JP4200127B2 - Image forming apparatus - Google Patents

Description

  The present invention relates to an image forming apparatus such as a printer using a medium such as cut paper, and more particularly to an image forming apparatus having a mechanism capable of duplex printing or changing a printing speed.

  The printer device according to the conventional example is a printer device that uses cut paper and is equipped with a double-sided printing mechanism, and office paper that is used only on one side in offices is reused as printer paper for environmental reasons. There is an increasing number of cases (hereinafter, this office paper that is used only on one side is referred to as “back paper”). If you want to print these backing papers with an apparatus that has a duplex printing mechanism, you can only print on one side, so you need to print without using the duplex printing mechanism. There was a conventional example with a mechanism.

  As shown in FIG. 23, the printer apparatus according to the conventional example is accommodated in a paper cassette based on a printing method instruction unit 91 for instructing either a double-sided printing method or a single-sided printing method, and the identification mechanism. Cassette sensor 93 that identifies whether the paper being printed is for double-sided printing, and single-sided printing instructions for double-sided printing if the paper contained in the paper cassette is identified as paper for double-sided printing In some cases, the printer has a single-sided printing change unit 92 for changing to the above instruction and a printing method control unit 94 capable of duplex printing.

  In the printer apparatus according to the conventional example, as described above, by instructing double-sided printing by the printing method instruction unit 91, in the case of a paper cassette that does not have a special identification mechanism, from the host. If it is determined that the single-sided printing change unit 92 cannot withstand double-sided printing on the basis of the identification result of the cassette sensor 93, the printing method control unit 94 For one side printing. However, the backside paper that cannot withstand double-sided printing simply by performing single-sided printing instead of double-sided printing has undergone a printing process once, so the paper is slightly curled, wrinkled, etc. There is a problem that paper jam is likely to occur compared to office paper. In addition, when the paper cassette does not have a special identification mechanism, the instruction becomes complicated when instructing whether or not double-sided printing is performed by a command from the host or by an operator from the operation panel or the like. Has a point.

  Accordingly, the present invention provides a reliable and high-quality image forming apparatus with less wasteful printing such as conveyance failure by identifying or setting whether or not the quality can withstand double-sided printing and high-speed printing. It was made for the purpose of doing.

In order to solve the above technical problems, the first invention is an image forming apparatus capable of performing single-sided printing and double-sided printing as shown in FIG. 1, and performing single-sided printing or double-sided printing based on an instruction command. And a public command instruction means 20 for instructing whether to adopt a double-sided printing method or a single-sided printing method using a normal print command which is a public command published to an operator. For each one or two or more medium storage units, an extended print command that is a private command that is private to the operator is used to determine whether to apply the double-sided printing method or the single-sided printing method to the contained medium. Regardless of the instruction contents of the secret command setting means 21 to be set and the secret command instruction means 20, both sides are set based on the setting contents of the secret command setting means 21. Unpublished command priority printing scheme indicating means 22 for indicating a printing method or a single-side printing mode, and has a print method control unit 26 for controlling the duplex printing method or single-sided printing mode.
Here, the “private command” includes, for example, a command used when setting is performed by opening an environment setting screen by a printer driver on the OS. “Attached” means that the medium accommodating portion is detachably attached to the image forming apparatus, and “provided” means that the medium accommodating portion is fixedly provided to the image forming apparatus. Indicates the case.

As shown in FIG. 2, according to the second invention, setting contents corresponding to various modes are sequentially switched in a predetermined order according to a predetermined operation by an operator, and various modes are sequentially performed by repeating the operation. The various mode sequential setting means 39 for performing the setting and the display means 36 for sequentially displaying items related to the setting contents in synchronization with the switching of the setting contents according to the various modes of the various mode sequential setting means 39. And a medium storage unit attachment / detachment detection means 38 for detecting attachment or detachment of a plurality of medium storage units for storing media, and the setting when any of the medium storage units is detected. A printing method setting stage switching means 37 for switching the contents and display contents to a stage for setting either the duplex printing method or the simplex printing method, and a hand for setting the printing method for each medium accommodating unit And medium information output means for outputting medium information indicating a printing method applied to the medium accommodated in the attached one or two or more of the medium accommodating portions set using the various mode sequential setting means 39 46.
Here, the various modes are set by the “various mode sequential setting means 39” when performing various mode setting operations, instead of providing a dedicated switch for each of the various modes. This is because a small number of switches are shared for setting various modes, so that it is possible to set various types of modes sufficiently larger than the number of switches.

(Function)
The operation of the first invention will be described. A printing command including a printing method is issued by the public command instructing means 20 using a public command. At that time, or when the printing method is set in advance by the secret command setting means 21, the secret command priority printing method instruction means 22 is set by the secret command setting means 21. A double-sided printing method or a single-sided printing method is instructed based on the printing method. Therefore, since priority is given to the application of the printing method set for the medium to be printed, useless printing can be prevented and printing can be performed efficiently.

  In the second aspect of the invention, normally, when setting the double-sided printing method, the operator uses the various mode sequential setting means 39 to repeat operations many times in order from the mode with the highest importance. The setting contents are switched to reach the operation stage of the duplex printing mode, and the duplex printing mode setting operation is performed. However, when the attachment / detachment of the medium storage unit is detected by the medium storage unit attachment / detachment detection unit 38, the medium storage unit that has been attached / detached is supplied with a medium to the medium storage unit, replaced with a medium storage unit, or the like. Therefore, it is necessary to newly set whether or not double-sided printing is possible for the medium stored in the medium storage unit. Therefore, when the attachment / detachment of the medium storage unit is detected by the medium storage unit attachment / detachment detection unit 38, the printing method setting stage switching unit 37 is in a state where the double-sided printing method or the single-sided printing method can be immediately set. The mode sequential setting means 39 is switched. As a result, the medium information can be set easily, efficiently and reliably.

  As described above, according to the first invention, in a device capable of duplex printing, it is possible to set a printing method instruction using a public command and whether or not double-sided printing is possible for each medium using a private command, and to disclose The setting of the private command is prioritized over the command instruction. Therefore, since a medium that can be used on only one side and a medium that can be printed on both sides can be used properly, wasteful printing can be prevented and printing can be performed efficiently.

  In the second invention, various modes in which setting contents corresponding to various modes are sequentially switched in a predetermined order according to a predetermined operation of the operator, and various modes are sequentially set by repeating the operation. When the attachment / detachment of the medium storage unit is detected with respect to the sequential setting means, the setting contents and display contents are switched to a stage for setting a printing method including a duplex printing method or a simplex printing method. Therefore, compared with the case where either the duplex printing method or the simplex printing method is sequentially set by using the various mode sequential setting means, it is possible to switch easily and easily at an early stage, and it is easy to operate. An image forming apparatus can be provided.

  An embodiment of the present invention will be described with reference to FIGS. FIG. 3 is a diagram showing an electrophotographic printer apparatus according to this embodiment. As shown in FIGS. 5A and 5B, the sheet cassette 1 with an identification mechanism, which is a medium accommodating portion that is detachably attached to the printer apparatus and accommodates the sheet 6 that is a medium, and various types depending on the operator. An operator panel 2 including an operation unit 55 for performing the above operation and a display unit 54 for performing display to an operator, and a paper discharge tray 3 for storing paper discharged after printing is completed. FIG. 3B shows a photosensitive drum 4 that is exposed to form a latent image and an optical unit that irradiates the outer peripheral surface of the photosensitive drum 4 according to print data to form a latent image. An exposure unit 5, a developing unit 8 that develops the latent image by attaching toner onto the photosensitive drum 4 on which the latent image is formed, and a toner image formed on the photosensitive drum 4 is transferred onto the paper. A transfer roller 48, a variable speed conveyance mechanism 74 including a conveyance roller 9 and a paper discharge roller 10, a fixing unit 49 that thermally fixes a toner image transferred onto the sheet 47 being conveyed to the sheet, and a sheet from the sheet cassette 1. And a pickup roller 7 which is the paper feed mechanism 75 that supplies the variable speed transport mechanism 74 to the variable speed transport mechanism 74.

  FIG. 4 is an overall block diagram of a control system of the printer apparatus according to this embodiment. As shown in the figure, the printer device includes a CPU and a memory, and a main control unit 50 that performs various controls related to the printer device, and a mechanical control that includes a CPU and a memory that mainly perform mechanical control of the printer device. Part 51, a double-side capable / speed variable mechanism part 52 having various mechanisms capable of changing the printing speed and capable of double-sided printing and single-sided printing, the operation part 55 and the display part provided on the operator panel 2 54, an interface 60 for controlling connection between the printer device and the host 53, a paper sensor 58 provided in the transport path for detecting the presence or absence of transport of the paper 47, and the paper cassette with an identification mechanism. 1 includes an attachment / detachment sensor 59 that detects attachment / detachment of the paper 1 and the sheet cassette 1 with an identification mechanism.

  The main control unit 50 corresponds to the printing method instruction unit, the printing speed instruction unit, or the printing method / speed instruction unit, and performs analysis of data received from the host 53, and a first implementation. The printing speed changing unit 63 according to the example, the paper quality information storage unit 64 according to the second and fourth embodiments, the printing speed switching unit 65 according to the fourth embodiment, and the B according to the third embodiment. A group priority printing method instruction unit 66, a single-sided printing change unit 67, a low-speed print instruction unit 68, a JAM occurrence rate calculation unit 69, a low-speed change unit 56, and a temporary low-speed change unit 77 are included.

  Further, the mechanical control unit 51 includes a printing speed control unit 70 that performs control to achieve the instructed printing speed, a printing method control unit 71 that controls a duplex printing method or a single-sided printing method, and a paper source selection instruction unit. 73. Further, as shown in the figure, the double-side capable / speed variable mechanism unit 52 includes the transport mechanism 74, the paper feed mechanism 75, the photosensitive drum 4, the developing unit 8, and the like, and displays a latent image as a visible image. A process mechanism 76, the fixing unit 49, and an exposure unit 5 that performs exposure on the photosensitive drum. Further, the operation unit 55 includes a various mode sequential setting unit 79, a command A group instruction unit 80, and a command B group setting unit 81, as shown in FIG.

  Next, the first embodiment will be described with reference to FIGS. As shown in FIG. 5, in the printer device according to the present embodiment, the contents of the command are analyzed in accordance with the command from the host 53 that is the host device, and either the duplex printing method (mode) or the simplex printing method is selected. The analysis unit 62 that gives an instruction of the printing method or the printing speed, and when the printing method instructed by the analysis unit 62 is the single-sided printing method and the instruction from the analyzing unit 62 is high-speed printing, the cassette Switching to a printing speed that can withstand the quality identified by the sensor 57 and enabling double-sided printing via the printing speed control unit 70 Printing speed switching unit 65 that instructs the speed mechanism unit 52 and double-sided printing method using the analysis unit 62 If the cassette sensor 57 identifies that the paper to be printed has a quality that can only withstand low-speed printing, The and a single-sided printing changing unit 67 for changing the instruction of the one-side printing method in the main controller 50. In addition, the mechanical control unit 51 receives an instruction from the printing speed switching unit 65, and instructs the double-sided possible / speed variable mechanism unit 52 to instruct the corresponding printing speed, and the single-sided And a printing method control unit 71 that controls the printing method in response to an instruction from the printing change unit 67. Further, based on the paper cassette 1 with an identification mechanism provided with an identification mechanism indicating the quality of the stored paper and the identification mechanism provided in one paper cassette 1 with an identification mechanism, the paper cassette 1 is accommodated. And a cassette sensor 57 for identifying how much printing speed the sheet is capable of withstanding.

  FIG. 6 is an explanatory diagram showing the quality of the paper according to the first embodiment. Fig. 2 (a) shows a new office paper of high quality that can withstand double-sided printing and high-speed conveyance. Fig. 2 (b) shows a backing paper that is used only for single-sided printing. In addition, it is of low quality that cannot withstand high-speed conveyance due to slight curling of paper or wrinkles.

  FIG. 7 shows a partially enlarged view of the paper cassette 1 with an identification mechanism according to the first embodiment. As shown in the figure, the identification mechanism 82 is a slide switch that is provided in the vicinity of the tip of the one side surface of the sheet cassette 1 with the identification mechanism and protrudes slightly on three side surfaces that can slide in the front-rear direction. 82a, 82b, 82c. By sliding the slide switches 82a, 82b, and 82c by a predetermined distance in the front-rear direction from the fixed positions, the quality of the paper that is the medium stored in the paper cassette 1 with the identification mechanism is indicated.

  Further, FIG. 8 shows the cassette sensor 57. As shown in the figure, the cassette sensor 57 according to this embodiment includes three slide switches 82a, 82b, 82b of the identification mechanism 82 among the sheet cassette 1 with the identification mechanism attached to the printer device. Three micro switches 83a, 83b, 83c are attached at positions where they can come into contact with 82c. The micro switches 83a, 83b, and 83c are connected to the main control unit 50 through conductive wires. The micro switch 83b is turned on by the slid slide switch 82b in the identification mechanism 82, and the micro switches 83a and 83c corresponding to the slide switches 82a and 82c that are not slid are in the OFF state. By this ON or OFF state, the main control unit 50 is notified of the quality of the paper stored in the paper cassette 1.

  Furthermore, FIG. 9 shows another example of the printer apparatus according to the first embodiment. In this example, as shown in the figure, the paper cassette 1 with the identification mechanism and the cassette sensor 57 do not identify the quality of the paper but reflect the light from the light emitting element 84 that irradiates the back surface of the paper and the back surface. The combination of the light receiving elements 85 that detect the detected light identifies whether the paper is a backing paper from the reflectance of the light on the back surface.

  Next, the operation of the printer apparatus according to the first embodiment will be described with reference to FIG. As shown in the flowchart of FIG. 10, in step S11, a print activation signal and print data from the host 53 are received by the data receiving unit. The received data is analyzed by the analysis unit 62, and information relating to the setting instruction of the apparatus and actual print data are processed separately. In step S12, every time the generation of print data for one page is completed, the main control unit 50 checks the setting information transmitted from the host 53, and the analysis unit 62 determines whether or not printing is activated. . If the print is not activated, the process returns to step S11 to wait for the print activation. If it is determined in step S12 that printing has been started, the process proceeds to step S13, and the single-sided printing change unit 67 determines whether it is a double-sided printing method or a single-sided printing method in accordance with a command from the analysis unit 62.

  If it is determined that the double-sided printing method has been instructed, the single-sided printing change unit 67 proceeds to step S15 and immediately reads the identification result of the cassette sensor 57. If it is determined in step S16 that the micro switch 83b is in the ON state, the paper stored in the paper cassette 1 with the identification mechanism is a back paper, and in the high-speed printing mode, paper jam frequently occurs. In step S17, the instruction is changed to the single-sided printing method.

  On the other hand, if it is determined in step S13 that the duplex printing mode is not selected, the process proceeds to step S14, and the printing speed switching unit 65 determines whether the instruction of the analysis unit 62 is an instruction of the high speed printing mode. . In the case of the high-speed printing mode, the process proceeds to step S15, and proceeds to step S15 to step S17 to instruct the printing speed control unit 70 in the low-speed mode. On the other hand, when the print speed switching unit 65 determines in step S14 that the instruction from the analysis unit 62 is not the high speed print mode but the low speed print mode, or in step S16, the micro switches 83a, b, c are turned on. When it is determined that the state is the OFF state, it is determined that the sheet cassette 1 with an identification mechanism contains a sheet that can withstand high-speed conveyance or can be printed on both sides, and the one-sided printing change unit 67. The printing speed switching unit 65 instructs the mechanical control unit 51 to continue printing as instructed by the host 53.

  As described above, according to the first embodiment, when the paper stored in the paper cassette 1 with the identification mechanism is the back paper, there is a possibility that paper jam frequently occurs in the high-speed printing mode. In anticipation, printing is started by switching to the low-speed printing mode, so that it is possible to prevent paper jams from occurring, prevent wasteful printing, and increase the burden on the operator. In addition, if there is a risk of jamming, switching to the low-speed printing mode keeps the device life long and performs printing at the optimum printing speed that matches the quality of the paper, resulting in high print quality and reliability. A printer device can be provided.

Next, a printer apparatus according to the second embodiment will be described with reference to FIGS. As shown in FIG. 11, in the printer device according to the present embodiment, the setting content according to various modes is sequentially switched in a predetermined order in the operation unit 55 according to a predetermined operation by the operator. Various mode sequential setting unit 79 for sequentially setting various modes by repeating the operation is provided. The main control unit 50 accommodates the paper cassettes 1 ₁ and 1 _{2 for} each of the paper cassettes 1 ₁ and 1 ₂ set in a predetermined stage of the various mode sequential setting unit 79 and attached to the printer device. The paper quality information storage unit 64 that stores the paper quality information indicating how much the printing paper can withstand the printing speed, the analysis unit 62 that analyzes the command from the host 53, and the analysis unit 62 A printing speed changing unit that changes the printing speed to a printing speed that the quality can withstand and instructs the printing speed control unit 70 based on the quality information stored in the paper quality information storage unit 64 63 is provided. Further, the mechanical control unit 51 is provided with a printing method control unit 71 and a printing speed control unit 70.

  That is, the printing speed changing unit 63 gives priority to the quality information set by the various mode sequential setting unit 84 in the paper quality information storage unit 64 over the high-speed printing command transmitted from the host 53. The various mode sequential setting unit 79 includes six switches 79a to 79f in this example, as shown in FIG. 4 or FIG. These switches include a menu switch 79a, an online / offline switch 79b, enter switches 79c and 79d for performing transition between layers, and selection switches 79e and 79f for performing transition along each layer.

Next, the operation of this embodiment will be described with reference to FIG. FIG. 13 shows a processing procedure for switching the various mode sequential setting section 79 to set the paper quality information for the paper cassettes 1 ₁ and 1 ₂ . Initially, the printer apparatus is in an online state connected to the host 53, and “Online” is displayed on the display unit 54. In step S21, when the operator depresses the online / offline switch 79b in the various mode sequential setting section 79, the printer device is disconnected from the host 53 and is in an off-line state, indicating that “offline” is displayed. Displayed on the unit 54.

  In step S22, when the operator depresses the menu switch 79a for about 6 seconds, the various mode sequential setting unit 79 first switches to the paper setting mode, and the display unit 54 indicates that “YOSEI SETTING” is displayed. Is displayed. The paper setting mode is for setting the size of the paper on which printing is performed, such as A4, and setting the printing direction (vertical and horizontal) of the paper. If the current state is not changed, the operator proceeds to step S23 without performing paper setting, presses the selection switch 79f to switch to the IF setting mode which is the next mode through the mode, and displays the display. The section 54 displays “I / F setting”. In the I / F mode, a host from which a plurality of hosts are to receive an instruction is selected.

If the current state is not to be changed, the operator depresses the selection switch 79f in step S24 to pass this mode and shift to the cassette selection mode which is the next mode. “Select” is displayed. The cassette selection mode is a mode for setting which paper cassette 1 ₁ , 1 ₂ is selected from among a plurality of attached paper cassettes 1 ₁ , 1 ₂ . If the current state is not to be changed, the operator presses the selection switch 79f as described above in step S25, passes through this mode, shifts to the double-sided printing mode which is the next mode, and displays the display unit 54. To display “Ryomen Insatsu”. The duplex printing mode sets whether to perform duplex printing or single-sided printing. In this state, the various mode sequential setting unit 79 sets whether the quality of the paper stored in the selected paper cassette 1 ₁ , 1 ₂ is double-sided printing or single-sided printing only. can do.

When the operator wants to select the duplex printing setting mode, the operator does not press the selection switch 79f to shift to another mode, but shifts to a deeper layer (so-called downward direction) in the mode. In step S26, the enter switch 79c is pressed to enter the duplex printing setting mode state. Then, the display unit 54 displays “RIGHT OFF ^* ” indicating that the current state is not the double-sided printing state but the single-sided printing state is set. Therefore, in order to shift in the horizontal direction within the layer (that is, shift while remaining in the duplex printing setting mode), the selection switch 79f is pressed in step S27. Then, the single-sided printing mode is shifted to the double-sided printing mode, and the display unit 54 displays “Release ON”.

In step S28, the operator depresses the enter switch 79c to set the duplex printing mode, and “display ON ^* ” indicating that the current state is the duplex printing mode is displayed on the display unit 54. When the setting of the duplex printing mode is completed, in step S29, the online / offline switch 79b is pressed to return to the online state, and the print activation from the host 53 is waited.

  As described above, according to the second embodiment, the operator operates the operator panel to install each paper cassette, in other words, each paper cassette attached. For each position, it is possible to set the quality of whether or not double-sided printing is possible on the accommodated paper, in other words, whether or not it can withstand high-speed conveyance. Therefore, even if a high-speed printing instruction is issued from the host 53, which is a higher-level device, the conveyance failure can be determined by switching whether to ignore or follow the instruction based on the set paper quality information. Can prevent, keep the life of the device long, and perform high quality printing.

A printer apparatus according to a third embodiment will be described with reference to FIGS. As shown in FIG. 14, the printer apparatus according to the present embodiment includes a double-side capable / speed variable mechanism 52 that can change the printing speed for transporting paper and can perform double-sided printing as well as single-sided printing. The mechanical control unit 51 includes a printing method control unit 71 that controls the double-sided printing method or the single-sided printing method. Further, the operator panel 2 is provided with a display unit 53 and an operation unit 55. The operation unit 55 includes a command A disclosed to the operator, including whether to employ double-sided printing or single-sided printing. The command A group operation unit 80 for instructing printing using the group and the sheets accommodated in the _two sheet cassettes 1 ₁ and 1 ₂ attached to the printer device can be printed on both sides or cannot be printed. A command B group operation unit 81 that is set using a command B group that is not disclosed to the operator is provided.

  Further, the main control unit 50 instructs the B group priority printing method to instruct double-sided printing or single-sided printing based on the setting content of the command B group operating unit 81 regardless of the instruction content of the command A group operating unit 80. Part 66. FIG. 15 illustrates a command A group and a command B group which are two types of commands included in the printer apparatus according to the present embodiment. As shown in the figure, the command A group is also described in a manual or the like, and is a normal double-sided printing command that is disclosed to the user, and the command B group is an extension dedicated to a printer driver that is not disclosed to the user. This is a duplex printing command. Both of these commands have substantially the same function, but the B group priority printing method instruction unit 66 gives priority to the instruction by the command B group over the instruction by the command A group. As shown in the figure, when a normal application program (application program) is used, the command group A operation unit 80 instructs the printing apparatus to the printer apparatus by a group A command.

On the other hand, by the operation of the command B group operation unit 81, the printer driver on the OS gives an instruction to the printer by the B group command. The printer driver can open a printer environment setting screen on the OS, and issues a designation command by the group B based on the setting on the setting screen. When using the "back sheet", where the command group B operation unit 81, the single-sided printing mode is set for the paper cassette 1 _1, 1 ₂ corresponding environmental setting screen by the printer driver. As a result, a single-sided printing mode designation command is issued to the main control unit 50 by the group B command. Even if the command from the command A group operation unit 80 indicates the double-sided printing mode, since the command of the A group is used for the instruction, the B-group priority printing method instruction unit 66 switches to the double-sided printing mode. Absent.

Therefore, according to this embodiment, the sheet cassette 1 ₁ on both sides can be used in a normal office paper, you can use only one side in the paper cassette 1 ₂ "backing" were set respectively, of the paper cassette 1 _1> office If the paper runs out, automatically such as when it is configured such as to perform other paper cassette 1 ₂ in the cut-switched control, to prevent wasteful printing duplex printing is performed on the back sheet, effectively A printer device can be used. In the above example, the command A group operation unit 80 and the command B group operation unit 81 are configured to instruct the double-sided printing method or the single-sided printing method. You may make it do. As a result, the occurrence rate of paper jam can be kept low.

Next, a fourth embodiment will be described with reference to FIG. In this embodiment, as shown in FIG. 16, the main control unit 50 determines how much printing speed the accommodated paper can withstand for each of the attached paper cassettes 1 ₁ and 1 _2. In response to an instruction from the operation unit 55 or the host 53, the sheet quality information storage unit 64 that stores the sheet quality information set by the operator shown to the speed variable mechanism unit 152 via the print speed control unit 65. Based on the paper quality information obtained from the analysis unit 62 corresponding to the printing speed instruction unit for instructing the printing speed and the paper quality information storage unit 64, it can withstand the printing speed instructed by the analysis unit 62. A paper feed selection instructing unit 73 for instructing selection using the obtained paper as a paper feed destination.

The speed variable mechanism unit 152 includes a paper feed mechanism 75 that feeds paper from a paper cassette instructed to be selected by the paper source selection instruction unit 73. According to the fourth embodiment, as in the first and second embodiments described above, control is performed to ignore the high-speed printing instruction from the host 53 for the paper cassettes 1 ₁ and 1 ₂ . By providing the paper feed destination selection instructing unit 73 and the paper feed mechanism 75 instead of performing it, when there is a high-speed print designation command from the host 53, it is automatically performed based on the paper quality information. Paper cassettes 1 ₁ and 1 ₂ set as containing printable paper are selected as paper feed destinations. Therefore, according to the present embodiment, high-speed printing, which is an instruction from the host or operator as the host device, can be realized while preventing the occurrence of paper jam, so that the printing is reliable and printing is possible. It can be done efficiently without being wasted.

  Next, a fifth embodiment will be described with reference to FIGS. As shown in FIG. 17, the printer apparatus according to this embodiment includes an analysis unit 62 corresponding to an instruction for either a double-sided printing method or a single-sided printing method, and a printing method / speed instruction unit for instructing low-speed printing or high-speed printing. When the double-sided printing method is instructed by the analysis unit 62, the low-speed printing speed is instructed to the printing speed control unit 70 regardless of the medium quality set or identified for each sheet. The main control unit 50 includes a low-speed printing instruction unit 68. Further, the mechanical control unit 51 includes the printing method control unit 71 and a printing speed control unit 70.

  Subsequently, the operation of the printer apparatus according to the fifth embodiment will be described. As shown in FIG. 18, when a print activation signal and print data are received from the host 53 in step S31, the received data is analyzed by the analysis unit 62, and information relating to apparatus setting instructions is received. And the actual print data are processed separately. In step S32, every time the generation of print data for one page is completed, the main control unit 50 checks the setting information transmitted from the host 53, and the analysis unit 62 determines whether or not printing is activated. . If the print is not activated, the process returns to step S31 to wait for the print activation. If printing is started in step S32, the process proceeds to step S33, and the low-speed printing instruction unit 68 determines from the analysis result of the analysis unit 62 whether the printing method is a double-sided printing method or a single-sided printing method.

  When the duplex printing method is instructed, the process further proceeds to step S34, and the low-speed printing instruction unit 68 determines whether the instruction from the host 53 is the high-speed printing mode. If it is determined that the instruction is in the high-speed printing mode, the process proceeds to step S35, and the setting for the printing speed control unit 70 is changed to the low-speed printing mode. On the other hand, when the low-speed printing instruction unit 68 determines that the instruction from the host 53 is an instruction in the low-speed printing mode, the process proceeds to step S36 and the printing speed control unit 70 is instructed according to the instruction from the host 53. A low printing speed is instructed and the process proceeds to step S36. Furthermore, if it is determined in step S33 that the instruction from the host 53 is not an instruction by the double-sided printing method, the process proceeds to step S36 and print activation processing is performed according to the instruction from the host 53.

  As described above, according to the fifth embodiment, when the double-sided printing mode is selected at the start of printing in the apparatus capable of selecting and setting two kinds of printing speeds, the high-speed printing mode and the low-speed printing mode, the low-speed printing mode is selected. Since the printer automatically switches to print mode, a printer device that is less susceptible to paper wrinkles and curls even when performing double-sided printing, suppresses paper jams, is reliable, efficient, and maintains the life of the device. It can be provided. As an application example of this embodiment, when paper capable of high-speed printing and paper that supports only the low-speed printing mode are mixed in the device, high-speed printing can be automatically performed when the duplex printing mode is specified. It is also possible to perform control for switching the paper feed destination (meaning that the quality of the paper is good) to a simple paper. Furthermore, if the duplex printing mode is designated for a paper cassette that only supports the low-speed printing mode, examples of control for ignoring the duplex printing designation or warning the operator with a buzzer, etc. It can be considered as an application example.

  Next, a sixth embodiment will be described. The sixth embodiment is a further improvement of the second embodiment described with reference to FIGS. In this embodiment, as shown in the second embodiment, the setting contents according to various modes are sequentially switched in a predetermined order according to a predetermined operation of the operator, and the operation is repeated. Various mode sequential setting units for sequentially setting various modes, and a display unit for sequentially displaying items related to the setting contents in synchronization with switching of the setting contents according to the various modes of the various mode sequential setting units And have. Further, in the present embodiment, unlike the second embodiment, in addition to the above, a paper cassette attachment / detachment detection unit that detects attachment or detachment of a paper cassette storing paper to or from the printer device, and a plurality of paper cassettes When any attachment / detachment is detected, a printing method setting step switching unit that switches the setting content and display content to a step of setting a printing method including a duplex printing method or a simplex printing method, and the printing method setting A paper quality information storage unit for storing paper quality information indicating a printing method set by using the various mode sequential setting unit for each of a plurality of mounted paper cassettes at a stage switched by the stage switching unit; Have. In this embodiment, in general, when a paper cassette is attached / detached (removed / inserted), this means that the type of paper has been changed or that a new paper has been fed into the cassette. According to the sixth embodiment, when the paper cassette is attached or detached, the various mode sequential setting section is automatically and immediately switched so that the duplex printing method can be set. Therefore, it is not necessary to set the duplex printing method from the setup menu (hierarchical and requires complicated switch operation to move to the setting screen) every time the operator panel is operated, improving operability and setting errors Can also be prevented.

  Further, a seventh embodiment will be described with reference to FIGS. According to the seventh embodiment, the variable speed mechanism 152 capable of changing the printing speed, the analysis unit 62 corresponding to the printing speed instruction unit for instructing the printing speed in response to an instruction from the host 53, the paper JAM occurrence rate calculation unit 69 for calculating the occurrence rate of the transport failure and the JAM occurrence rate calculation unit 69 when the occurrence rate equal to or higher than a predetermined threshold is calculated by the analysis unit 63. A low-speed change unit 56 that changes the instruction to a low-speed conveyance instruction and a conveyance failure (JAM) occurs by detecting whether or not the paper has passed within a certain time, provided at a position facing the paper conveyance path. And a paper sensor 58 for detecting whether or not it has been performed.

  Next, the operation of the seventh embodiment will be described with reference to FIG. In step S 41, a print activation signal and print data from the host 53 are received by the main control unit 60. The received data is analyzed by the analysis unit 62, and the information regarding the setting instruction of the apparatus and the actual print data are processed separately. In step S42, every time the generation of print data for one page is completed, the main control unit 50 checks the setting information transmitted from the host 53, and the analysis unit 62 determines whether or not printing is activated. . If the print is not activated, the process returns to step S41 to wait for the print activation. If it is determined in step S42 that printing is started, the process proceeds to step S43, and the analysis unit 62 instructs a printing speed in accordance with a command from the host 53.

  If it is determined in step S43 that the analysis unit 62 has instructed the low-speed print mode, the low-speed change unit 56 proceeds to step S44, and continues to the print speed control unit 70 in the low-speed mode. Instruct. On the other hand, if it is determined in step S43 that the low-speed changing unit 56 is an instruction for the high-speed printing mode, the process proceeds to step S45 to instruct a print activation process in the high-speed printing mode. At this time, unless the paper sensor 58 detects a paper conveyance failure (JAM) in step S46, the process proceeds to step S49, and the JAM occurrence rate calculation unit 69 counts the total number of printed sheets. In step S50, the JAM occurrence rate calculation unit 69 calculates the JAM occurrence rate from the formula: JAM occurrence rate / total number of printed sheets = JAM occurrence rate. In step S51, the low speed changing unit 56 determines whether the JAM occurrence rate is larger or smaller than a certain value k. When the JAM occurrence rate is smaller than a certain value k, the high speed mode instruction of the analysis unit 62 is transmitted to the printing speed control unit 70 as it is without being changed.

  On the other hand, if it is determined in step S51 that the JAM occurrence rate is greater than the certain value k, the low speed changing unit 56 proceeds to step S52 and changes to the low speed printing mode. If it is determined in step S46 that JAM has occurred by the paper sensor 58, the process proceeds to step S47, where the JAM occurrence rate calculation unit 69 counts the number of occurrences of JAM, and in step S48, there is no JAM by the operator. Return processing to the state.

  As described above, in the seventh embodiment, the high-speed printing is performed by the apparatus capable of selectively switching between two kinds of printing speeds, that is, the high-speed process mode (high-speed transport mode) and the low-speed process mode (low-speed transport mode). When the mode is selected, the paper jam occurrence rate is calculated from the total number of printed sheets and the number of jam occurrences. If the paper jam occurrence rate exceeds a certain value, the paper quality is not so good. Control to automatically switch to the low-speed printing mode. Accordingly, when the possibility of occurrence of JAM is high, printing is automatically performed in the low-speed printing mode, so that it is possible to prevent occurrence of JAM and provide a printer apparatus with high printing efficiency. In the above example, switching between the high-speed printing mode and the low-speed printing mode has been described. However, when the occurrence rate of paper jam exceeds a certain value when double-sided printing is performed, the control automatically switches to the single-sided printing mode. An example of application is given.

  An eighth embodiment will be described with reference to FIGS. As shown in FIG. 21, in the printer apparatus according to the eighth embodiment, the printing speed can be changed in accordance with an instruction from the variable speed conveyance mechanism 152 that can change the printing speed of the paper and the host 53 that is the host apparatus. An analysis unit 62 corresponding to the printing speed instruction unit for giving an instruction, an attachment / detachment sensor 59 for detecting attachment / detachment of the paper cassette 1 containing paper to / from the printer device, and a print counter 83 for counting the number of printed sheets When the attachment / detachment of the sheet cassette is detected, for a while after the detection, that is, when the print counter 83 exceeds a certain value (twice in this example), the analysis result of the analysis unit 62 is a high speed. The temporary low-speed changing unit 77 changes to low-speed conveyance regardless of the conveyance instruction.

  Subsequently, an operation according to the eighth embodiment will be described with reference to FIG. As shown in the figure, in step S61, a print activation signal and print data from the host 53 are received by the main control unit 50. The received data is analyzed by the analysis unit 62, and the information related to the setting instruction of the apparatus and the actual print data are processed separately. In step S62, every time the generation of print data for one page is completed, the main control unit 50 checks the setting information transmitted from the host 53, and the analysis unit 62 determines whether or not printing is activated. . If the print is not activated, the process returns to step S61 to wait for the print activation. If it is determined in step S62 that printing is activated, the process proceeds to step S65, and the temporary low speed changing unit 77 determines whether the analysis result of the analyzing unit 62 is the high speed printing mode or the low speed printing mode.

  When the high-speed printing mode is instructed, the process proceeds to step S66, where the temporary low-speed changing unit 77 determines whether or not the print counter 83 exceeds 2 after the paper cassette 1 is attached / detached by the attachment / detachment sensor 59. Judging. In step S66, the temporary low speed changing unit 77 determines that the print counter 83 has not exceeded 2, or if the instruction of the analyzing unit 62 is in the low speed mode in step S65, Proceeding to S 67, the low speed printing mode is designated to the printing speed control unit 70. On the other hand, if it is determined in step S68 that the number of times of printing, which is the counting result of the print counter 83, exceeds 2, the temporary low speed changing unit 77 performs high speed printing with respect to the printing speed control unit 70. Specify the mode. As described above, when the low-speed printing mode is designated in step S67 or the high-speed printing mode is designated in step S68, the printing process is performed in step S69. In step S70, the temporary low-speed changing unit 77 displays the print counter after attachment / detachment. 83 is added and it returns to step S61.

  As described above, in the eighth embodiment, there is generally data that the first few sheets immediately after the replenishment of paper is likely to cause a paper jam due to the skew of the paper. The device that can select and switch between two printing speeds, low-speed printing mode and high-speed printing mode, and detects the attachment / detachment of a paper cassette (assuming that paper has been replenished), the first few sheets (the example above) In the case of 2 sheets), printing is started in the low speed mode, and after the printing process is stabilized, the control to switch to the high speed printing mode is performed, so that the occurrence rate of paper jam can be suppressed low. As an application example of the above example, when a paper cassette is attached or detached, double-sided printing is prohibited for the first few sheets so that printing can be performed only in single-sided mode, and the occurrence rate of paper jam is reduced. .

Principle block diagram of the first invention Principle block diagram of the second invention The figure which shows the printer which concerns on an Example Block diagram according to the embodiment Block diagram according to the first embodiment Explanatory diagram of paper quality according to the first embodiment The perspective view which shows the identification mechanism based on 1st Example The figure which shows the cassette sensor which concerns on a 1st Example. The figure which shows the example of the other cassette sensor which concerns on a 1st Example Flow chart according to the first embodiment Block diagram according to the second embodiment Explanatory drawing according to the second embodiment The figure which shows the example of the setup menu which concerns on a 2nd Example Block diagram according to the third embodiment Explanatory drawing of the third embodiment Block diagram according to the fourth embodiment Block diagram according to the fifth embodiment Flow chart according to the fifth embodiment Block diagram according to the seventh embodiment Flow chart according to the seventh embodiment Block diagram according to the eighth embodiment Flow chart according to the eighth embodiment Block diagram according to conventional example

Explanation of symbols

11 (62): Print speed instruction means (analysis unit)
12 (63): Printing speed changing means (printing speed changing unit)
13, 15, 46, 48 (64) ... medium information output means (paper quality information storage unit)
14 (70): Printing speed control means (printing speed control unit)
16 (62): Printing method / speed instruction means (analysis unit)
20, 23 (80) ... public command instruction means (command A group operation unit)
21, 24 (81) ... Non-public command setting means (command B group operation unit)
22 ... Private command priority printing method instruction means 25 (66) ... Private command priority printing speed instruction means (B group priority printing method instruction section)
26 (71) ... printing method control means (printing method control unit)
28, 31 (73)... Paper source selection means (paper source selection instruction unit)
29 (62): Printing method instruction means (analysis unit)
30 (68): Low-speed printing instruction means (low-speed printing instruction unit)
32, 43 (67) ... single-sided printing change means (single-sided printing change unit)
33 ... alarm instruction means 34 ... alarm means 35 ... printing speed setting stage switching means 36 (54) ... display means (display unit)
37... Printing method setting stage switching means 38 (59)... Medium accommodation section attachment / detachment detection means (attachment / detachment sensor)
39 (79): Various mode sequential setting means (various mode sequential setting unit)
41 (56) ... low speed changing means (high speed low speed changing section)
42 (69) ... JAM occurrence rate calculating means 44 (77) ... Temporary low speed changing means (temporary low speed changing section)
45. One-sided printing change means for a while

Claims (2)

An image forming apparatus capable of performing single-sided printing and double-sided printing and performing single-sided printing or double-sided printing based on an instruction command, using a normal printing command which is a public command disclosed to an operator, and a double-sided printing method Or whether to apply the double-sided printing method to the accommodated medium for each of the one or two or more medium accommodating units that are attached or provided, and public command instruction means that instructs which one-sided printing method to adopt. Alternatively, the non-public command setting means for setting whether to apply the single-sided printing method using an extended print command that is a private command that is private to the operator, and the non-public command setting means regardless of the instruction contents of the public command instruction means. Non-public command priority printing method instruction means for instructing the double-sided printing method or single-sided printing method based on the setting contents of the public command setting means, and double-sided printing An image forming apparatus, comprising a print format control means for controlling expression or single-sided printing mode. In accordance with an operator's predetermined operation, setting contents corresponding to various modes are sequentially switched in a predetermined order, and various mode sequential setting means for sequentially setting various modes by repeating the operation; In synchronism with the switching of the setting contents according to the various modes of the various mode sequential setting means, the display means for sequentially displaying the items related to the setting contents, and the attachment of a plurality of medium accommodating portions in which the medium is accommodated or When the attachment / detachment detection means for detecting the attachment / detachment of any one of the medium accommodation unit and the attachment / detachment of the medium accommodation unit is detected, the setting content and the display content are set to either one of the duplex printing method or the simplex printing method. a printing method setting step switching means for switching the step of performing setting, and means for setting a print mode for each of the medium accommodating portion, which is set using the various modes sequentially setting means, An image forming apparatus; and a medium information output means for outputting the media information indicating a printing method to be applied to one or more of the stored in the medium containing portion media provide Attach.

Images