept sheets from the hand of the operator one at a time for semiautomatically feeding sheets to the processing station. After processing, the original documents are exited into an area 19 and the finished copy sheet is exited into a tray 20.
  • Fig. 1 does not show a collator module with the machine.
  • Fig. 2 is a diagrammatic front view of the automatic document feed/semiautomatic document feed (ADF/SADF) used with the Series Ilt Copier/Duplicator.
  • ADF/SADF automatic document feed/semiautomatic document feed
  • a stack of original documents is placed on the ADF tray 17 and pushed forwardly under a sheet feeding means 21 to a gate 22.
  • gate 22 drops out of the way and original documents are fed one at a time by the paper feeding wheel 21 into nip rollers 24 and 25.
  • the feed wheel 21 is lifted from the top surface of the first sheet and nip rollers 24 and 25 are halted.
  • rollers 24 and 25 are reenergized to feed the first sheet through turnaround guides 26 and 27 to aligning rolls 28 and 29, pinch rolls 30 and 31A, and onto document glass 34.
  • the original document is moved across document glass 34 under the influence of rollers 31, 32, and 33 which bear against the top of the document, as it moves across the glass to its registration position at exit gate 38 where it is held stationary during the copying operation.
  • feed wheel 21 is lowered onto the stack of documents for feeding the second sheet from the top of that stack through nip rollers 24 and 25 until the leading edge reaches photosensor 26. At that time, feed wheel 21 is lifted from the top of the stack and nip rollers 24 and 25 are deenergized.
  • the second sheet remains in that staged position until completion of the copying of the first sheet.
  • exit gate 38 drops and the first sheet is exited past photosensor 35 into the exit area 19.
  • nip rollers 24 and 25 are reenergized and the second sheet is fed to the processing position on document glass 34.
  • the operator places a document onto tray 18 and inserts that document into the vicinity of photosensor 36 which energizes alignment rolls 28 and 29.
  • the alignment rolls take the paper from the operator's hand and move it to entry gate 37.
  • entry gate 37 is dropped and the paper is fed to document glass 34 by the aligner rolls, by pinch rolls 30 and 31A, and across the document glass by rollers 31,32, and 33 to the registration position at exit gate 38, where the document is held stationary during the copying operation.
  • exit gate 38 drops and the document exits past the exit sensor 35 into the exit area 19.
  • Fig. 3 is a drawing taken from US-A-4,170,414, referenced above, which shows the copy paper path (CPP) of the Series III Copier/ Duplicator. Note that in this figure, two collator modules 114B and 114C have been attached to the basic operating unit.
  • a drum 120 rotates in a direction A past a corona generator 121 which places a relatively uniform charge across the photoreceptive surface of the drum. Rotation of the drum brings the charged photoreceptive surface past an imaging station 122 where the image of the original document is placed on the photoreceptive surface.
  • Erase lamps 130E erase the charged area of the photoreceptor outside of the defined image area.
  • the image is developed by developer 125 and transferred to a sheet of copy receiving material under the influence of transfer corona 126.
  • the photoreceptive surface continues to rotate to cleaning station 130 where the photoreceptor is cleaned and prepared for the next copying operation.
  • an original document is placed at a processing station 111 either manually, by an automatic document feed, or by a semiautomatic document feed as described above.
  • the image of the original document is taken by scanning the original document through an optics module 112 which is fully described in US-A-3,897,148 named above.
  • Copy receiving material is located in bins 135 and 154 and is fed from either one of those bins into the copy paper path 127 to gate 128.
  • gate 128 releases the copy sheet so that it can be moved through transfer station 126 to receive an image from the rotating drum 120.
  • the copy paper continues through fusing rolls 131 to the exit tray 114A or into one of the two collator modules 114B or 114C. Should the duplexing function be selected, the copy sheet will be diverted by gate 142 into duplex bin 140 from which it is fed back into the copy paper path to receive the image of an original on the opposite side of the sheet.
  • Fig. 4 is a drawing taken from US-A-4,216,955 to explain the functioning of the collator.
  • a paper entering the collator along the path 127 is directed along path 216, over closed gate 217, through throat 227, along the belt 228, and into the traveling distributor or vane 230 which sends the paper into the selected collator bin.
  • gate 217 is open and the entering paper sheet is redirected into the inverter 224 before being fed through the throat 227 into the collator bins.
  • One of the notable features of the IBM Series III Copier/Duplicator is the separate function described in US-A-4,285,591. This function may be used if successive jobs are to be run on the machine using the collator or the exit pocket but it is desired to avoid removing the jobs until all of them are finished. Thus, for example, a first job utilizing 21.6x27.9 cm copy paper is run placing sheets in the first five bins of the collator shown in Fig. 4 and then, at the end of that job, a separate sheet, that is, a sheet from the alternate paper bin, is fed into each one of the five bins.
  • sheets from the alternate paper bin may be, for example, a legal size sheet, 21.6 ⁇ 35.5 cm
  • this "separate" sheet would clearly set apart the first job from the second collate job.
  • the separate sheet may be run at the close of the first job in which case it is called a trailing separate sheet or at the beginning of the second job, at which time it is called a leading separate sheet. Whether a leading or a trailing separate sheet is run depends upon the time at which the operator pushes the separate button. If the button is pushed during running of the first job, a trailing separate sheet is provided. If the separate button is selected with the setup of the second job, a leading separate sheet is provided.
  • a voltage difference 800-300 of 500 volts is available for creating the electrostatic field which aids in the deposition of toner on the undischarged areas of the photoconductor.
  • This voltage may be termed the black vector.
  • a voltage difference 150-300 of -150 volts appears thus creating an electrostatic field in the opposite direction designed to prevent the deposition of toner in the discharged areas.
  • This voltage may be termed a white vector. It is easy to appreciate that by altering the magnetic brush bias level from 300 volts to 400 volts, the white vector producing diminished background is increased while the black vector is decreased.
  • the copy will be lighter than it would at the normal setting. Conversely, by reducing the magnetic brush bias level from 300 volts to 250 volts, the resulting copy would be darker than normal.
  • the "lighter copy” button causes an increase from normal in magnetic brush bias voltage while the “darker copy” button causes a decrease.
  • Another feature selectable by the operator is the reduction feature which, in the case of the Series III Copier/Duplicator, has a first setting of approximately 75% reduction and a second setting of approximately 65% reduction.
  • Some Series III machines contain an automatic billing feature which involves keying a user code into the machine through buttons 12, Fig. 1. Until a recognizable user code is keyed into the machine, the copier will not operate. When it does operate, a counter of the copies made is accumulated for that particular user code.
  • This feature called the copier control feature (CCF) is described in the IBM Technical Disclosure Bulletin mentioned above.
  • timing signals are derived with reference to drum position and synchronized therewith. For example, start of scan occurs at a unique timing cycle, the shutter for forming a test patch is moved into position at a unique timing cycle, erase lamps are turned on and off at unique cycles, etc.
  • MTE machine timing events
  • EC simply event counts
  • the invention to be described herein automatically cycles through a series of distinct jobs to automatically perform a checkout of all of the operator selected functions mentioned above and the subsystems involved in accomplishing those functions; that is, the document feed, the collator, the alternate paper bin, the separate function, the duplex function, the light, normal and dark copy, and the reduction function.
  • the automatic checkout procedure also automatically cycles through another series of distinct jobs to exercise certain other subsystems of the machine which operate without selection by the machine operator. These are the shutters used in the toner concentration control subsystem, the erase lamp subsystem, and the charge corona subsystem.
  • the inventive procedure cycles through both of these sets of jobs, when initiated, without intervention by the machine user.
  • a carrier material and a toner material are mixed together so that the toner material receives a charge opposite in polarity to that which is present on the photoconductor.
  • charged toner is attracted to undischarged areas of the photoconductor so that the image is developed.
  • toner is used up within the carrier/toner mixture and periodically the toner must be replaced in order to keep the carrier/toner mixture to a value which keeps the development of the images relatively consistent with time.
  • Series III Copier/Duplicator a technique is used whereby a patch of charge is produced on an otherwise completely discharged photoconductor.
  • the patch is then developed and a reflectivity sensing measurement is taken to determine whether the concentration of toner was proper.
  • a system for accomplishing this toner concentration control technique is fully described in US-A-4,183,657. See also IBM Technical Disclosure Bulletin, Oct. 1978, for a description of the shutter blade which is used in generating the test patch.
  • the procedure provides an option of completely zeroing the machine error log.
  • a "0" must be entered into the numeric display and the start button pushed. If this is not done, only the last failure code will be zeroed when the start button is pushed.
  • Zeroing the error log is used to highlight any occurrences of "soft" failures during the automatic checkout run.
  • a "soft" failure is an error that increments the error log but does not cause the copier to shut down; for example, if a copy sheet fails to feed out of the paper bin, a retry is executed and a hard failure, i.e., a machine shutdown, occurs only if the retry is unsuccessful.
  • the automatic test procedure When the start button is pushed, the automatic test procedure turns off all the control panel lights, zeros the last failure code, zeros the error log if it has been requested, and automatically sets up the first job for the first functional test.
  • the maintenance personnel must then close the open copier or collator door and enter two master documents into either the ADF or the SADF and upon feeding of the first master, the automatic test procedure begins to operate and continues without further operator assistance throughout all of the separate jobs required to perform the variety of tests included in the procedure.
  • the first test to be performed is a test of the collator and in doing so a "3" or “6" is automatically entered into the numeric display, a "3” if the machine has one collator module and a "6" if the machine has two modules.
  • the collate feature button is automatically selected and the test begins. If no collators are attached to the particular machine under test, then the test procedure will automatically sequence to the next functional test.
  • the host machine will index the first original onto the document glass and run three copies for the first collator module.
  • the test procedure will then cause a skip to the second collator module and three more copies are made and sent to that module.
  • the traveling distributor or vane 230 Fig. 4
  • the traveling distributor or vane 230 is caused to index downwardly in each of the collator modules depositing one copy in each of the first three bins thereof.
  • the first master is indexed off of the document glass and the second is indexed on. Three more copies are made and sent to the second collator module so that the traveling distributor or vane mechanism 230 indexes upwardly from bin 3 to bin 1. In that manner, proper indexing of the vane in both down and up directions is tested. Three more copies are made to test the upward indexing of the vane in module one.
  • test procedure automatically moves on to a second job wherein there is an automatic selection of the duplex feature and a "1" is entered into the numeric display to indicate the number of copies to be made.
  • a duplex "side one" copy is run and then flushed from the duplex tray into the first collator module. In that manner, a check is performed on the collator inverter gate 217, Fig. 4.
  • each of the collator traveling distributors or "vanes" should be in the home position and all copies in the collator bins should be facing in the same direction. Through visual inspection, the maintenance personnel or machine user can determine that the collator has operated properly.
  • the test procedure Upon completion of the collator test, the test procedure automatically moves on to still another job wherein there is entered a "1" into the numeric display and the duplex feature, the alternate paper bin, the separate feature, and the reduce "1" feature are automatically selected.
  • reduce 1 is selected only when the copier is a reduction machine.
  • the procedure runs a job with a leading separate sheet fed from the alternate paper bin followed by one duplex copy fed from the alternate paper bin.
  • the separate sheet fed from the paper bin is placed into the exit pocket of the copier and the duplex sheet fed from the alternate paper bin receives an image of the original and is deposited in the duplex bin. That sheet is then fed out of the duplex bin to receive a side two copy from the same master. The copy is then fed into the exit pocket of the copier where it is deposited over the separate sheet.
  • the test procedure then automatically moves on to still another job wherein the reduce "2" feature is selected, the alternate paper bin is deselected, and the separate feature turns off in a normal manner without special intervention by the test procedure.
  • One duplex copy is then run from the primary paper bin with a side two again made from the same master.
  • the "separate" feature is automatically reselected causing the feeding of a trailing separate sheet from the alternate paper bin upon the conclusion of creating the duplex copy. Both the duplex copy and the trailing separate sheet are fed into the exit pocket of the copier with the separate sheet deposited over the duplex copy.
  • test procedure has involved the proper operation of either the automatic document feed or the semiautomatic document feed in order to move the original masters onto and off the document glass and has checked out the operation of the collator, the primary paper bin feed, the alternate paper bin feed, the duplex paper bin feed, the operation of all components associated with the papef path and image formation, the duplex feature, the separate feature including both leading and trailing separate sheets, and both reduction mode features.
  • the next test to be performed involves running a job with one copy from the primary paper bin to check the operation of the toner concentration control shutter mechanism. This check is performed by activating the shutter through a portion of the image area of the copy being made. This causes the copy to exit with a black patch located thereon if the shutter is operating properly. By visual inspection of the copy, proper operation is determined.
  • the next job checks the erase lamps by automatically entering a "1" into the numeric display and by automatically selecting light copy and alternate paper feature buttons.
  • the run automatically begins, the document lamp is turned off in order to image an all black copy.
  • the interimage erase lamp is turned on together with the edge erase lamps so that a white leading edge is produced on the copy sheet.
  • the interimage lamp is turned off and the edge erase lamps are sequenced off to produce a stair-step image on the output copy.
  • paper is picked out of the alternate paper bin since the alternate paper bin oridinarily contains legal size paper. If legal size paper is not in the alternate paper bin, instructions for use of the procedure call for placing such sheets in the bin prior to beginning the automated test procedure.
  • the next test is automatically entered by placing a "2" into the numeric display and running two copies each with the light, normal and dark magnetic brush bias levels selected. Visual inspection of these copies will determine that these features operated properly.
  • the last procedure to be performed involves a test of the charge corona grid levels.
  • the procedure automatically enters a "2" into the numeric display and then runs two copies each at the three grid levels which are used in the operation of the Series III Copier/Duplicator. Visual inspection of the resulting copies will show that the grid level did change appropriately during the test procedure.
  • test procedure automatically calls for a blinking of the interimage erase lamp so that a white erase stripe appears across test copies. This occurs on all test copies with the exception of those made during the shutter and edge erase lamp functional tests. In that manner, the operation of the interimage erase lamp is checked and in addition, the test copies are all identified.
  • Figs. 5 through 24 show a detailed flowchart of the microcode used to perform the procedure on the Series III Copier/Duplicator.
  • the procedure incorporates steps that are particular to the Series III Copier/Duplicator machine and to the particular processor used therein and therefore involves steps not of general interest or pertinent to the inventive test procedure.
  • Most of those peculiarities of the particular implementation have been restated in the flowcharted procedure in generalized form so that the inventive procedure can be described in a clear and concise manner.
  • the main routine is shown in Fig. 5, comprised of Figs. 5A through 5F and is basically a housekeeping and setup routine to make sure that everything is in proper order for the automatic checkout procedure to be run.
  • the inquiries of Fig. 5 result in finding everything in order so that the procedure runs without unnecessary branches.
  • the procedure of Figs. 5A-5F is periodically checked by the machine processor to determine whether or not the test procedure is to be run, or if running, what is the next step.
  • Figs. 5-24 reference can be made to the Tables below for an explanation of the acronyms used.
  • step 301 Entry by the processor is at block 300 on Fig. 5A and a consideration is made in step 301 whether the document feed lid is open. Assuming the document feed lid is closed, a query in step 302 determines whether the lamp test is on or off and whether any error messages are present in addition to those error messages which are expected, i.e., door open and low paper. If the answer is negative, a query is made as to whether the stop button is active at step 303. If it is not, then the "automatic checkout abort" flag is checked at step 304. If the abort flag is off, the procedure follows to Fig. 5C where at step 305 the processor checks to see if the "automatic checkout mode only selected" flag is active.
  • step 322 the flag is inactive causing a branch to step 322 for a check of the "automatic checkout running" flag.
  • This flag is also off at this point causing a branch to step 3220 for a query as to whether the automatic checkout mode entry procedure has been performed, i.e., has a door been opened and have the three buttons been pushed simultaneously as explained above.
  • the routine will continue to loop to step 3220 until the query is answered affirmatively.
  • Step 3221 is then performed to ascertain whether any copies are present in the duplex tray-if so, they must be flushed before the procedure can continue.
  • a query is made at step 3222 to ascertain whether the "copier end of job" flag is active.
  • step 3222 Assuming that all conditions are in readiness, the query at step 3222 is answered affirmatively, all of the control panel lights are turned on at step 3223, and an "888" appears on the numeric display at step 3224. The latter step also inhibits the timeout of information keyed into the control panel and activates the "automatic checkout mode only selected" flag.
  • step 300 causes a branch to step 306 for an activation of the copier control feature since, in a machine with this feature, copies cannot be run unless a recognizable code number is keyed into the machine.
  • Step 306 performs an effective sign-on.
  • the query is whether the lamp test mode is active. If the operation is proceeding smoothly, the lamp test mode testing all error messages on the display port will be active and a new copy selection will be available to the machine operator at step 308. This enables the operator to enter a "0" and zero the error log, if desired.
  • step 309 the processor query of the "start button integration" flag will show it to be inactive and cause a branch to step 310 where a query of the "automatic checkout start button selected” flag will receive a negative answer causing a branch to step 311 where an open copier door causes the routine to continue to loop back to this step until the operator presses the "start” button.
  • a branch is made at step 309 to the "Start Button Selection Procedure" at step 3091.
  • the Start Button Selection Procedure is shown and provides for a zeroing of the error log if the operator has so selected.
  • This subroutine also turns off the control panel lights and determines whether there is no collator module, one collator module, or two collator modules attached to the machine under test. If there is no collator, the "first test end" flag is set causing the collator test to be skipped; if one collator module is attached, a copy select value of "3" is entered and if two collator modules are attached, a copy select value of "6" is entered. If there is no collator module, the "Feature Selection Procedure" of Fig. 19 is called at step 312 and with reference to Fig. 19, the copier is then automatically set up to perform a duplex function test, skipping the collator test.
  • the "Collator Feature Selection Procedure” is called at step 313 or step 314.
  • This subroutine is shown in Fig. 20 and involves automatically selecting the collate feature and loading into the numeric display the proper number of copies to be made.
  • step 309 the query is now negative since the "start button integration" flag has now been reset at step 3090.
  • step 310 the query as to the "start button selected” flag will now be answered in the affirmative since that flag was set active during the Start Button Select Subroutine Fig. 7A.
  • step 316 usage data collection will be inhibited since the operation of the automatic checkout procedure should not cause any usage data collection for which the user of the machine may be billed. In this manner, the checkout procedure is run without cost to the owner or user of the machine.
  • step 317 Fig. 5F, a query is placed as to the positioning of the lens for the reduction feature. Assuming that the lens is in proper position and at step 318, that all copier doors are now closed, step 319 determines whether the copier run mode is active. Copier run mode will only become active after the operator has initiated a document feed. At that time, the host machine will have begun to enter the first document onto the document glass and this query will be affirmative causing a branch to step 320. At step 320, it is determined that there is a collator module present on the machine and therefore the "skip collator test" flag is off.
  • step 321 the "automatic checkout running” flag is activated, the "run started” flag is activated, and the “test one” flag (collator test) is activated. Also, the "automatic checkout mode only selected” flag is reset and the “automatic checkout start button selected” flag is reset. Return is made through step 300 to step 305 where the "automatic checkout mode only selected” flag has now been reset and the branch is taken to step 322 where the "automatic checkout running” flag is active causing a branch to step 323 on Fig. 5D.
  • step 325 the "Automatic Mode Test” is called.
  • This test begins on Fig. 6A and at step 326, the toner patch sampling procedure is inhibited, billing meter counts are inhibited, and usage data collection is inhibited.
  • the processor queries the "automatic checkout test completed” flag at step 327 and finds it off, causing a branch to step 328 to check the "automatic checkout test 7" flag which will be found inactive.
  • steps 329 through 331 will find other test flags inactive causing a branch to step 332 on Fig. 6B which calls the "Stripe Procedure" shown in Fig. 23.
  • step 333 Fig. 23, it will be found that the duplex flush and separate jobs are not in progress and the original is being scanned, causing a branch into the stripe procedure for turning on the interimage erase lamp if the image area is at a certain position and turned off when the image area has advanced a brief distance.
  • the result of this subroutine is to blink the interimage erase lamp during the passage of the image area so that a white stripe appears across the middle of each of the copies made during the collate test procedure.
  • the processor After completing the stripe subroutine, the processor returns to Fig. 6B for a test of the "automatic checkout test 3" flag, the "test 2" flag, and the "automatic checkout running” flag at steps 336 through 338. At this point in the procedure, the processor will find the "automatic checkout running” flag is active at step 338 causing a branch to step 339 where the "First Automatic Test Procedure" is called.
  • Fig. 8A provides a description of the First Automatic Test Procedure with the first query at step 340 a determination that test 1 has not yet been completed, causing a branch to step 341 where it is determined that the copier run mode is active causing a further branch to step 342 for a query of whether the duplex feature is active.
  • test 1 it is not active and a branch is made to step 343 in order to determine when the second master has been fed to the document glass at step 3430, Fig. 20.
  • the answer is no since the machine is in the process of producing copies from the first document. Therefore return is made to step 343 for entry into step 345, Fig. 8C.
  • step 3430, Fig. 18, is executed, the query is answered in the affirmative causing the "first document feeder exit" flag to be activated at step 344.
  • step 345, Fig. 8C the query concerning copier run mode is answered in the negative. This occurs after the host machine has completed the production of copies for indexing the vanes of each module back to the home position. At this time, bins 1-3 of each module contain two copies each.
  • step 341 When step 341 is answered in the negative, a branch is taken to step 346 on Fig. 8B where the "first document feeder exit" flag is now found to be set active causing a branch to step 348.
  • the duplex feature is off at step 348 causing a branch to step 349 where the duplex feature is selected, a "1" is loaded into the number of copies desired display and the "copier start request” flag is activated so that the second job can now be started in order to complete the first test, i.e., the collator test.
  • step 300 Return is made through step 300 to step 342 where the query concerning selection of the duplex feature is now answered in the affirmative setting the "duplex side 1 started" flag.
  • step 341 concerning copier run mode is answered in the negative causing a branch to step 348, to step 350, and to step 351 where the "duplex flush mode" flag and the "end of test 1" flag are activated.
  • step 352 After return to step 340 through step 300, a branch is now taken to step 352, to step 353, and into a loop until the flush operation producing a side 2 on the duplex copy is complete.
  • a branch is taken at step 352 to step 354 and onto step 355 for calling the "Feature Selection Procedure", Fig. 19.
  • This subroutine deselects the collate feature and sets up the machine for running the next job which begins the second test, which is for duplex, separate, alternate paper bins, and reduction.
  • step 356 the "automatic checkout test 2" flag is activated and return is made through step 300 to the Automatic Mode Procedure at step 337, Fig. 6B.
  • a branch will be made at step 337 to call in the "Second Automatic Test Procedure" at step 357.
  • This subroutine is shown in Figs. 9A and 9B to run in duplex mode with a leading separate sheet from the primary paper bin.
  • return is made to the Automatic Mode Procedure where a branch is made at step 336 to call for the "Third Automatic Test Procedure” shown in Fig. 10.
  • Operation of this subroutine checks the proper operation of a trailing separate sheet which is fed from the alternate paper bin.
  • a return is made to the Automatic Mode Procedure and on this trip through the procedure a branch is made at step 331 to call in the "Fourth Automatic Test Procedure" shown in Figs. 11A and 11 B.
  • This test will activate the shutter mechanism to produce a patch on the middle of a copy sheet thus checking the proper operation of the shutter.
  • return is made to step 330 for a branch into the "Fifth Automatic Test Procedure" in Fig. 12A.
  • the document lamp is turned off and all of the edge erase lamps are turned on and then sequenced off in order to produce a copy which shows the proper operation of the edge erase lamps.
  • return is made to the Automatic Mode Procedure where a branch is made at step 329 to call in the "Sixth Automatic Test Procedure" shown in Fig. 13.
  • the lighter copy, normal copy and darker copy features are sequentially selected and copies are produced for each selection before branch is made back to the Automatic Mode Procedure in Fig. 6A.
  • a branch is taken at step 328 for calling in the "Seventh Automatic Test Procedure".
  • a branch is made to Fig. 14A where various grid voltage levels associated with the charge corona grid are set and copies produced at each grid voltage level.
  • the "automatic checkout test completed" flag is activated, creating a branch at step 327, Fig. 6A, to step 370 where, when all copier running is completed, a branch is taken to step 371 for calling in the "Automatic Test Exit Procedure" shown in Fig. 15A.
  • This subroutine is another housekeeping routine which eventually returns the machine to a user ready condition by calling the subroutine shown in Fig. 21.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Control Or Security For Electrophotography (AREA)
  • Testing And Monitoring For Control Systems (AREA)

Claims (14)

1. Automatisches Kontrollverfahren für eine elektrofotographische Kopiermaschine mit einer Kontrolltafel, auf der Tasten für die Wahl von Betriebsparametern angeordnet sind, die die Auswahl insbesondere der Zahl der anzufertigenden Kopien gestatten, wobei der Verfahrensschritt eines automatischen Prüfens auf einen Eingangscode vorgesehen ist,
dadurch gekennzeichnet, daß.
nach dem Finden des genannten Codes automatisch eine Reihe von bestimmten Tätigkeiten durchlaufen werden, um automatisch eine Kontrolle aller Maschinenfunktionen einschließlich des Tests einer Reihe von Funktionen durchzuführen, die gewöhnlich durch die Bedienungsperson auf der Kontrolltafel gewählt werden, wie die Funktion des doppelseitigen Kopierens, sowie eine Reihe weiterer Funktionen, die ohne den Eingriff der Bedienungsperson durchlaufen werden, wie die Lampenlöschfunktion, daß
automatisch die Betriebsparameter gewählt werden, die normalerweise manuell für jede aufeinanderfolgende Arbeit gewählt werden, und daß
entwickelte Bilder auf Bildempfangsbögen erzeugt werden.
2. Verfahren nach Anspruch 1, bei dem die Arbeitsfolge die Wahl einer Sorter-Funktion und den Schritt des Einbringens von Bildempfangsbögen in wenigstens einen Teil der Sortierfächer umfaßt.
3. Verfahren nach Anspruch 2, bei dem die Maschine eine Vielzahl von Sortierermodulen aufweist und das Verfahren den Schritt des Einbringens von Bildempfangsbögen in wenigstens einen Teil der Fächer in jedem der Vielzahl der Sortierermodule umfaßt.
4. Verfahren nach Anspruch 1, bei dem die Arbeitsfolge die Auswahl einer Trennfunktion und den Schritt des Erstellens von Trennblättern vor oder nach dem Einbringen der genannten Bildempfangsbögen einschließt.
5. Verfahren nach Anspruch 1, bei dem die Arbeitsfolge die Auswahl der Funktion des doppelseitigen Kopierens und die Auswahl des Erzeugens entwickelter Bilder auf Bildempfangsbögen mit Bildern auf beiden Seiten der genannten Bögen umfaßt.
6. Verfahren nach Anspruch 1, bei dem die Arbeitsfolge die Auswahl der Verkleinerungsfunktion und den Schritt des Erzeugens verkleinerter entwickelter Bilder auf den Bildempfangsbögen umfaßt.
7. Verfahren nach Anspruch 1, bei dem die Arbeitsfolge die Auswahl einer alternativen Papierkassette und die Erzeugung entwickelter Bilder auf Bildempfangsbögen aus der genannten alternativen Papierkassette umfaßt.
8. Verfahren nach Anspruch 1, bei dem die Arbeitsfolge die Auswahl einer hellen Belichtung und den Schritt des Erzeugens entwickelter Bilder auf einem Bildempfangsbogen im schwachen Belichtungsmode umfaßt.
9. Verfahren nach Anspruch 1, bei dem die Arbeitsfolge die Auswahl der dunklen Belichtung und den Schritt des Erzeugens entwickelter Bilder auf einem Bildempfangsbogen im dunklen Belichtungsmode umfaßt.
10. Verfahren nach den Ansprüchen 2 bis 9, bei dem ein Streifen über den Bildempfangsbogen gelegt ist.
11. Verfahren nach Anspruch 1, bei dem die Arbeitsfolge den Betrieb eines Flecken erzeugenden Verschlusses und den Schritt des Erzeugens entwickelter Flecken auf einem Bildempfangsbogen umfaßt.
12. Verfahren nach Anspruch 1, bei dem die Arbeitsfolge den Betrieb einer Untereinheit mit Löschlampen für die Randbereiche sowie den Schritt des aufeinanderfolgenden Ausschaltens der Randlöschlampen umfaßt, um entwickelte Bilder auf einem Bildempfangsbogen zu erzeugen.
13. Verfahren nach Anspruch 12, bei dem die Arbeitsfolge den Betrieb der Ladungskorona bei verschiedenen Spannungsniveaus und den Schritt des Erzeugens entwickelter Muster auf einem Bildempfangsbogen durch Betreiben der Ladungskorona bei den genannten verschiedenen Spannungen umfaßt.
14. Verfahren nach den Ansprüchen 1 bis 13, bei dem der Eingangscode durch den gewöhnlichen Benutzer eingegeben werden kann und nicht den Zugang zum Innern der Maschine erfordert.
EP19830101748 1982-05-04 1983-02-23 Automatisches Kontrollverfahren für eine elektrophotographische Kopiermaschine Expired EP0093242B1 (de)

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US374856 1982-05-04

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Publication number Priority date Publication date Assignee Title
EP0665179B1 (de) * 1993-12-28 2000-05-24 Sharp Kabushiki Kaisha Papierstanzeinrichtung zur Verwendung in einer Abbilderzeugungsvorrichtung
JP2000221846A (ja) 1999-02-03 2000-08-11 Fujitsu Ltd 印刷装置
DE102006047979B4 (de) 2006-10-10 2009-07-16 OCé PRINTING SYSTEMS GMBH Datenverarbeitungssystem, Verfahren und Computerprogrammprodukt zum Ausführen einer Testroutine in Verbindung mit einem Betriebssystem

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Publication number Priority date Publication date Assignee Title
US47855A (en) * 1865-05-23 Improvement in seeding-machines
JPS53127729A (en) * 1977-04-13 1978-11-08 Canon Inc Copier controller
US4162396A (en) * 1977-10-27 1979-07-24 International Business Machines Corporation Testing copy production machines
JPS5629252A (en) * 1979-08-20 1981-03-24 Konishiroku Photo Ind Co Ltd Inspecting device of copying machine or the like
US4335952A (en) * 1980-09-11 1982-06-22 International Business Machines Corporation Copy quality diagnostic procedure

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EP0093242A1 (de) 1983-11-09
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