JP2008184242A - Image forming device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce a defective fold when mounting a continuous paper sheet. <P>SOLUTION: This image forming device U is provided with a guide member YG capable of guiding the continuous paper sheet P to a paper sheet discharge part TR2, and movable among a mountain fold position, a valley fold position and a usual fold position, an automatic loading control means for continuous paper sheet C7 for conveying and loading automatically a front end of the new continuous paper sheet P, up to a finish position of conveying the front end of paper sheet upon automatic loading J2 set in a continuous paper sheet conveying directional upstream of a discharge port H, by controlling continuous paper sheet conveyers K1, K2 for conveying the continuous paper sheet P, folding direction input members SW2, SW3 for inputting a folding direction in a folding line confirming position KP of confirming the folding line of the continuous paper sheet P loaded newly by a user, a discriminating means of the first folding line folding direction C8A for discriminating the first folding line folding direction, and a guide member control means C8 for moving the guide member YG to the mountain fold position or valley fold position, so as to be folded along the first folding line folding direction. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

    The present invention relates to an image forming apparatus such as a printer, a copying machine, a FAX, or a multifunction machine having a plurality of functions, and more particularly to an image forming apparatus that forms an image on continuous paper.

In a conventional image forming apparatus that uses continuous paper such as slips, when a new continuous paper is loaded, the user sets the front edge of the continuous paper at a predetermined position and then inputs a switch, button, etc. There is known an image forming apparatus that is transported to a predetermined position (for example, a paper discharge roll) and automatically loaded (auto-loaded).
The following prior art (J01) is known as an image forming apparatus having the autoload function.
(J01) Technology described in Patent Document 1 (Japanese Patent Laid-Open No. 6-308794) In Patent Document 1, when the leading edge of a sheet is set on a tractor (3t) and a switch is operated, each member is driven to convey a continuous sheet. An automatic loading technique is described in which the conveyance of continuous paper is stopped in front of the stacker tray when the front end of the continuous paper that has passed through the transfer area and fixing area passes the paper discharge roller (7d).

Although not related to automatic loading of continuous paper, the continuous paper is folded in a direction along the folding direction of the folding line by swinging a paper guide member (swing guide) when printing continuous paper. Techniques for guiding are known.
The following conventional techniques (J02) and (J03) are known as image forming apparatuses provided with the swinging paper guide member.
(J02) Technology described in Patent Document 2 (Japanese Patent Laid-Open No. 2001-341936) Patent Document 2 discloses that the swing guide (1) is swung in the left-right direction so as to synchronize with the discharge of the continuous paper (P). A technique for folding continuous paper discharged onto a stacker table (T) is described.
(J03) Technology described in Patent Document 3 (Japanese Patent Application Laid-Open No. 2000-272822) Patent Document 3 describes the swing guide (1) in accordance with the timing at which the leading end of the printed continuous paper is fed into the swing guide (1). A technique for swinging 1) is described. In Patent Document 3, in order to align the folding direction of the folding line of the continuous paper with the swing direction of the swing guide (1), the first folding line of the continuous paper is folded when the continuous paper is set in the printing apparatus. The direction is set so as to be suitable for the swinging direction of the swinging swing guide (1), or the folding direction of the first folding line of the continuous paper is determined on the printing apparatus side.

JP-A-6-308794 ("0028") JP 2001-341936 A (“0003” to “0005”, “0027”, “0042”, FIG. 2) JP 2000-272822 A ("0018")

In the prior art (J01), when printing is started after automatic loading of continuous paper and the continuous paper is started to be stacked on the stacker (8), the continuous paper may not be correctly folded, and the continuous paper may not be folded correctly. was there.
In the prior art (J02), when a new continuous paper is normally loaded, several pages on the front end side of the continuous paper are stacked on the stacker tray (T), so that several pages on the front end side of the continuous paper are printed. There is a problem that a lot of waste occurs because it is discarded without being used.
In the prior art (J03), when setting the fold direction of the first fold of the continuous paper so as to be suitable for the swing direction of the swing guide (1), the user sets the direction of the fold of the continuous paper in a predetermined direction. There is a problem that the user must know the direction to set, and there is a problem that it takes time and effort to remove and re-set the continuous paper when setting in the wrong direction. there were. Japanese Patent Application Laid-Open No. 2003-312707 does not clearly disclose a specific method for determining the folding direction of the first fold of continuous paper on the printing apparatus side.

In view of the above circumstances, the present invention has the following description (O01) as a technical problem.
(O01) To reduce the folding failure at the start of continuous paper stacking while reducing the waste of continuous paper.

(Invention)
Next, the present invention devised to solve the above problems will be described. In order to facilitate correspondence with the constituent elements of the embodiments described later, the constituent elements of the present invention are not described. Add the code enclosed in parentheses.
The reason why the present invention is described in correspondence with the reference numerals of the embodiments described later is to facilitate the understanding of the present invention, and not to limit the scope of the present invention to the embodiments.

(First invention)
In order to solve the above problems, the image forming apparatus (U) of the first invention is
Continuous paper transport devices (K1, K2) for transporting continuous paper (P) on which images are recorded;
A discharge port (H) through which the continuous paper (P) on which the image is recorded is discharged;
A paper discharge section (TR2) on which the continuous paper (P) discharged from the discharge port (H) is stacked;
The continuous paper (P) discharged from the discharge port (H) is guided to the paper discharge section (TR2), and is guided so as to be folded along the folding line of the continuous paper (P) in the mountain folding direction. A mountain fold position to be guided, a valley fold position that is guided to be folded in a valley fold direction along a fold line of the continuous paper (P), and a normal position between the mountain fold position and the valley fold position. A guide member (YG) movable between,
By controlling the continuous paper conveyance device (K1, K2), a new continuous paper is reached up to the front end conveyance end position (J2) at the time of automatic loading set upstream of the discharge port (H) in the continuous paper conveyance direction. Continuous paper automatic loading control means (C7) for automatically loading a new continuous paper (P) by conveying the front end of (P);
Folding direction input members (Sw2, Sw3) for inputting a folding direction at a folding line confirmation position (KP) where the user confirms the folding line of the newly loaded continuous paper (P);
The input of the folding direction input members (Sw2, Sw3), the length along the paper conveyance direction from the folding line check position (KP) to the automatic paper loading end conveyance position (J2), and the continuous paper ( The first fold line folding direction discriminating means (C8A) for discriminating the folding direction of the first fold line based on the sheet length of one page sandwiched between adjacent fold lines of P);
Guide member control means (C8) for moving the guide member (YG) to the mountain fold position or the valley fold position so as to be folded along the folding direction of the first fold line;
It is provided with.

(Operation of the first invention)
In the image forming apparatus (U) according to the first aspect of the present invention having the above-described structural requirements, the continuous paper conveyance devices (K1, K2) convey the continuous paper (P) on which an image is recorded. The continuous paper (P) discharged from the discharge port (H) through which the continuous paper (P) on which an image is recorded is discharged is stacked on the paper discharge unit (TR2) in a folded state.
The continuous paper automatic loading control means (C7) controls the continuous paper conveying devices (K1, K2) and conveys the leading edge of the paper at the time of automatic loading set upstream of the discharge port (H) in the continuous paper conveying direction. The new continuous paper (P) is automatically loaded by conveying the front end of the new continuous paper (P) to the end position (J2). The first fold line fold direction determination means (C8A) inputs the fold direction at a fold line confirmation position (KP) where the user confirms the fold line of the newly loaded continuous paper (P). The input of the members (Sw2, Sw3), the length along the paper conveyance direction from the folding line confirmation position (KP) to the front end conveyance end position (J2) of automatic loading, and the adjacent of the continuous paper (P) The folding direction of the first fold line is determined based on the sheet length of one page sandwiched between the fold lines. The guide member control means (C8) guides the continuous paper (P) discharged from the discharge port (H) to the paper discharge portion (TR2) so as to be folded along the folding direction of the first fold line. At the same time, it is folded in the folding direction of the valley fold along the folding line of the continuous paper (P) and the mountain folding position for guiding the folding to the folding direction of the mountain folding along the folding line of the continuous paper (P). The guide member (YG) movable between the valley folding position to be guided in this way and the normal position between the mountain folding position and the valley folding position is moved to the mountain folding position or the valley folding position.

For this reason, in the image forming apparatus (U) of the first invention, after automatic loading of the continuous paper (P), the folding direction of the first fold line is determined, and the continuous paper (P) is moved to the first fold line. Therefore, the folding failure of the continuous paper (P) stacked on the paper discharge section (TR2) can be reduced.
According to the first aspect of the invention, during the automatic loading, the front end of the continuous paper (P) stops at the automatic paper loading front end conveyance end position (J2) set upstream of the discharge port (H) in the continuous paper conveyance direction. Therefore, the waste of the continuous paper (P) can be reduced as compared with the conventional configuration in which several pages are stacked in a folded state on the paper discharge unit (TR2) during automatic loading.

(First Embodiment 1)
The image forming apparatus (U) according to the first aspect of the present invention is the first invention, wherein
The guide member (YG) is moved to the mountain fold position or the valley fold position only when the first fold line is folded, and otherwise the guide member (YG) is held at the normal position. Member control means (C8),
It is provided with.
(Operation of Form 1 of the First Invention)
In the image forming apparatus (U) according to the first aspect of the present invention having the above-described structural requirements, the guide member control means (C8) moves the guide member (YG) to the mountain folding position or only when the first fold line is folded. The guide member (YG) is held at the normal position when moved to the valley folding position and otherwise. Therefore, in Embodiment 1 of the first invention, since the guide member (YG) is moved only immediately after a new continuous paper (P) is automatically loaded, the guide member (YG) is oscillated at the time of conventional printing processing. Compared with the above, power consumption and wear of parts can be reduced.

(First Embodiment 2)
An image forming apparatus (U) according to a second aspect of the present invention is the first invention or the second aspect of the first invention,
A mountain fold switch (Sw2) that is input when the folding direction at the folding line confirmation position (KP) is a mountain fold, and a mountain folding switch that is input when the folding direction at the folding line confirmation position (KP) is a valley fold. The folding direction input member (Sw2, Sw3) having a valley fold switch (Sw3),
It is provided with.
(Operation of the second aspect of the first invention)
In the image forming apparatus (U) according to the second aspect of the first invention having the above-described structural requirements, the folding direction input members (Sw2, Sw3) are in a case where the folding direction at the folding line confirmation position (KP) is a mountain fold. And a valley folding switch (Sw3) that is input when the folding direction at the folding line confirmation position (KP) is valley folding. The folding direction at the folding line confirmation position (KP) of P) can be easily input.

(Embodiment 3 of the first invention)
An image forming apparatus (U) according to a third aspect of the first invention is the image forming apparatus (U) according to the first invention, the first aspect of the first invention, or the second aspect of the first invention.
The folding direction input members (Sw2, Sw3) arranged at positions where the user can input while confirming the folding line confirmation position (KP),
It is provided with.
(Operation of the third aspect of the first invention)
In the image forming apparatus (U) according to the third aspect of the first invention having the above-described configuration requirements, the folding direction input members (Sw2, Sw3) can be input while the user confirms the folding line confirmation position (KP). Therefore, the user can input the folding direction input members (Sw2, Sw3) while confirming the folding direction of the folding line of the continuous paper (P).

The paper dust collecting apparatus of the present invention described above has the following effect (E01).
(E01) It is possible to reduce folding failure at the start of continuous paper stacking while reducing waste of continuous paper.

Next, specific examples (examples) of the embodiments of the present invention will be described with reference to the drawings, but the present invention is not limited to the following examples.
In order to facilitate understanding of the following description, in the drawings, the front-rear direction is the X-axis direction, the left-right direction is the Y-axis direction, the up-down direction is the Z-axis direction, and arrows X, -X, Y, -Y, The direction indicated by Z and -Z or the indicated side is defined as front, rear, right, left, upper, lower, or front, rear, right, left, upper, and lower, respectively.
In the figure, “•” in “○” means an arrow heading from the back of the page to the front, and “×” in “○” is the front of the page. It means an arrow pointing from the back to the back.

FIG. 1 is an overall explanatory view of an image forming apparatus according to a first embodiment.
In FIG. 1, an image forming apparatus U configured by a continuous paper printer prints print data transmitted from a host computer HC. The image forming apparatus U includes a controller C, a user interface UI controlled by the controller C, a power supply circuit E, a laser diode driving circuit DL, and the like.
The image forming apparatus U has a photoreceptor PR on which a toner image is formed. The surface of the rotating photoconductor PR is uniformly charged by the charging roll CR. On the surface of the charged photoconductor PR, an electrostatic latent image is formed by a laser beam L emitted from a ROS (latent image forming apparatus) having a laser diode LD and an optical system having a rotary polygon mirror KK. The laser diode LD is driven by the laser diode drive circuit DL.
The electrostatic latent image formed on the surface of the photoreceptor PR is developed into a toner image by the developing device G. The toner image is transferred to the continuous paper P with feed holes passing through the transfer area Q1 in the transfer area Q1 formed by the pressure contact area between the transfer roll Tr and the photoconductor PR. Residual toner on the surface of the photoconductor PR after the transfer is cleaned by a cleaner CL.
A transfer corotron and a charger (charge corotron) can be used instead of the charging roller CR and the transfer roller Tr.

A paper feed tray TR1 that accommodates continuous paper P with feed holes is disposed on the lower right side (Y side) of the outside of the image forming apparatus U. The outer side of the left side (−Y side) of the image forming apparatus U. A paper discharge tray TR2 from which the continuous paper P with feed holes is discharged is disposed in the lower part. On the outer wall U1 of the image forming apparatus U on the side of the paper feed tray TR1, a window portion U1a for allowing the continuous paper P on the paper feed tray TR1 to enter the image forming apparatus U is formed.
The continuous paper P with feed holes accommodated in the paper feed tray TR1 is mounted on the first tractor unit (continuous paper transport member) K1 inside the main body of the image forming apparatus U through the window U1a.
The continuous paper P with feed holes stored in the paper feed tray TR1 is formed by the first tractor unit (continuous paper transport member) K1 for transporting continuous paper and the paper transport roll R1 having a pair of rolls R1a and R1b. It is conveyed to the transfer area Q1.

FIG. 2 is an explanatory diagram of the tractor unit for paper conveyance according to the first embodiment.
In FIG. 2, the continuous paper P with feed holes is formed with fold lines (portions where small holes (or slits, perforations, etc.) are formed along a straight line) Pa every time they are separated by a predetermined distance in the paper transport direction. Yes. Further, feed holes Pb are formed on both sides of the continuous paper P with feed holes in the paper width direction at regular intervals a along the paper transport direction and at the same position in the paper transport direction.

The image forming apparatus U according to the first exemplary embodiment is provided with two rotatable tractor shafts S1 and S2 that are arranged apart from each other in the paper conveyance direction and extend in the paper width direction and parallel to the fixed shaft S0. A pair of first tractor units K1, K1 are arranged on both sides of S0, S1, S2 in the paper width direction. The shaft S0 is fixedly supported by a fixed frame (not shown), and a rotational force is transmitted from a tractor drive motor M2 (not shown) to one of the two tractor shafts S1 and S2. It is configured as follows.
Each first tractor unit K1 has a guide frame 1. Bearings 2 and 3 are mounted on the guide frame 1, and the tractor shafts S1 and S2 are rotatably supported by the bearings 2 and 3.

Timing pulleys (belt drive members) 4 and 5 are mounted on the tractor shafts S1 and S2, respectively. The guide frame 1, the bearings 2 and 3, and the timing pulleys 4 and 5 constitute belt support members (1 to 5) that rotatably support the pin belt 6.
In FIG. 2, a plurality of tractor pins 6a are provided on the outer periphery of the pin belt 6 at regular intervals a. The tractor pin 6a can be fitted into the feed hole Pb.
When the rotational force is transmitted to the tractor shaft S1, the timing pulleys 4 attached to the ends of the tractor shaft S1 on both sides in the sheet width direction rotate. As the timing pulley 4 rotates, the pin belt 6 and the timing pulley 5 on both sides in the sheet width direction also rotate. When the pin belt 6 rotates while the tractor pin 6a is fitted in the feed hole Pb, the continuous paper P with feed holes is transported in the paper transport direction.

In FIG. 2, a sheet pressing member 7 is connected to the guide frame 1 of the first tractor unit K1. The sheet pressing member 7 includes a pressing member fixing portion 7a that extends outward from the guide frame 1 and a pressing member movable portion 7b that is rotatably connected to an outer end of the pressing member fixing portion 7a.
The pressing member movable portion 7b rotates to a position where it comes into contact with the tip of the tractor pin 6a in a state where the feed hole Pb of the continuous paper P with feed holes is fitted to the tractor pin 6a of the first tractor unit K1. The pressing member movable portion 7b is held at a position in contact with the tip of the tractor pin 6a by an elastic member (not shown) to prevent the feed hole Pb of the continuous paper P with feed holes from being detached from the tractor pin 6a. .
The belt support members (1 to 5), the pin belt 6 and the paper pressing member 7 constitute a first tractor unit (continuous paper conveying member) K1. The second tractor unit K2 (continuous paper transport member) is configured in the same manner as the first tractor unit K1.

1 and 2, a sheet sensor SN1 is disposed on the back side of the continuous sheet P conveyed through the first tractor unit K1. On the back surface 7b1 of the contact surface with the tractor pin 6a of the pressing member movable portion 7b of the sheet pressing member 7 of the tractor K1, the user folds the folding line of the continuous sheet P, that is, whether it is a mountain fold or a valley fold. A fold line confirmation position line (fold line confirmation position) KP, which is a mark for confirmation, is provided.
A toner image formed on the surface of the photoconductor PR is transferred to the continuous paper P with feed holes conveyed to the transfer area Q1 by the transfer roll Tr.
The continuous paper P with feed holes onto which the toner image is transferred in the transfer area Q1 is conveyed to the fixing area Q2 by the second tractor unit (continuous paper conveying member) K2. A flash lamp type fixing device F is disposed in the fixing region Q2. The toner image on the continuous paper P with feed holes is heated and fixed by the flash lamp of the fixing device F when passing through the fixing region Q2, and is a paper guide member (guide member) disposed from the discharge roller R2 to the discharge port H. ) It passes through YG and is discharged to the paper discharge tray TR2.
A buffer arm B is provided between the second tractor unit K2 and the fixing device F.

FIG. 3 is an explanatory diagram of a main part of the first embodiment, FIG. 3A is an enlarged explanatory diagram of a guide member, and FIG. 3B is an enlarged explanatory diagram of an outer wall of the image forming apparatus.
In FIG. 3A, the sheet guide member YG of the image forming apparatus U has a pair of left and right right guide members YGa and YGb having a shape in which a lower end portion is bent outward. Upper end portions YGa1 and YGb1 of the right guide member YGa and the left guide member YGb are fixedly supported at the center portions of the gears G1 and G2, respectively.
The gears G1 and G2 mesh with the gear G3. A belt 9 is installed between the shaft G3a of the gear G3 and a drive shaft 8 of a paper guide drive motor M5 that rotates the paper guide YG in the forward and reverse directions.
Therefore, when the paper guide drive motor M5 rotates, the gear G3 rotates through the belt 9, and the gears G1 and G2 rotate in the same rotational direction. Therefore, the right guide fixedly supported at the center of the gears G1 and G2 The member YGa and the left guide member YGb move between a normal position indicated by a solid line in FIG. 3A, a mountain fold side movement position indicated by a one-dot chain line in FIG. 3A, and a valley fold position indicated by a two-dot chain line in FIG. To do.

1 and 3B, an autoload switch Sw1 for inputting an instruction for starting an autoload operation (paper feeding operation) is disposed on the surface of the outer wall U1 of the image forming apparatus U. A mountain fold switch Sw2 and a valley fold switch Sw3 are disposed below the autoload switch Sw1 (−Z side). The mountain fold switch Sw2 and the valley fold switch Sw3 are included in the fold line Pa on the upstream side in the sheet conveyance direction with respect to the fold line check position line KP when the continuous sheet P is stopped after the autoload operation is finished. The folding line Pa closest to the folding line confirmation position KP is arranged at a position where the user can select and input through the window U1a while confirming whether the folding is a mountain fold or a valley fold.
The mountain fold switch Sw2 and the valley fold switch Sw3 constitute fold line state switches (fold direction input members) (Sw2, Sw3).

FIG. 4 is an enlarged explanatory view of the periphery of the sheet guide member at the end of the autoload operation of the image forming apparatus according to the first embodiment.
In FIG. 2, the portion where the paper sensor SN1 detects the front end of the continuous paper P becomes the reference position of the front end of the continuous paper P when the continuous paper P starts to be transported downstream in the transport direction during automatic loading. A paper front end conveyance start position J1 at the time of automatic loading is set.
In FIG. 4, an automatic loading sheet front end conveyance end position J2 at which the front end of the continuous sheet P conveyed during automatic loading of the continuous sheet P stops is set between the discharge roller R2 and the sheet guide member YG. .

(Description of the control part of Example 1)
FIG. 5 is an explanatory diagram of a control portion of the image forming apparatus according to the first embodiment, and is a diagram illustrating each function provided in the control portion in a block diagram (functional block diagram).
In FIG. 5, the controller C of the printer U is connected to an external host computer HC, and a display DP is connected to the host computer HC. The controller C includes an I / O (input / output interface) that performs input / output of signals to / from the outside and adjustment of the input / output signal level, and a ROM (read-only) that stores programs and data for performing necessary processing. Memory), hard disk, RAM (random access memory) for temporarily storing necessary data, CPU (central processing unit) for processing according to programs stored in the ROM, clock oscillator, etc. Various functions can be realized by executing a program stored in the ROM or the like.

(Signal input element connected to controller C)
The controller C receives signals from signal input elements such as a UI (user interface), a paper sensor SN1, an autoload switch Sw1, and a mountain fold switch Sw2 and a valley fold switch Sw3.
The UI includes input keys such as a display unit (notification member) UI1, a numeric keypad UI2, a paper length selection button UI3, etc., and detects that they are input, and inputs a detection signal to the controller C.
The paper sensor SN1 detects the passage of the continuous paper P.
The auto load switch Sw1, the mountain fold switch Sw2, and the valley fold switch Sw3 are
The input is detected and the detection signal is input to the controller C.

(Controlled element connected to the controller C)
The controller C is connected to a main motor drive circuit D1, a tractor drive circuit D2, a clutch drive circuit D3, a feed roller drive circuit D4, a paper guide drive circuit D5, a power supply circuit E, and other control elements. An operation control signal is output.
The main motor drive circuit D1 rotationally drives the photoreceptor PR, the developing roll of the developing device D, and the like via the main motor M1.
The tractor drive circuit D2 drives the first tractor unit K1 and the second tractor unit K2 via the clutches CL1 and CL2 by driving the tractor drive motor M2.
The clutch drive circuit D3 controls on and off of the clutches CL1 and CL2.
The feed roller drive circuit D4 rotationally drives the feed roller Rb via the feed roller drive motor M4.
The paper guide drive circuit D5 drives the paper guide YG via the gears G1 to G3 by driving the paper guide drive motor M5.

The power supply circuit E includes a developing bias power supply circuit E1, a charging power supply circuit E2, a transfer device power supply circuit E3, a fixing power supply circuit E4, and the like.
The developing bias power supply circuit E1 applies a developing bias voltage to the developing roll of the developing device G.
The charging power supply circuit E2 applies a charging voltage for charging the surface of the photoconductor PR to the charger CR.
The transfer device power supply circuit E3 applies a transfer voltage to the transfer device TR.
The fixing power supply circuit E4 applies to the flash lamp a voltage for flashing the flash lamp of the flash lamp type fixing device F at a set charging voltage and light emission period.

(Function of the controller C)
The controller C has a function of executing processing according to an input signal from the signal output element and outputting a control signal to each control element.
That is, the controller C has the following functions.
C1: Job Control Unit The job control unit C1 controls each member of the image forming apparatus U to control a job that is an image forming operation.
C2: Main motor rotation control means The main motor rotation control means C2 controls the main motor M1 via the main motor drive circuit D1, and controls the rotation drive of the photoconductor PR, the developing device G, and the like.
C3: Power Supply Circuit Control Unit The power supply circuit control unit C3 controls the power supply circuit E to control voltage application / current supply to each member such as the developing device G, the charging device CR, and the transfer device Tr.

C4: Tractor control means The tractor control means C4 controls the rotation of the tractor drive motor M2 via the tractor drive circuit D2, and controls the on / off of the clutches CL1 and CL2 via the clutch drive circuit D3.
C5: Feed Roller Control Unit The feed roller control unit C5 controls the rotation of the feed roller Rb by controlling the rotation of the feed roller drive motor M4 via the feed roller drive circuit D4.
C6: Paper length storage means The paper length storage means C6 stores the paper length set by the UI paper length selection button UI3.

C7: Autoload control means (continuous paper automatic loading control means)
The autoload control means C7 has a paper front end passage determination means C7a and a paper transport time storage means C7b at the time of feeding, controls the tractor control means C4 to drive the tractor drive motor M2, and rotates the tractor unit K1 in the forward direction. Alternatively, by reverse rotation, the conveyance of the continuous paper P during the autoloading operation is controlled.
C7a: Paper front edge passage determining means The paper front edge passage determining means C7a determines whether the front edge of the continuous paper P has passed over the paper sensor SN1 based on the detection signal of the paper transport sensor SN1.
C7b: Automatic loading paper conveyance time storage means Automatic loading paper conveyance time storage means C7a completes the automatic loading operation (auto loading operation) by conveying the continuous paper P downstream in the paper conveyance direction during the auto loading operation. The sheet conveyance time ta until the completion is stored. In the first exemplary embodiment, as the paper transport time ta, a time during which the continuous paper P is transported from the automatic paper front edge transport start position J1 to the automatic paper front edge transport end position J2 is set.

C8: Paper guide member control means (guide member control means)
The sheet guide member control means C8 includes first folding line direction determination means C8a, sheet guide member movement direction determination means C8b, and sheet front end stacking position arrival time storage means C8c, and moves the sheet guide member YG. Control.
C8a: First fold line direction determining means The first fold line direction determining means C8a is stored in the sheet length storage means C6 and the input result of the fold line state switches (Sw2, Sw3) after the completion of the autoloading operation. The front end of the continuous paper P based on the length of the continuous paper P and the length of the continuous paper P from the fold line Pa determined by the user when the fold line state switch (Sw2, Sw3) is selected. The first folding line folding direction which is the first folding line on the side is determined.
That is, the following processes (1) to (3) are performed.
(1) Continuous paper that passes through the fold line check position line KP based on the length from the paper front edge conveyance start position J1 during automatic loading to the paper front edge conveyance end position J2 during automatic loading and the paper length of the continuous paper P It is determined whether P is an odd number or an even number from the front end.
(2) The folding result of the folding line Pa closest to the folding line check position line KP on the upstream side in the transport direction of the folding line status switch (Sw2, Sw3) and the folding line check position line KP is set.
(3) If the discrimination result of (1) is an odd number, the first broken line is folded in the same direction as the folding direction of (2), and if it is an even number, the first broken line is (2 ) Is determined to be folded in the opposite direction.
When both of the fold line state switches (Sw2, Sw3) are input when performing the above-described processing, the input of the switch pressed later is applied, and the first fold line folding direction is determined. Is done.
C8b: Paper Guide Member Movement Direction Discriminating Unit The paper guide movement direction discriminating unit C8b performs an autoloading operation based on the determination result of the folding direction of the first fold line on the front end side of the continuous paper P by the first fold line direction discrimination unit C8a. At the time of printing the first continuous paper P after that, it is determined which side the paper guide member YG is moved to the mountain folding side moving position (see FIG. 3A1 dotted line) or the valley folding position (see FIG. 3A2 dotted line).
C8c: Paper front edge stacking position arrival time storage means The paper front edge stacking position arrival time storage means C8c conveys the front edge of the continuous paper P to be conveyed when the first continuous paper P is printed after the autoloading operation. The paper transport time tb from the end position J2 until reaching the surface of the paper discharge tray TR2 is stored.

TM1: Automatic loading paper conveyance time timer Timer automatic loading paper conveyance time timer TM1 measures the paper conveyance time ta stored in the automatic loading paper conveyance time storage means C7a, and the paper conveyance time ta has elapsed. Then time is up.
TM2: Paper front end stacking position timing timer The paper front end stacking position timing timer TM2 measures the sheet transport time tb stored in the sheet front end stack position arrival time storage means C8c, and the time when the sheet transport time tb elapses. Up. The sheet front end stacking position timing timer TM2 is stopped when the job is completed during the sheet conveyance time tb, and is restarted when the job is resumed during the timing interruption.
FL: Autoloading operation end determination flag The initial value of the autoloading operation end determination flag FL is “0”. When the autoloading operation is completed, FL = “1”. Is started, FL = “0”.

(Explanation of flowchart)
FIG. 6 is a flowchart of autoload processing of the image forming apparatus according to the first exemplary embodiment.
The processing of each ST (step) in the flowchart of FIG. 6 is performed according to a program stored in the ROM of the controller C. This process is executed in a multitasking manner in parallel with other various processes of the image forming apparatus U.
The autoload process shown in FIG. 6 is started when the image forming apparatus U is turned on.
In ST1 (step 1) in FIG. 6, it is determined whether or not the autoload button has been input (turned on). If no (N), ST1 is repeatedly executed, and if yes (Y), the process proceeds to ST2.
In ST2, it is determined whether or not the sheet sensor SN1 has detected the continuous sheet P. If yes (Y), the process proceeds to ST3, and, if no (N), the process proceeds to ST4.
In ST3, the tractor K1 is reversely rotated (backed).
In ST4, the tractor K1 is rotated forward.

In ST5, it is determined whether or not the sheet sensor SN1 detects the front end of the continuous sheet P. If no (N), ST5 is repeatedly executed, and if yes (Y), the process proceeds to ST6.
In ST6, the following processes (1) and (2) are executed, and the process proceeds to ST7.
(1) The tractors K1 and K2 are rotated forward to transport the continuous paper P downstream in the paper transport direction.
(2) The paper transport time ta is set in the paper transport time count timer TM1 during paper feeding.
In ST7, it is determined whether or not the paper feeding time count timer TM1 at the time of feeding has expired. If no (N), ST7 is repeatedly executed, and if yes (Y), the process proceeds to ST8.
In ST8, the following processes (1) and (2) are executed, and the process returns to ST1.
(1) Stop driving the tractors K1, K2.
(2) Auto-load operation end determination flag FL is set to “1”.

FIG. 7 is a flowchart of the paper guide control process of the image forming apparatus according to the first exemplary embodiment.
The processing of each ST (step) in the flowchart of FIG. 7 is performed according to a program stored in the ROM of the controller C. This process is executed in a multitasking manner in parallel with other various processes of the image forming apparatus U.
The sheet guide control process shown in FIG. 7 is started when the image forming apparatus U is turned on.
In ST11 of FIG. 7, it is determined whether or not print data from the host computer HC has been received. If no (N), ST11 is repeatedly executed, and if yes (Y), the process proceeds to ST12.
In ST12, it is determined whether or not the autoload operation end determination flag FL = “1”. If no (N), the process moves to ST25, and if yes (Y), the process moves to ST13.
In ST13, the flag FL is set to “0”, and the process proceeds to ST14.

In ST14, it is determined whether or not the folding line state switches Sw2 and Sw3 are input (ON). If no (N), the process moves to ST27, and if yes (Y), the process moves to ST15.
In ST15, the folding direction of the folding line Pa at the closest upstream position in the transport direction from the folding line confirmation position line KP, the sheet length stored in the sheet length storage means C6, and the folding direction from the front end of the continuous sheet P are determined. Based on the determined length of the continuous paper P up to the folding line Pa, the first folding line folding direction of the continuous paper P is determined, and the process proceeds to ST16.
In ST16, it is determined whether or not the first fold line direction determined in ST15 is a mountain fold side. If yes (Y), the process proceeds to ST17, and, if no (N), the process proceeds to ST18.
In ST17, the paper guide member YG is moved to the mountain folding side moving position (see FIG. 3A), and the process moves to ST19.
In ST18, the paper guide member YG is moved to the valley folding position (see FIG. 3A), and the process proceeds to ST19.

In ST19, the paper transport time tb is set in the paper front edge stacking position arrival time clock timer TM2, and the process proceeds to ST20.
In ST20, driving of the tractors K1 and K2 is started, and the process proceeds to ST21.
In ST21, it is determined whether or not the paper front edge stacking position arrival time counting timer TM2 has expired. If no (N), the process moves to ST23, and if yes (Y), the process moves to ST22.
In ST22, the sheet guide member YG is moved to the normal position (see FIG. 3A), and the process returns to ST11.
In ST23, it is determined whether or not the job is finished. If no (N), the process returns to ST21. If yes (Y), the process proceeds to ST24.
In ST24, the timing of the paper front end stacking position arrival time timing timer TM2 is interrupted, and the process returns to ST11.

In ST25, the paper front end stacking position arrival time timing timer TM2 determines whether the timing is interrupted. If yes (Y), the process proceeds to ST26, and, if no (N), the process proceeds to ST27.
In ST26, the timing of the paper front end stacking position arrival time timing timer TM2 is restarted, and the process proceeds to ST20.
In ST27, a normal printing process is performed with the paper guide member YG in the normal position, and the process proceeds to ST28.
In ST28, it is determined whether or not the job is finished. If no (N), ST28 is repeatedly executed, and if yes (Y), the process returns to ST11.

(Operation of Example 1)
In the image forming apparatus U according to the first embodiment having the above-described configuration, when a new continuous paper P is loaded, the user is in a state where the tractor pin 6a of the tractor unit K1 is fitted in the feed hole Pb of the continuous paper P. The autoload switch Sw1 is input to start the autoload (automatic loading) operation.
When the auto-load operation is started, the front end of the continuous paper P is once aligned with the automatic loading paper conveyance start position J1 (see ST2 to ST5), and then the automatic loading paper front edge conveyance on the downstream side in the paper conveyance direction. It is transported to the end position J2, and the autoloading operation ends.

  When the first print job (image forming operation) after auto-loading is started, the user looks through the window U1a after the auto-loading operation and the folding line at the closest position in the conveyance direction upstream of the folding line check position line KP When one of the fold line state switches (Sw2, Sw3) is input while checking whether the folding direction of Pa is a mountain fold or a valley fold, the controller C causes the fold line state switch (Sw2) to be input. , Sw3), the paper length of the continuous paper P, and the continuous paper P from the folding line Pa determined by the user when the folding line state switch (Sw2, Sw3) is selected to the front edge of the continuous paper P. Based on the length, the folding direction of the first folding line of the continuous paper P is determined.

Thereafter, the sheet guide member YG moves to a position corresponding to the folding direction of the first folding line of the continuous sheet P determined by the controller C. As a result, the continuous paper P is guided and conveyed by the paper guide member YG, and is stacked on the discharge tray (paper discharge unit) TR2 in a state of being folded along the folding direction of the first fold line. When the front end of the continuous paper P guided by the paper guide member YG reaches the surface of the discharge tray TR2, the paper guide member YG returns to the normal position.
Therefore, in the image forming apparatus U according to the first embodiment, the continuous paper P can be folded along the folding direction of the first fold line at the start of stacking of the continuous paper P after the auto-loading operation onto the discharge tray TR2. it can. Therefore, the folding failure of the continuous paper P on the discharge tray TR2 can be reduced.

In the first exemplary embodiment, the continuous paper P is stopped at the automatic paper loading end conveyance end position J2 in the image forming apparatus U during auto loading. For this reason, compared to a conventional configuration in which several pages are folded and stacked on the discharge tray TR2 during auto-loading, it is possible to reduce the number of pages on which images are not recorded, thereby reducing waste of the continuous paper P. Can do.
Furthermore, in the first embodiment, the paper guide member YG is driven only during the printing process immediately after auto-loading. Therefore, compared with the conventional configuration in which the paper guide member YG is swung every time the printing process is performed, power consumption and component damage are reduced. Can be reduced.

FIG. 8 is an explanatory diagram of a control portion of the image forming apparatus according to the second embodiment, and is a diagram illustrating each function provided in the control portion in a block diagram (functional block diagram).
In the description of the second embodiment, components corresponding to those of the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.
The second embodiment is different from the first embodiment in the following points, but is configured in the same manner as the first embodiment in other points.

C8d: Folding line folding direction selection request notifying means Folding line folding direction selection request notifying means C8d provides the user with the information when neither the mountain fold switch Sw2 nor the valley fold switch Sw3 is selected by the user after the autoloading operation. On the other hand, a notification message requesting to select one of the mountain fold switch Sw2 and the valley fold switch Sw3 is displayed on the display unit UI1 of the user interface UI.

(Explanation of flowchart)
FIG. 9 is a flowchart of the paper guide control process of the image forming apparatus according to the second embodiment, and corresponds to the flowchart of FIG. 7 of the first embodiment.
In the description of the second embodiment, components corresponding to those of the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.
The second embodiment is different from the first embodiment in the following points, but is configured in the same manner as the first embodiment in other points.

If no (N) in ST14, the process proceeds to ST31.
In ST31, an error message “Please input paper fold or valley fold” is displayed on the display unit UI1 of the user interface UI, and the process returns to ST14.

(Operation of Example 2)
In the image forming apparatus U according to the second embodiment having the above-described configuration, when the folding line state switches (Sw2, Sw3) are not input after the autoloading operation is completed, an error message is displayed and notified to the user. The continuous paper P is not printed until the folding line state switch (Sw2, Sw3) is input. For this reason, in the second embodiment, the continuous paper P can be reliably guided in the direction along the first folding line folding direction, and the same effects as the image forming apparatus U of the first embodiment can be obtained.

(Example of change)
As mentioned above, although the Example of this invention was explained in full detail, this invention is not limited to each said Example, A various change is made within the range of the summary of this invention described in the claim. Is possible. Modified examples (H01) to (H02) of the present invention are exemplified below.
(H01) In each of the above embodiments, the paper front end conveyance end position J2 at the time of automatic loading is set between the discharge roll R2 and the paper guide member YG. However, the present invention is not limited to this. It can be set at an arbitrary location on the paper transport path between the transport start position J1 and the paper guide member YG.
(H02) The paper feed tray TR1 is installed outside the image forming apparatus U. However, the present invention is not limited to this, and the user looks through the window U1a and folds the fold line check position line KP at the closest position upstream in the transport direction. If the tractor K1 can be arranged at a position where the Pa folding direction can be confirmed, it can be installed inside the image forming apparatus U.

FIG. 1 is an overall explanatory view of an image forming apparatus according to a first embodiment. FIG. 2 is an explanatory diagram of the tractor unit for paper conveyance according to the first embodiment. FIG. 3 is an explanatory diagram of a main part of the first embodiment, FIG. 3A is an enlarged explanatory diagram of a guide member, and FIG. 3B is an enlarged explanatory diagram of an outer wall of the image forming apparatus. FIG. 4 is an enlarged explanatory view of the periphery of the paper guide member at the end of the autoloading operation of the first embodiment. FIG. 5 is an explanatory diagram of a control portion of the image forming apparatus according to the first embodiment, and is a diagram illustrating each function provided in the control portion in a block diagram (functional block diagram). FIG. 6 is a flowchart of autoload processing of the image forming apparatus according to the first exemplary embodiment. FIG. 7 is a flowchart of the paper guide control process of the image forming apparatus according to the first exemplary embodiment. FIG. 8 is an explanatory diagram of a control portion of the image forming apparatus according to the second embodiment, and is a diagram illustrating each function provided in the control portion in a block diagram (functional block diagram). FIG. 9 is a flowchart of the paper guide control process of the image forming apparatus according to the second embodiment, and corresponds to the flowchart of FIG. 7 according to the first embodiment.

Explanation of symbols

C7: Continuous paper automatic loading control means,
C8: guide member control means,
C8A: first folding line folding direction determining means,
H ... outlet,
J2 ... Paper front edge conveyance end position during automatic loading,
KP ... fold line check position,
K1, K2 ... continuous paper transport device,
P: Continuous paper,
Sw2 ... mountain fold switch,
Sw3 ... Valley fold switch,
Sw2, Sw3 ... Folding direction input member,
TR2: Paper discharge section,
U: Image forming apparatus,
YG: Guide member.

Claims (4)

A continuous paper transport device for transporting continuous paper on which images are recorded;
A discharge port through which continuous paper with recorded images is discharged;
A paper discharge unit on which the continuous paper discharged from the discharge port is stacked in a folded state;
The continuous paper discharged from the discharge port is guided to the paper discharge unit, and is folded along the folding line of the continuous paper so as to be folded in the folding direction of the mountain fold, and the folding line of the continuous paper. And a guide member movable between a valley fold position that is guided so as to be folded along a valley fold direction, and a normal position between the mountain fold position and the valley fold position,
A new continuous paper is controlled by controlling the continuous paper transport device to transport the front end of a new continuous paper to the automatic front paper front end transport end position set upstream of the discharge port in the continuous paper transport direction. Continuous paper automatic loading control means for automatically loading
A fold direction input member for inputting a fold direction at a fold line confirmation position where a user confirms a fold line of newly loaded continuous paper;
The input from the folding direction input member, the length along the paper conveyance direction from the folding line check position to the front end conveyance end position of the automatic loading paper, and one page sandwiched between adjacent folding lines of the continuous paper The first fold line folding direction discriminating means for discriminating the folding direction of the first fold line, which is the fold line formed first from the continuous paper conveyance direction of the new continuous paper loaded automatically, based on the paper length of When,
Guide member control means for moving the guide member to the mountain fold position or the valley fold position so as to be folded along the folding direction of the first fold line;
An image forming apparatus comprising: The guide member control means for moving the guide member to the mountain fold position or the valley fold position only when the first fold line is folded, and holding the guide member at a normal position in other cases,
2. The image forming apparatus according to claim 1, further comprising: The folding includes: a mountain fold switch that is input when the folding direction at the fold line confirmation position is a mountain fold; and a valley fold switch that is input when the folding direction at the fold line confirmation position is a valley fold. Direction input member,
The image forming apparatus according to claim 1, further comprising: The folding direction input member disposed at a position where a user can input while confirming the folding line confirmation position,
The image forming apparatus according to claim 1, further comprising:

Images