JP2004271986A - Image forming apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To carry out accurate control according to the connected state, regardless of online connection or off line connection, therefore, preventing failure such as an error in size of fed paper and to improve the versatility as an image forming system. <P>SOLUTION: In a stencilling system printing device, a printing device body 2 and large quantity paper feeding unit 3 and a large quantity paper ejection unit 4 are provided as option units. The printing device body 2 is provided with a control program to detect the option unit. The large quantity paper feeding unit 3 and the large quantity paper ejection unit 4 are provided with a control program to detect the printing device body 2. When the large quantity paper feeding unit 3 and the large quantity paper ejection unit 4 are connected, the printing device body 2 carries out online control and when not connected, changes over to off line control. Online control is also carried out in the large quantity paper feeding unit 3 and the large quantity paper ejection unit 4 when connected to the printing device body 2 and changes over to off line control when not connected. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an image forming apparatus such as a copying machine, a printer, a facsimile, a plotter, and a printing machine.
[0002]
[Prior art]
In this type of image forming apparatus, there is generally an upper limit on the level of several hundreds of sheets (the number of sheets to be stored) of paper (sheet-shaped recording medium) of a paper feeder originally provided in the main body of the image forming apparatus. A configuration is known in which a discharge tray is provided on the discharge side so as to be able to move up and down, and the number of stacked sheets is increased while lowering the discharge tray.
For work that requires a large amount of image formation, such as printing or copying, setting the paper in the paper feeder may be performed many times.However, the setting work is troublesome, and in order to eliminate work time loss, There is an annoyance that the operator must monitor the time when the error disappears.
[0003]
In order to eliminate such trouble, in recent years, a large-volume paper feed unit and a large-volume paper discharge unit capable of stacking sheets at the level of thousands of sheets have been added to the image forming apparatus main body as an option, or provided as a dedicated unit. That is being done.
In the case of being provided as an option, the large-volume paper feeding unit and the large-volume paper discharging unit are connected to the general-purpose image forming apparatus main body by off-line control. When provided as a dedicated unit, the large-volume paper feed unit and the large-volume paper discharge unit are connected to a dedicated image forming apparatus main body by online control.
[0004]
[Patent Document 1]
JP-A-9-272658
[0005]
[Problems to be solved by the invention]
When the mass discharge unit is connected to the main body of the image forming apparatus by off-line control, communication with the main body of the image forming apparatus is not performed even when a full state or a paper discharge jam occurs. Couldn't stop).
When a large-volume paper feed unit is connected to the main body of the image forming apparatus by offline control, the paper size cannot be recognized by the main body of the image forming apparatus. There were different bugs.
When an optional unit is connected online, the image forming apparatus main body is limited to a dedicated product, and general versatility in using the optional unit cannot be expected.
[0006]
The present invention is capable of performing accurate control in accordance with the connection status regardless of online connection or offline connection, thereby preventing a problem such as a paper size error and improving versatility as an image forming system. It is an object of the present invention to provide an image forming apparatus capable of performing the above.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, the invention according to claim 1 includes an image forming apparatus main body for forming an image on a sheet-shaped recording medium, and an optional unit arbitrarily connected to the image forming apparatus main body, The image forming apparatus main body is provided with control means for performing online control when the optional unit is connected, and performing offline control when not connected, and when the image forming apparatus main body is connected to the optional unit. Is provided with control means for performing online control and performing offline control when not connected.
[0008]
According to a second aspect of the present invention, in the image forming apparatus according to the first aspect, when the optional unit is a large-volume paper feeding unit capable of stacking a large amount of sheet-shaped recording media, and the large-volume paper feeding unit is connected, The control means of the image forming apparatus main body uses a command transmitted from the control means of the high-volume sheet feeding unit for the detection information of the sheet-shaped recording medium.
[0009]
According to a third aspect of the present invention, in the image forming apparatus according to the second aspect, the high-volume sheet feeding unit has a function of detecting a sheet jam of the sheet-shaped recording medium, and the control unit of the image forming apparatus main body includes When a paper feed jam command is received from the large-volume paper feed unit, a warning of the paper feed jam is issued, and control for stopping the image forming operation is performed.
[0010]
According to a fourth aspect of the present invention, in the image forming apparatus of the first aspect, the optional unit is a large-volume paper discharge unit capable of stacking a large amount of sheet-shaped recording media, and the control means of the large-volume paper discharge unit includes the large-volume paper discharge unit. When the sheet-shaped recording medium remains in the sheet discharging unit, a command indicating that the sheet-shaped recording medium is present is transmitted to the image forming apparatus main body, and the control unit of the image forming apparatus main body receives the sheet-shaped recording medium stacking command. In such a case, a warning that a sheet-shaped recording medium is present is issued.
[0011]
According to a fifth aspect of the present invention, in the image forming apparatus according to the first aspect, the optional unit is a mass discharge unit capable of stacking a large amount of sheet-shaped recording media, and the mass discharge unit detects a paper discharge jam detection function. The control means of the image forming apparatus main body performs a control of stopping the image forming operation by issuing a warning of a paper discharge jam when receiving a command of the paper discharge jam from the large-volume paper discharge unit. I am taking it.
[0012]
According to a sixth aspect of the present invention, in the image forming apparatus according to the first aspect, the optional unit is a large-volume discharge unit capable of stacking a large amount of sheet-shaped recording media, and the large-volume discharge unit has a full-discharge detection function. The control means of the image forming apparatus main body performs a control to stop the image forming operation by issuing a warning of a full discharge when receiving a full discharge command from the large volume discharge unit. I have.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to FIGS.
First, an outline of a stencil printing apparatus (stencil printing system) as an image forming apparatus according to the present embodiment will be described with reference to FIG. The stencil printing apparatus 1 includes a printing apparatus main body 2 as an image forming apparatus main body, a large-volume paper feeding unit 3 as an optional unit detachable from the printing apparatus main body 2 and connected online, and a printing apparatus main body. 2 has a large-volume paper discharge unit 4 as an optional unit that is detachable from and connected online.
The large-volume paper feed unit 3 has a paper feed main body 5 and an intermediate transport section 6. The paper supply main body 5 includes a paper supply table 7 that is moved up and down by an elevator system by a drive mechanism (having a paper supply motor, a pinion gear, and a rack) (not shown), and a sheet-shaped recording medium loaded on the paper supply table 7. A front plate 9 for aligning the leading ends of the printing paper 8, a paper feed roller 10, a separation roller 11, and the like are provided. The paper feed table 7 includes a paper presence / absence detection sensor 12 for detecting the presence / absence of the printing paper 8, a paper length detection sensor 13 for detecting the length of the printing paper 8 in the paper feeding direction, and a direction orthogonal to the paper feeding direction of the printing paper 8. A paper width detection sensor (not shown) for detecting the length in the width direction is provided.
[0014]
As shown in FIG. 3, the elevation of the paper feed table 7 is set to an appropriate height by the paper feed position detection sensor 14. The feed roller 10 and the separation roller 11 are supported by a frame 15 that rotates about a rotation shaft 11 a of the separation roller 11, and an arm 16 that rotates about an axis 16 a is provided on the outer peripheral surface of the feed roller 10. A cam follower 16b provided at one end of the contact member. When the paper supply table 7 is raised and the upper surface of the printing paper 8 pushes up the paper supply roller 10, the arm 16 rotates and the other end 16 c turns on or off the paper supply position detection sensor 14, and the paper supply motor Is stopped.
As the printing paper 8 is fed and the number of stacked sheets decreases, the arm 16 rotates and the feed position detection sensor 14 is turned on or off, and the feed motor is rotated. As a result, the paper feed table 7 is always kept at an appropriate position.
The lower limit position of the paper feed table 7 is regulated by a lower limit detection sensor (not shown).
[0015]
As shown in FIG. 1, the intermediate conveyance section 6 of the large-volume paper feed unit 3 includes an intermediate conveyance main body section 18 having a conveyance path 17, a cover 19 capable of opening the conveyance path 17, and the printing paper 8 in the conveyance path 17. It has a plurality of transport roller pairs 20 for transport, and a plurality of paper detection sensors 21 provided on the cover 19 for detecting the print paper 8.
The intermediate transport main body 18 is provided with an intermediate transport motor (not shown) for driving the transport roller pair 20, and the paper detection sensor 21 checks the distance between the papers (the subsequent print paper 8 replaces the preceding print paper 8). The printing paper 8 is sequentially conveyed (by controlling not to overtake and not to make the distance between the papers non-uniform).
The large-volume paper feeding unit 3 replaces the paper feeding unit of the printing apparatus main body 2, and is set so that the leading end of the intermediate conveyance unit 6 enters the paper feeding unit of the printing apparatus main body 2. The paper supply unit of the printing apparatus main body 2 is provided with a paper supply table 22, a front plate 23, a paper supply roller 24, etc. The paper supply table 22 has a paper presence / absence detection sensor 25 and a paper length detection sensor 26. , A paper width detection sensor (not shown) and the like are provided.
When the large-volume paper feed unit 3 is connected, the function of the paper feed unit of the printing apparatus main body 2 becomes unnecessary, so the intermediate conveyance main body 18 shields and turns on (disables) the paper presence / absence detection sensor 25. A shielding member 27 and a shielding member 28 that shields and turns on (invalidates) the paper length detection sensor 26 are provided. These shielding members 27 and 28 are selectively set to a shielding position and a retracted position by a solenoid (not shown). When the large-volume paper feed unit 3 is connected without using the shielding members 27 and 28, a control method for invalidating information from the paper feed unit of the printing apparatus main body 2 may be adopted.
[0016]
The large-volume discharge unit 4 is connected to the printing apparatus main body 2 by a transport path 29. The large-volume paper discharge unit 4 includes a paper discharge table 30 that moves up and down by the same drive mechanism as the paper supply table 7, and an abutment plate 31 that abuts the leading end of the discharged print paper 8. The paper discharge tray 30 has a pair of side fences 32 and an end fence 33. Further, in the large-volume paper discharge unit 4, a lower-limit detection sensor 34 that regulates a lower-limit position of the paper discharge tray 30, an upper-limit detection sensor 35 that regulates an upper-limit position of the paper discharge tray 30, and the paper discharge tray 30 are loaded. A paper surface detection sensor 36 for detecting the upper surface of the printing paper 8 is provided. Although a reflective photosensor is used as the sensor in the present embodiment, a filler-type mechanical sensor may be used as the upper limit detection sensor 35 and the lower limit detection sensor 34.
When the printing paper 8 is discharged and stacked on the paper discharge tray 30, and the paper surface detection sensor 36 is turned on, the paper discharge tray 30 is lowered for a certain period of time, so that the distance H at which the paper falls from the discharge port is kept substantially constant. ing.
[0017]
The control system of the stencil printing apparatus 1 will be described based on FIG.
The printing apparatus main body 2 has a control unit 37, and the control unit 37 includes a serial interface 38 for the large-volume paper feeding unit 3, a serial interface 39 for the large-volume paper ejection unit 4, and a CPU 40.
The large-volume paper feed unit 3 includes a control unit 41, and the control unit 41 includes a serial interface 42 for the printing apparatus main body 2, a CPU 43, and the like. The mass discharge unit 4 includes a control unit 44, and the control unit 44 includes a serial interface 45 for the printing apparatus main body 2, a CPU 46, and the like.
[0018]
[Description of Control Program for Printing Apparatus 2]
The control program of the printing apparatus main body 2 includes a communication program for detecting an optional unit connected through a communication interface. When the power is turned on or at a certain interval, the optional program connected by this program can be detected. it can.
When it is detected that the optional unit is connected, the control unit 37 performs online control on the connected optional unit.
The option unit detection control of the printing apparatus main body 2 will be described based on the flowchart of FIG. The control means 37 checks whether or not the large-volume paper feeding unit 3 is connected (S1), and when it is connected, sets a large-volume paper feeding unit connection flag (S2). Next, it is checked whether or not the mass discharge unit 4 is connected (S3), and if it is connected, a mass discharge unit connection flag is set (S4). If the large paper feeding unit 3 is not connected in S1, the large paper feeding unit connection flag is cleared (S5), and the process proceeds to S3. In S3, when the mass discharge unit 4 is not connected, the mass discharge unit connection flag is cleared (S6).
[0019]
In the control when the large-volume paper feed unit 3 is connected, the size detection of the print paper 8 is performed without using the detection information of the paper length detection sensor 26 and the paper width detection sensor of the paper feed table 22 included in the printing apparatus main body 2. The command of the paper size transmitted from the large-volume paper feed unit 3 is used. For the paper presence detection, the presence / absence command transmitted from the large-volume paper feed unit 3 is used without using the detection information of the paper presence / absence detection sensor 25 of the paper feed table 22.
The paper feed control of the printing apparatus main body 2 will be described with reference to FIG.
The control means 37 checks whether or not the connection flag of the large-volume paper feeding unit 3 is set (S11). If the connection flag is set, the controller 37 performs online paper-feed control with the large-volume paper feeding unit 3 connected (S12). ). If it is not set (the state shown in FIG. 6), normal paper feed control, that is, paper feed control by the paper feed unit of the printing apparatus main body 2 is performed (S13).
The paper discharge control of the printing apparatus main body 2 will be described with reference to FIG.
The control means 37 checks whether or not the connection flag of the large-volume discharge unit 4 is set (S21). If the connection flag is set, the control unit 37 performs online paper-discharge control to which the large-volume discharge unit 4 is connected (S22). ). If it is not set (the state shown in FIG. 8), normal paper discharge control, that is, paper discharge control by the paper discharge unit of the printing apparatus main body 2 is performed (S23).
[0020]
At the start of plate making (plate printing), test printing, and printing, a print start command is transmitted to the large-volume paper feed unit 3. When a command for paper size data is received from the large-volume paper feed unit 3, a plate-making operation is started, and when a command indicating that there is a sheet is received, the operation is continued, and plate printing, test printing, and printing are started.
When a command indicating that there is no paper is received from the large-volume paper feed unit 3, the printing operation is stopped. When a paper jam command is received, a jam is displayed and the printing operation is stopped. Thereafter, when a jam release command is received, the jam display is erased. Details will be described later.
The control when the large-volume paper feed unit 3 is not connected is performed assuming that the large-volume paper feed unit 3 is not attached. Since the paper jam command cannot be received, printing is continued until the paper feeding unit of the printing apparatus main body 2 becomes a non-feed jam. Details will be described later.
When the mass discharge unit 4 is connected, a printing start command is transmitted to the mass discharge unit 4 when plate making (plate printing), test printing, and printing are started. When a command for paper ejection preparation is received from the large-volume paper ejection unit 4, the plate making operation is started, and when a command for paper ejection preparation completion is received, the operation is continued, and each operation of printing, test printing, and printing is started. When a command for a paper discharge jam is received from the mass discharge unit 4, the printing operation is stopped. When receiving a command for full discharge, a full discharge display is displayed and the printing operation is stopped. Thereafter, when a command to release the full paper output is received, the full paper display is erased. Details will be described later.
When the mass discharge unit 4 is not connected, control is performed on the assumption that the mass discharge unit 4 is not attached. Since it is not possible to receive a paper discharge jam or a command for full discharge, the printing is continued until the paper discharge unit of the printing apparatus main body 2 becomes jammed. Details will be described later.
[0021]
[Description of Control Program for Mass Feed Unit 3]
Similarly to the printing apparatus main body 2, the control program for the large-volume paper feed unit 3 includes a communication program for detecting the printing apparatus main body 2 connected through the communication interface, and the printing apparatus main body connected by the program when the power is turned on. 2 can be detected. Upon detection, the control program assumes that the printing apparatus main body 2 is connected, and executes online control.
The printing apparatus main body detection control of the large-volume sheet feeding unit 3 will be described based on the flowchart of FIG. The control means 41 checks whether or not the printing apparatus main body 2 is connected (S31), and if so, sets a printing apparatus main body connection flag (S32). If the printing apparatus main body 2 is not connected, the printing apparatus main body connection flag is cleared (S33).
[0022]
The control when the printing apparatus main body 2 is connected transmits a command of paper size data at regular intervals. That is, the command of the paper size loaded on the paper feed tray 7 of the large-volume paper feed unit 3 is transmitted to the printing apparatus main body 2. As described above, the sheet size detection is performed for each of the sheet length and the sheet width.
[0023]
(On-line operation of mass feed unit 3)
As for the command for the presence or absence of a sheet, a command for the presence of a sheet is transmitted at regular intervals based on the detection information of the sheet presence / absence detection sensor 12 when there is a sheet and when there is no paper.
Upon receiving a print start command from the printing apparatus main body 2, the control means 41 raises the paper feed tray 7 to an appropriate height. Thereafter, the separation motor (not shown) is operated to feed the uppermost sheet of printing paper 8. The fed printing paper 8 is conveyed through the intermediate conveyance unit 6, conveyed to the foremost part (a position where paper can be fed by the printing apparatus main body 2), and stopped. When the printing paper 8 is conveyed to the leading edge and stopped, a command indicating that there is a paper is transmitted to the printing apparatus main body 2. The printing paper 8 conveyed to the forefront portion of the intermediate conveyance unit 6 is fed by a feeding roller 24 of the printing apparatus main body 2 to a printing unit (not shown).
When the printing apparatus main body 2 feeds the printing paper 8 at the leading end of the intermediate conveyance section 6 and the paper detection sensor 21 detects that there is no printing paper 8, the control means 41 operates the separation motor again to operate the separation motor. One sheet of printing paper 8 on the paper feed table 7 is fed. This paper feeding operation is repeated during the printing operation.
[0024]
When the separation motor is operated to start feeding the printing paper 8 and then stopped after being transported to the forefront of the intermediate transport unit 6, the printing paper 8 is not detected by the paper detection sensor 21 within a predetermined time. In this case, the control unit 41 transmits a paper jam command to the printing apparatus main body 2.
[0025]
(Initial operation of the large-volume paper feed unit 3 when online)
When the initial switch 47 (FIG. 1) of the large-volume paper feed unit 3 is depressed, the paper feed table 7 is raised to an appropriate height, and the separation motor operates to start feeding the uppermost print paper 8. The fed printing paper 8 is conveyed through the intermediate conveyance section 6, conveyed to the foremost end thereof, and stopped. At this time, the sheet presence / absence detection sensor 25 of the paper feed table 22 of the printing apparatus main body 2 is shielded by the shielding member 27, whereby the printing apparatus main body 2 has paper, and plate making and printing keys are enabled.
During online operation, the paper feed tray 7 is lowered to a position detected by the lower limit detection sensor while the paper feed tray lowering switch 48 (FIG. 1) for lowering the paper feed tray 7 is pressed.
[0026]
(Offline operation of the large-volume paper feed unit 3)
Control at the time of connection with an image forming apparatus main body that does not have an online communication function with an optional unit is an offline operation.
In order not to perform communication with the image forming apparatus main body, any image forming apparatus main body to be connected may be used. For example, a printer, an ink jet printer, a stencil printing machine, an offset printing machine, a copying machine, or the like can be connected.
When the initial switch 47 of the large-volume paper feed unit 3 is depressed, the paper feed table 7 is raised to an appropriate height, and the separation motor operates to start feeding the uppermost print paper 8. The fed printing paper 8 is conveyed through the intermediate conveyance section 6, conveyed to the foremost end thereof, and stopped. At this time, the sheet presence / absence detection sensor 25 of the paper feed table 22 of the printing apparatus main body 2 is shielded by the shielding member 27, so that there is paper in the printing apparatus main body 2.
When the printing apparatus main body 2 feeds the printing paper 8 at the leading end of the intermediate conveyance section 6 and the paper detection sensor 21 detects that there is no printing paper 8, the control means 41 operates the separation motor again to operate the separation motor. One sheet of printing paper 8 on the paper feed table 7 is fed. This paper feeding operation is repeated during the printing operation. In the paper size detection, the length and width of the paper on the paper feed table of the image forming apparatus main body are manually set because of the offline state.
While the paper feed tray lowering switch 48 of the large-volume paper feed unit 3 is being pressed, the paper feed tray 7 is lowered to a position detected by the lower limit detection sensor.
[0027]
[Explanation of control program of mass discharge unit 4]
Similarly to the printing apparatus main body 2, the control program of the mass discharge unit 4 includes a communication program for detecting the printing apparatus main body 2 connected through the communication interface, and the printing apparatus main body connected by the program when the power is turned on. 2 can be detected. Upon detection, the control program executes control assuming that the printing apparatus main body 2 is connected. The printing apparatus main body detection control of the large-volume sheet discharging unit 4 is the same as that shown in the flowchart of FIG.
[0028]
(Operation when the power of the mass output unit 4 is turned on when online)
In the control when the printing apparatus main body 2 is connected, when the printing apparatus main body 2 connected by the program is detected when the power is turned on, if the printing paper 8 remains on the paper output tray 30, the control unit 44 Transmits a command indicating that a print sheet is present (a discharge tray stacking command) to the printing apparatus main body 2.
When receiving the discharge tray loading command, the printing apparatus main body 2 displays a warning “paper is present in the discharge tray” on the liquid crystal display of the operation panel (not shown).
[0029]
(Positioning of side fence and end fence when online)
If the mass discharge unit 4 has an electric side fence and an electric end fence, when the print paper size data is received from the printing apparatus main body 2, when the print paper 8 is not placed on the paper discharge tray 30, the print paper The movement of the electric side fence and the electric end fence is controlled by the control means 44 in accordance with the size data.
If the mass discharge unit 4 includes a manual side fence, a manual end fence, and a paper size sensor for detecting these positions, when print paper size data is received from the printing apparatus main body 2, the print paper is placed on the paper discharge tray 30. When the sheet 8 is not placed, the position of the side fence and the end fence manually adjusted according to the print sheet size is detected by the sheet size sensor.
[0030]
If the print paper size data is not the same as the print paper size data transmitted from the printing apparatus main body 2, an ejection tray size mismatch command is transmitted to the printing apparatus main body 2. When receiving the paper ejection tray size mismatch command, the printing press main body displays a warning of “paper ejection tray size mismatch” on the liquid crystal display of the operation panel.
Further, without receiving the printing paper size data from the printing apparatus main body 2, when the printing paper 8 is not placed on the paper output tray 30, the position of the side fence and the end fence manually adjusted according to the printing paper size is changed. When the printing paper size data is detected by the paper size sensor and transmitted to the printing apparatus main body 2, the printing apparatus main body 2 compares the printing paper size data with the discharge tray size, and if the size is not the same, the operation panel May be displayed on the liquid crystal display unit of the above.
[0031]
If there is no paper size sensor for detecting the positions of the manual side fence and the manual end fence in the large-volume paper discharge unit 4, when the print paper 8 is not placed on the paper discharge tray 30, the manual Use to adjust the position of the side fence and end fence to the paper size.
At this time, if the printing paper is set to a position that does not match the size of the printing paper, the paper is not loaded properly at the time of loading and a paper discharge jam occurs. When a paper ejection jam occurs, a paper ejection jam command is transmitted to the printing apparatus main body 2. Upon receiving the paper ejection jam command, the printing apparatus main body 2 displays a warning of “paper ejection jam of large-volume paper ejection unit” on the liquid crystal display of the operation panel.
[0032]
(Operation at the time of stacking in the mass discharge unit 4 when online)
When a printing command is received from the printing apparatus main body 2, the large-volume paper discharge unit 4 enters a standby state for stacking paper discharge. When 36 is turned on for a certain period of time, the discharge tray 30 is lowered for a certain period of time. Thereby, a space for stacking the printing paper 8 discharged from the printing apparatus main body 2 on the discharge tray 30 is created.
When a print standby command is received from the printing apparatus main body 2, even if the paper surface detection sensor 36 is turned on for a certain period of time, the discharge tray 30 is prevented from descending. This is to prevent the paper discharge tray 30 from moving when the printing paper 8 on the paper discharge tray 30 is taken out when printing is not being performed.
The same applies to the case where the end fence set sensor (not shown) is off, and the end fence 33 is removed to prevent the discharge tray 30 from lowering when the printing paper 8 on the discharge tray 30 is taken out.
[0033]
(Initial operation of mass discharge unit 4 when online)
When the initial switch 49 (FIG. 1) attached to the large-volume paper ejection unit 4 is pressed, if the printing paper 8 remains on the paper ejection tray 30, a paper ejection tray loading command is sent to the printing apparatus main body 2. Send. Upon receiving the discharge tray stacking command, the printing apparatus main body 2 displays a warning that “paper is present in the discharge tray” on the liquid crystal display of the operation panel. When there is no printing paper 8 on the paper discharge tray 30, the paper discharge tray 30 moves up, is detected by the upper limit detection sensor 35, stops, and enters a stacking standby state.
While the discharge tray lowering switch 50 (FIG. 1) attached to the large-volume discharge unit 4 is pressed, the discharge tray 30 is lowered to a position detected by the lower limit detection sensor 34.
[0034]
(Transmission of a paper ejection jam command in the mass ejection unit 4 during online operation)
While the large-volume paper discharge unit 4 is in the stacking standby state, paper discharge from the printing apparatus main body 2 is stacked on the paper discharge tray 30, and when the paper surface detection sensor 36 is turned on for a certain period of time, the paper discharge tray 30 is turned on for a predetermined time. Lower it. As a result, a space for stacking the printing paper 8 on the discharge tray 30 is further created.
If the paper surface detection sensor 36 has not been turned off after lowering the discharge tray 30 for a certain period of time, it is determined that a space for stacking on the discharge tray 30 could not be created, and the discharge is performed as a discharge jam. The jam command is transmitted to the printing apparatus main body 2.
The paper discharge jam detection control of the printing apparatus main body 2 will be described based on the flowchart of FIG.
The control unit 37 checks whether or not the printing operation is being performed (S41). If the printing operation is being performed, the control unit 37 checks whether or not the connection flag of the mass discharge unit 4 is set (S42). If it is set, it is checked whether a paper jam command has been received from the large-volume paper ejection unit 4 (S43). If it has been received, the printing operation is stopped and the liquid crystal display of the operation panel is displayed. A warning is displayed for "discharge jam in large-volume discharge unit".
[0035]
(Transmission of a command for full paper ejection in the mass paper ejection unit 4 when online)
In a state where the large-volume paper discharge unit 4 is in the stacking standby state, the paper discharged from the printing apparatus main body 2 is stacked on the paper discharge tray 30, and when the paper surface detection sensor 36 is turned on for a predetermined time, the paper discharge tray 30 is lowered for a predetermined time. Let it. As a result, a space for stacking the printing paper 8 on the discharge tray 30 is further created.
If the lower limit detection sensor 34 is turned on when the discharge tray 30 is lowered for a certain period of time, it is determined that a space for stacking on the discharge tray 30 cannot be created, and a discharge full command is issued as a discharge full. Is transmitted to the printing apparatus main body 2.
The control for detecting the full paper discharge of the printing apparatus main body 2 will be described with reference to the flowchart of FIG.
The control means 37 checks whether or not the printing operation is being performed (S51). If the printing means is in operation, the control means 37 checks whether or not the connection flag of the mass discharge unit 4 is set (S52). If it is set, it is checked whether or not a full paper ejection command has been received from the large-volume paper ejection unit 4 (S53). If it has been received, the printing operation is stopped and the liquid crystal display of the operation panel is displayed. A warning display of "full discharge of mass discharge unit" is displayed.
[0036]
(Off-line operation of mass discharge unit 4)
Control at the time of connection with an image forming apparatus main body that does not have an online communication function with an optional unit is an offline operation. Since the communication with the image forming apparatus main body is not performed, any image forming apparatus main body to be connected may be used. For example, a printer, an ink jet printer, a stencil printing device, an offset printing machine, a copying machine, or the like can be connected.
In the control of the printing apparatus main body 2 when the mass discharge unit 4 is not connected, it is not possible to receive a paper discharge jam or a command of full paper discharge, so that printing is performed until the paper discharge unit of the printer main body 2 becomes jammed. To continue.
When the initial switch 49 is depressed, the large-volume paper discharge unit 4 enters a paper discharge stacking standby state, paper discharge from the printing apparatus main body 2 is loaded on the paper discharge tray 30, and the paper surface detection sensor 36 is turned on for a predetermined time. In this case, the paper discharge tray 30 is lowered for a certain time. As a result, a space for stacking the printing paper 8 on the discharge tray 30 is further created.
When the paper ejection tray lowering switch 50 is pressed, the paper ejection tray 30 is not lowered even when the paper surface detection sensor 36 is turned on for a certain period of time. This is to prevent the paper discharge tray 30 from moving (falling) when taking out the printing paper 8 on the paper discharge tray 30 when printing is not being performed.
The same applies to the case where the end fence set sensor is off. When the end fence is removed and the printing paper 8 on the paper discharge tray 30 is taken out, the paper discharge tray 30 is prevented from descending.
[0037]
(Initial operation of mass discharge unit 4 when offline)
When the initial switch 49 of the large-volume paper ejection unit 4 is pressed, when there is no printing paper 8 on the paper ejection tray 30, the paper ejection tray 30 moves up, is detected by the upper limit detection sensor 35, stops, and enters the stacking standby state. .
(Lower output tray operation of mass output unit 4 when offline)
While the discharge tray lowering switch 50 of the large-volume discharge unit 4 is pressed, the discharge tray 30 is lowered to a position detected by the lower limit detection sensor 34.
[0038]
(Discharge jam operation of the mass discharge unit 4 during offline)
In a state where the large-volume paper discharge unit 4 is in the stacking standby state, the paper discharged from the printing apparatus main body 2 is stacked on the paper discharge tray 30, and when the paper surface detection sensor 36 is turned on for a predetermined time, the paper discharge tray 30 is lowered for a predetermined time. Let it. As a result, a space for stacking the printing paper 8 on the discharge tray 30 is further created.
If the paper surface detection sensor 36 has not been turned off after lowering the discharge tray 30 for a certain period of time, it is determined that a space for stacking on the discharge tray 30 could not be created, and the operation is performed as a discharge jam. Stop.
The paper discharge jam detection control of the large-volume paper discharge unit 4 will be described with reference to the flowchart of FIG.
The control means 44 checks whether or not it is operating (S61). If it is operating, it checks whether or not the lower limit detection sensor 34 is turned on (S62). If the lower limit detection sensor 34 is on, it is checked whether the paper surface detection sensor 36 is on for a predetermined time (t seconds) (S63). If it is on, it is checked whether or not the connection flag of the mass discharge unit 4 is set, that is, whether or not it is connected to the image forming apparatus main body that can detect the optional unit (S64). If not, the operation is stopped as a paper discharge jam (S65). If the flag is set in S64, a paper discharge jam is transmitted to the printing apparatus main body 2 (S66).
[0039]
(Operation of full discharge of mass discharge unit 4 when offline)
In a state where the large-volume paper discharge unit 4 is in the stacking standby state, the paper discharged from the printing apparatus main body 2 is stacked on the paper discharge tray 30, and when the paper surface detection sensor 36 is turned on for a predetermined time, the paper discharge tray 30 is lowered for a predetermined time. Let it. As a result, a space for stacking the printing paper 8 on the discharge tray 30 is further created.
If the lower limit detection sensor 34 is turned on when the discharge tray 30 is lowered for a certain period of time, it is determined that a space for stacking the discharge tray 30 could not be created, and the operation is stopped because the discharge tray is full. I do.
The paper discharge full detection control of the large-volume paper discharge unit 4 will be described based on the flowchart of FIG.
The control means 44 checks whether or not it is operating (S71), and if it is operating, checks whether or not the lower limit detection sensor 34 is on (S72). If the lower limit detection sensor 34 is ON, it is checked whether the connection flag of the large-volume paper ejection unit 4 is set, that is, whether the connection is made to the image forming apparatus main body capable of detecting the optional unit ( If not set (S73), the operation is stopped because the discharge is full (S74). If the flag has been set in S73, a paper discharge full state is transmitted to the printing apparatus main body 2 (S75).
[0040]
【The invention's effect】
According to the first aspect of the present invention, the image forming apparatus has an image forming apparatus main body for forming an image on a sheet-shaped recording medium, and an optional unit arbitrarily connected to the image forming apparatus main body. Is provided with control means for performing online control when the optional unit is connected, and performing offline control when not connected.When the image forming apparatus main body is connected to the optional unit, control means is provided. If not, control means for off-line control is provided, so that accurate control can be performed according to the connection status regardless of online connection or offline connection. Failures can be prevented, and versatility as an image forming system can be improved. Since a dedicated image forming apparatus main body is not required, cost reduction can be achieved by system commonization.
[0041]
According to the second aspect of the present invention, in the image forming apparatus according to the first aspect, the optional unit is a high-volume paper feeding unit capable of stacking a large amount of sheet-shaped recording media, and the high-volume paper feeding unit is connected. In this case, the control means of the image forming apparatus main body uses a command transmitted from the control means of the high-volume paper feed unit for the detection information of the sheet-shaped recording medium. It is possible to recognize the sheet-shaped recording medium size of the unit and prevent a paper feed size error.
[0042]
According to a third aspect of the present invention, in the image forming apparatus according to the second aspect, the mass feeding unit has a function of detecting a sheet jam of a sheet-shaped recording medium, and a control unit of the image forming apparatus main body. When a paper jam command is received from the large-volume paper feed unit, a warning of the paper jam is performed and the control for stopping the image forming operation is performed. Therefore, the progress of the paper jam can be stopped at an early stage. At the same time, the jam processing can be performed quickly.
[0043]
According to a fourth aspect of the present invention, in the image forming apparatus according to the first aspect, the optional unit is a mass discharge unit capable of stacking a large amount of sheet-shaped recording media, and the control unit of the mass discharge unit is When the sheet-shaped recording medium remains in the large-volume sheet discharging unit, a command indicating that the sheet-shaped recording medium is present is transmitted to the image forming apparatus main body, and the control means of the image forming apparatus main body transmits a sheet-shaped recording medium stacking command. Since the warning that the sheet-shaped recording medium is present is issued when the sheet-shaped recording medium is received, it is possible to prevent the sheet-shaped recording media of different operations from being mixed.
[0044]
According to a fifth aspect of the present invention, in the image forming apparatus according to the first aspect, the optional unit is a mass discharge unit capable of stacking a large amount of sheet-shaped recording media, and the mass discharge unit is configured to have a paper discharge jam. Having a detection function, wherein the control means of the image forming apparatus main body issues a paper discharge jam warning when receiving a paper discharge jam command from the large-volume paper discharge unit, and performs control to stop the image forming operation. Therefore, the progress of the trouble caused by the paper discharge jam can be stopped at an early stage, and the paper discharge jam processing can be quickly performed.
[0045]
According to a sixth aspect of the present invention, in the image forming apparatus according to the first aspect, the optional unit is a mass discharge unit capable of stacking a large number of sheet-shaped recording media, and the mass discharge unit is full. Since the control means of the image forming apparatus main body has a detection function and receives a command of full paper discharge from the large-volume paper discharge unit, it issues a warning of full paper discharge and performs control to stop the image forming operation. Thus, it is possible to stop the trouble caused by the full discharge at an early stage.
[Brief description of the drawings]
FIG. 1 is a schematic front view of a stencil printing apparatus as an image forming apparatus according to an embodiment of the present invention.
FIG. 2 is a control block diagram.
FIG. 3 is a perspective view showing an appropriate height adjusting mechanism of a sheet feeding table in the large-volume sheet feeding unit.
FIG. 4 is a flowchart illustrating detection control of an optional unit of the printing apparatus main body.
FIG. 5 is a flowchart illustrating paper feed control of the printing apparatus main body.
FIG. 6 is a control block diagram when a large-volume sheet feeding unit is not connected.
FIG. 7 is a flowchart illustrating sheet discharge control of the printing apparatus main body.
FIG. 8 is a control block diagram when a large-volume sheet discharging unit is not connected.
FIG. 9 is a flowchart illustrating printing apparatus main body detection control of the large-volume sheet feeding unit.
FIG. 10 is a flowchart illustrating a discharge jam detection control of the printing apparatus main body.
FIG. 11 is a flowchart illustrating control for detecting a full paper discharge of the printing apparatus main body.
FIG. 12 is a flowchart illustrating a discharge jam detection control of the large-volume discharge unit.
FIG. 13 is a flowchart illustrating a discharge full detection control of the large-volume discharge unit.
[Explanation of symbols]
2. Printing apparatus main body as image forming apparatus main body
3 Large-volume feeding unit as an optional unit
4 Large-volume paper output unit as an optional unit
8 Printing paper as a sheet-shaped recording medium
37, 41, 44 control means

Claims (6)

An image forming apparatus main body that forms an image on a sheet-shaped recording medium, and an optional unit that is arbitrarily connected to the image forming apparatus main body. Is provided with control means for performing online control and performing offline control when not connected. The optional unit is configured to perform online control when the image forming apparatus main body is connected and perform offline control when not connected. An image forming apparatus comprising: The image forming apparatus according to claim 1,
When the optional unit is a large-volume paper feeding unit capable of stacking a large amount of sheet-shaped recording media, and when the large-volume paper-feeding unit is connected, the control unit of the image forming apparatus main body performs detection of the sheet-shaped recording medium detection information. An image forming apparatus uses a command transmitted from a control unit of the large-volume sheet feeding unit. The image forming apparatus according to claim 2,
The mass feeding unit has a function of detecting a paper jam of the sheet-shaped recording medium, and the control unit of the image forming apparatus main body controls the paper jam when a paper jam command is received from the mass feeding unit. Wherein the image forming apparatus performs a warning to stop the image forming operation. The image forming apparatus according to claim 1,
The optional unit is a mass discharge unit capable of stacking a large amount of sheet recording media, and the control means of the mass discharge unit performs sheet recording if the sheet recording medium remains in the mass discharge unit. The image forming apparatus transmits a command indicating that a medium is present to the image forming apparatus main body, and the control unit of the image forming apparatus main body issues a warning that a sheet-shaped recording medium is present when receiving the sheet-shaped recording medium loading command. Forming equipment. The image forming apparatus according to claim 1,
The optional unit is a mass discharge unit capable of stacking a large amount of sheet-shaped recording media, the mass discharge unit has a discharge jam detection function, and the control unit of the image forming apparatus main body includes the mass discharge unit. An image forming apparatus which issues a paper jam command when receiving a paper jam command from the printer, and performs control to stop the image forming operation. The image forming apparatus according to claim 1,
The optional unit is a mass discharge unit capable of stacking a large amount of sheet-shaped recording media, the mass discharge unit has a full discharge detection function, and the control unit of the image forming apparatus main body includes the mass discharge unit. An image forming apparatus, which receives a full paper ejection command from the printer and issues a warning that the paper is full, and performs control to stop the image forming operation.

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