JP2011033788A - Image forming system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image forming system comprising an image forming apparatus and an air cleaner, and effectively keeping clean surrounding environments where the system is placed while restricting power consumption. <P>SOLUTION: The image forming system 200 includes an image formation operation unit 211, an air cleaning operation unit 221, a power supply 201, and a controller 213. This forming system 200 is configured such that the controller 213 has an interlock-on control function for interlocking a first power supply-on control for turning on power supply from the power supply 201 to the operation unit 211 with a second power supply-on control for turning on power supply from the power supply 201 to the operation unit 221. The control function is configured such that the second power supply-on control is executed a preset set period before a point when the first power supply-on control is executed. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an image forming system including an image forming apparatus that performs image forming processing such as a copying machine, a printer, and a facsimile machine, and an air cleaner.

  In recent years, electrophotographic image forming apparatuses capable of forming images, such as copying machines, printers, and facsimile machines, have been developed. In these image forming apparatuses, for example, an electrostatic latent image is formed on the surface of the photosensitive drum, developed with toner to form a toner image on the surface of the photosensitive drum, and the toner image is transferred from the photosensitive drum to a recording sheet. In this apparatus, the recording paper is heated and pressed to fix the toner image on the recording paper, so-called image forming processing on the recording paper.

  Such an image forming apparatus is generally installed in a room such as an office. However, in this image forming apparatus, invisible fine particles or odors may be generated during image forming processing on recording paper. These may be released from the image forming apparatus into the room.

  Further, in a room such as an office where an image forming apparatus is installed, invisible fine particles such as house dust and odor are generally generated due to various causes.

  Therefore, an air cleaning device has been proposed as a device for removing fine particles such as house dust and odors in the room (for example, see Patent Document 1). The air cleaning device described in Patent Literature 1 is an air cleaning device that generates positive ions and negative ions at the same time, and effectively removes floating bacteria in the air by using positive ions and negative ions.

  By providing such an air cleaning device in the room in which the image forming apparatus is installed, invisible fine particles, odors and the like emitted from the image forming apparatus into the room can be removed.

JP 2002-58731 A

  By the way, in a room where an image forming apparatus is installed, when the power supply to the image forming apparatus is turned on and the image forming apparatus is in an operating state, a person who uses the image forming apparatus generally exists in the room. ing.

  Therefore, when the image forming apparatus is in an operating state in this way, it is preferable to clean the indoor air in order to remove invisible fine particles or odors emitted from the image forming apparatus into the room. It is. Therefore, it is reasonable to perform air cleaning by turning on the power supply to the indoor air purifying apparatus in which the image forming apparatus is installed.

  On the other hand, when the power supply to the image forming apparatus is turned off and the image forming apparatus is in a stopped state, there is no person in the room where the image forming apparatus is installed due to leaving the office or the like. As described above, when the image forming apparatus is in a stopped state, invisible fine particles and odors emitted from the image forming apparatus into the room are reduced, and there are no people from the room. The power supply to may be turned off.

  As described above, by operating the image forming apparatus and the air purifying apparatus in cooperation with each other, the ambient environment of the image forming apparatus such as a room in which the image forming apparatus is installed can be effectively performed while suppressing power consumption. Can be kept clean.

  However, the image forming apparatus and the air cleaner are completely different apparatuses, and the on / off control of the power supplied to the image forming apparatus and the on / off control of the power supplied to the air cleaner are mutually exclusive. Are independent of each other. Therefore, a system that automatically links the image forming apparatus and the air cleaning apparatus is desired.

  Therefore, the present invention has been made in order to cope with the above-described demands, and automatically links the image forming apparatus and the air cleaning device so that the image forming apparatus is installed in a room or the like. An object of the present invention is to provide an image forming system capable of effectively keeping the ambient environment of an image forming apparatus in a clean state while suppressing power consumption.

  An image forming system according to the present invention includes an image forming operation unit that performs an image forming operation, an air cleaning operation unit that performs an air cleaning operation, and a power source that supplies power to the image forming operation unit and the air cleaning operation unit. And an image forming system including a control unit, wherein the control unit turns on power supply from the power source to the image forming operation unit, and the air cleaning operation unit from the power source. The second power supply on control for turning on the power supply to the second power supply on control function is interlocked with the second power supply on control function, which is set in advance from the time when the first power supply on control is executed. The second power supply on control is executed before the time.

  In the image forming system of the present invention, the power source includes a first power source that supplies power to the image forming operation unit, and a second power source that supplies power to the air cleaning operation unit, and the first power supply is turned on. The control is executed for the first power supply, and the second power supply on control is executed for the second power supply.

  In the image forming system of the present invention, the control unit includes a plurality of types of the interlock on control function.

  In the image forming system of the present invention, the control unit includes an operation unit that receives an operation from the outside, and is configured to set the set time based on the operation received by the operation unit. It is characterized by that.

  In the image forming system of the present invention, the control unit is configured to select any one of a plurality of types of the interlock on control functions based on the operation received by the operation unit. Features.

  In the image forming system according to the aspect of the invention, the control unit may further include an individual on control function for independently and independently executing the first power supply on control and the second power supply on control. Based on the operation received by the unit, the on-control function selection for selecting either one of the plural types of the interlock on-control function and the individual on-control function is performed. It is characterized by.

  The image forming system of the present invention further includes a remote operation receiving unit that receives an external remote operation via a communication function, and based on the remote operation received by the remote operation receiving unit, The on-control function selection is configured to be executed.

  In the image forming system of the present invention, the first power source, the image forming operation unit, and the control unit constitute an image forming apparatus, and the second power source and the air cleaning operation unit are air It constitutes a cleaning device.

  In the image forming system of the present invention, the air cleaning device is provided outside the image forming device.

  In the image forming system of the present invention, the air cleaning device is provided above the image forming device.

  In the image forming system of the present invention, the air cleaning operation unit has an ion generation function.

  In the image forming system of the present invention, the image forming apparatus includes a normal mode and a power saving mode that consumes less power than in the normal mode, and the air cleaning operation unit includes the normal mode and the power saving mode. The ion emission direction is different from that in the power saving mode.

  In the image forming system of the present invention, the air cleaning device is provided inside the image forming device.

  According to the present invention, the second power supply is performed before the set time that is set in advance from the time when the first power supply on control (the power supply on control to the image forming operation unit) is executed by the control unit of the image forming system. Power supply on control (power supply on control to the air cleaning operation unit) is executed.

  Therefore, air in a room or the like in which the image forming system is installed can be cleaned in advance before the image forming operation unit of the image forming system operates. Therefore, the environment surrounding the image forming system, such as a room in which the image forming system is installed, can be effectively kept clean while reducing power consumption.

1 is a block diagram showing a configuration of an image forming system in Embodiment 1. FIG. FIG. 4 is a perspective view illustrating an appearance of an image forming system according to a second embodiment. 5 is a configuration diagram illustrating an internal configuration of an image forming system according to Embodiment 2. FIG. 5 is a block diagram illustrating a configuration of an image forming system according to Embodiment 2. FIG. 6 is a cross-sectional view showing a structure of an air cleaning operation unit of an image forming system in Embodiment 2. FIG. 6 is a plan view showing an ion generating element built in an air cleaning operation unit of the image forming system in Embodiment 2. FIG. FIG. 6 is a perspective view (No. 1) illustrating a state in which an air cleaning device including an air cleaning operation unit is attached to a housing of an image forming apparatus of an image forming system according to a second embodiment. FIG. 6 is a perspective view (No. 2) illustrating a state in which an air cleaning device including an air cleaning operation unit is attached to a housing of an image forming apparatus of an image forming system according to a second embodiment. FIG. 10 is a cross-sectional view showing an operation state in which the air cleaning operation unit of the image forming system in Embodiment 2 is in a power saving state. FIG. 6 is a cross-sectional view showing an operation state in which the air cleaning operation unit of the image forming system in Embodiment 2 is in a normal power state. 6 is a plan view of an image forming display operation unit provided in an image forming apparatus of an image forming system in Embodiment 2. FIG. FIG. 12 is an enlarged view of a portion X in FIG. 11. 6 is a plan view of an air cleaning display operation unit provided in an air cleaning device of an image forming system according to Embodiment 2. FIG. 10 is a flag list table provided in an image forming control unit of the image forming system according to the second embodiment. 6 is a data list table (part 1) provided in the image formation control unit of the image formation system according to the second embodiment. 6 is a data list table (part 2) provided in the image forming control unit of the image forming system according to the second embodiment. FIG. 10 is a setting display screen diagram (part 1) of the image forming display operation unit of the image forming system according to the second embodiment. FIG. 10 is a setting display screen diagram (part 2) of the image forming display operation unit of the image forming system according to the second embodiment. FIG. 10 is a setting display screen diagram (part 3) of the image forming display operation unit of the image forming system according to the second embodiment. FIG. 12 is a setting display screen diagram (part 4) of the image forming display operation unit of the image forming system according to the second embodiment. FIG. 12 is a setting display screen diagram (No. 5) of the image forming display operation unit of the image forming system according to the second embodiment. FIG. 13 is a display screen diagram for setting of an image forming display operation unit of the image forming system according to the second embodiment (No. 6). FIG. 16 is a setting display screen diagram (part 7) of the image forming display operation unit of the image forming system according to the second embodiment. 6 is a flowchart (part 1) illustrating a power supply control operation of the image forming system according to the second embodiment. 6 is a flowchart (part 2) illustrating a power supply control operation of the image forming system according to the second embodiment. FIG. 14 is a setting display screen diagram (part 1) in another example of the image forming display operation unit of the image forming system according to the second embodiment. FIG. 12 is a setting display screen diagram (part 2) in another example of the image forming display operation unit of the image forming system according to the second embodiment. FIG. 6 is a perspective view showing an external appearance when an air cleaning device is provided inside a housing of an image forming apparatus in an image forming system according to a second embodiment.

  Next, an image forming system according to an embodiment of the present invention will be described in detail with reference to the drawings.

<Embodiment 1>
First, the first embodiment will be described. FIG. 1 is a block diagram showing a configuration of an image forming system according to Embodiment 1 of the present invention. 1, an image forming system 200 according to Embodiment 1 includes an image forming operation unit 211 that performs an image forming operation, an air cleaning operation unit 221 that performs an air cleaning operation, an image forming operation unit 211, and an air cleaning operation. The image forming system includes a power source 201 that supplies power to the unit 221 and a control unit 213.

  In the image forming system 200 described above, the control unit 213 turns on the first power supply on control for turning on the power supply from the power source 201 to the image forming operation unit 211 and the power supply from the power source 201 to the air cleaning operation unit 221. It has a linked on control function that links the second power supply on control.

  In the image forming system 200 described above, the interlock on control function performs the first power supply on control (power supply on control to the image forming operation unit 211) before a set time set in advance. The second power supply on control (power supply on control to the air cleaning operation unit 221) is executed.

  According to the image forming system 200 described above, it is set in advance from the time when the first power supply on control (the power supply on control to the image forming operation unit 211) is executed by the control unit 213 of the image forming system 200. The second power supply on control (power supply on control to the air cleaning operation unit 221) is executed before the set time.

  Therefore, air in a room or the like in which the image forming system 200 is installed can be cleaned in advance before the image forming operation unit 211 of the image forming system 200 operates. Therefore, the environment surrounding the image forming system 200 such as a room in which the image forming system 200 is installed can be effectively kept clean while reducing power consumption.

  The image forming system 200 may be configured as follows. That is, the power supply 201 of the image forming system 200 includes a first power supply 212 that supplies power to the image forming operation unit 211 and a second power supply 222 that supplies power to the air cleaning operation unit 221.

  Then, the first power supply on control and the first power supply off control are executed for the first power supply 212, and the second power supply on control and the second power supply off control are executed for the second power supply 222. It is set as the structure made.

  By doing so, as will be described later, when the image forming system 200 includes the image forming apparatus 210 and the air cleaning device 220, the image forming system 200 can be rationally configured.

  In addition, the control unit 213 of the image forming system 200 may include a plurality of types of the interlock on control function.

  As the type of the interlock on control function, for example, as described above, the second power supply on may be performed a predetermined time before the execution of the first power supply on control (power supply on control to the image forming operation unit 211). In addition to executing control (power supply ON control to the air cleaning operation unit 221), first power supply ON control (power supply ON control to the image forming operation unit 211) and second power supply ON control (air cleaning operation unit) For example, the power supply ON control to 221) is executed at the same time.

  By doing as described above, it is possible to realize the optimum cooperation between the image forming operation unit 211 and the air cleaning operation unit 221 in accordance with the situation of the room or the like in which the image forming system 200 is installed. The room in which the system 200 is installed can be effectively kept clean while reducing power consumption.

  In addition, the control unit 213 of the image forming system 200 may include an operation unit 214 that receives an operation from the outside. As the operation unit 214, generally, a key such as a numeric keypad, a touch panel provided on an LCD (liquid crystal display), or the like is used.

  In this case, the control unit 213 of the image forming system 200 sets the set time based on the operation received by the operation unit 214. In this way, it is possible to set an optimal setting time according to the situation of the room where the image forming system 200 is installed.

  Further, in the image forming system 200 described above, the control unit 213 of the image forming system 200 selects any one of the plurality of types of linked on control functions based on the operation received by the operation unit 214. You may make it do.

  In this case, “based on the operation received by the operation unit 214” specifically means, for example, “based on information input to the operation unit 214 by the operation”. By doing so, it is possible to easily select any one of a plurality of types of interlocking on control functions.

  In the above case, the following may be further performed. That is, the control unit 213 of the image forming system 200 is provided with an individual on control function in addition to the plurality of types of the interlock on control function described above. This individual ON control function is a function that executes the first power supply ON control and the second power supply ON control independently and independently of each other.

  Then, on-control function selection is executed by the control unit 213 of the image forming system 200 based on the operation received by the operation unit 214. This on-control function selection is a function for selecting any one of the above-described multiple types of interlocked on-control functions or the above-described individual on-control function.

  By doing the above, in addition to a plurality of types of linked on control functions, and further adding an individual on control function, an optimal image according to the situation of the room where the image forming system 200 is installed, etc. The linkage function between the forming operation unit 211 and the air cleaning operation unit 221 can be selected and realized, and the room in which the image forming system 200 is installed is effectively brought into a clean state while suppressing power consumption. Can keep.

  The image forming system 200 may be configured as follows. That is, the control unit 213 of the image forming system 200 includes a remote operation reception unit 215 that receives an external remote operation via a communication function.

  The remote operation receiving unit 215 can be realized as follows. For example, a function of using a LAN as a communication function, receiving information input and transmitted from a personal computer connected to the LAN, and holding the received information as remote operation contents is controlled by the image forming system 200. It is provided in the part 213.

  Then, based on the remote operation received by the remote operation reception unit 215, for example, in the above example, the above-described on-control function selection is executed based on information input from a personal computer connected to the LAN. To do.

  As described above, in addition to a plurality of types of interlocked on-control functions, and further adding an individual on-control function, remote operation can be performed according to the situation of the room where the image forming system 200 is installed. Thus, it is possible to select and realize an optimal cooperation function between the image forming operation unit 211 and the air cleaning operation unit 221.

  In the image forming system 200 described above, specifically, the image forming system 200 can be composed of an image forming apparatus 210 and an air cleaning device 220. Among these, the image forming apparatus 210 includes the above-described image forming operation unit 211, the first power supply 212, and the control unit 213. The air cleaning device 220 includes the air cleaning operation unit 221 and the second power source 222 described above.

  In general, the image forming apparatus 210 includes the above-described image forming operation unit 211, the first power supply 212, and the control unit 213, and the air cleaning device 220 includes the above-described air cleaning operation unit 221 and the second. The power supply 222 is configured. Therefore, the image forming system 200 can be rationally configured as described above.

  In the image forming system 200 including the image forming apparatus 210 and the air cleaning apparatus 220 described above, the air cleaning apparatus 220 may be provided outside the image forming apparatus 210. Specifically, for example, the air cleaning device 220 is provided above the image forming apparatus 210.

  As described above, by providing the air cleaning device 220 outside the image forming apparatus 210, it is not necessary to provide an air cleaning means inside the image forming apparatus 210, and an increase in the size of the image forming apparatus 210 is suppressed. be able to.

  Further, as described above, the air cleaning device 220 is provided outside the image forming device 210, specifically, for example, the air cleaning device 220 is provided above the image forming device 210 to constitute the image forming system 200. Thus, it is possible to eliminate the need to provide an independent air purifier separately in a room where the image forming system 200 is installed. Therefore, it is possible to suppress a decrease in the space that can be effectively used in a room or the like where the image forming system 200 is installed.

  It is preferable to use an ion generation function for the air cleaning operation unit 221 used in the image forming system 200 including the image forming apparatus 210 and the air cleaning apparatus 220 described above.

  In general, this ion generation function is a function of generating positive ions and negative ions at the same time. The positive ions and negative ions generated thereby can effectively remove floating bacteria in the air. It is because it is suitable for performing.

  The image forming system 200 that uses the ion generation function for the air cleaning operation unit 221 may be configured as follows. That is, the image forming apparatus 210 includes a normal mode and a power saving mode that consumes less power than in the normal mode.

  And in these normal mode and power saving mode, the ion emission direction in the air purifying operation | movement part 221 provided with the ion generation function is made to differ.

  For example, in the normal mode, the ion emission direction is directed toward the main body of the image forming apparatus 210, and in the power saving mode, the direction is other than toward the main body of the image forming apparatus 210, for example, above the room. To do.

  When the image forming apparatus 210 is in the normal mode, the image forming apparatus 210 is operating, and fine particles, odors and the like that cannot be seen can be emitted from the image forming operation unit 211. Therefore, when the image forming apparatus 210 is in the normal mode, the invisible fine particles and odors emitted mainly from the image forming apparatus 210 into the room are mainly directed by directing the ion emission direction toward the main body of the image forming apparatus 210. Etc. can be removed.

  Further, when the image forming apparatus 210 is in the power saving mode, the image forming apparatus 210 is not operating, and there are few invisible fine particles or odors emitted from the image forming apparatus 210 into the room. Therefore, when the image forming apparatus 210 is in the power saving mode, the invisible fine particles or odors existing in the room can be mainly removed by directing the ion emission direction upward of the room.

In the image forming system 200 including the image forming apparatus 210 and the air cleaning apparatus 220 described above, the air cleaning apparatus 220 may be provided inside the image forming apparatus 210. By doing so, it is possible to eliminate the need to provide a space for installing the air cleaning device 220 outside the image forming apparatus 210. In addition, an independent space is provided in a room where the image forming system 200 is installed. It is possible to eliminate the need to provide a separate air cleaning device. Therefore, it is possible to suppress a decrease in the space that can be effectively used in a room or the like where the image forming system 200 is installed.

<Embodiment 2>
Next, a second embodiment will be described. FIG. 2 is a perspective view showing the appearance of the image forming system according to the second embodiment, FIG. 3 is a block diagram showing the internal configuration of the image forming apparatus 100 constituting the image forming system, and FIG. 1 is a block diagram illustrating a configuration of an image forming system.

<Description of Appearance Shape of Image Forming System>
First, the external shape of the image forming system according to the second embodiment will be described. 2, the image forming system according to the second embodiment includes an image forming apparatus 100 that performs an image forming process on a recording sheet, and an air cleaning device 70 that generates ions and releases them to the outside.

  The image forming apparatus 100 has a rectangular parallelepiped shape that is long in the height direction. As shown in FIG. 2, the image forming apparatus 100 includes a display operation unit 105 of the image forming apparatus 100 that performs various operations. The side on which the image forming display operation unit 105 is provided is referred to as the front surface of the housing of the image forming apparatus 100, and the opposite surface facing the front surface is referred to as the rear surface of the housing of the image forming apparatus 100. An operator who operates the image forming apparatus 100 operates the image forming apparatus 100 from the front side of the casing of the image forming apparatus 100.

  The air cleaning device 70 is configured by a main body 70a and a support post 70b as an external shape. The air cleaning device 70 is provided outside the casing of the image forming apparatus 100 as follows.

  That is, the main body 70 a of the air cleaning device 70 is attached to the casing of the image forming apparatus 100 by the support column 70 b of the air cleaning apparatus 70 protruding upward from the upper corner portion 100 a of the rear surface of the casing of the image forming apparatus 100. It is attached. That is, the air cleaning device 70 is attached to the casing of the image forming apparatus 100 so as to be separated from the casing of the image forming apparatus 100.

  As shown in FIG. 2, the main body 70a of the air cleaning device 70 has a shape that is perpendicular to the column 70b, that is, has an elongated shape in the horizontal direction, and the main body 70a of the air cleaning device 70 at the tip of the column 70b. The base end of the is supported.

  As will be described later, the main body 70a of the air cleaning device 70 is attached to the support 70b of the air cleaning device 70 so as to be swingable with the longitudinal direction of the main body 70a of the air cleaning device 70 as an axis. The longitudinal direction of the air cleaning device 70 is the same as the direction perpendicular to the front-rear direction of the casing of the image forming apparatus 100 on the horizontal plane.

  In this manner, the air cleaning device 70 can be easily provided outside the housing of the image forming apparatus 100 by attaching the air cleaning device 70 to the housing of the image forming apparatus 100 with the support columns 70b. In addition, a sufficient space for operating the image forming apparatus 100 can be secured, and the operability of the image forming apparatus 100 can be prevented from being impaired.

<Description of Configuration of Image Forming System>
Next, the configuration of the image forming system in the second embodiment will be described. 4, the image forming system according to the second embodiment includes the image forming apparatus 100 and the air cleaning device 70 as described above.

  In FIG. 4, the image forming apparatus 100 includes an operation unit (hereinafter referred to as an image forming operation unit) 101 of the image forming apparatus 100, an operation unit power source (hereinafter referred to as an image forming operation unit power source). 102, a control unit (hereinafter referred to as an image formation control unit) 103 of the image forming apparatus 100, a power source for a control unit of the image forming apparatus 100 (hereinafter referred to as a power source for the image formation control unit) 104, and a display of the image forming apparatus 100 An operation unit (hereinafter referred to as an image formation display operation unit) 105, a LAN • I / F (hereinafter referred to as an image formation LAN • I / F) 106 of the image forming device 100, and an RS232C • I of the image forming device 100. / F (hereinafter referred to as image forming RS232C · I / F) 107.

  The image forming operation unit 101 performs image forming processing in the image forming apparatus 100. The image forming operation unit power supply 102 supplies power to the image forming operation unit 101. The image formation control unit 103 performs various controls in the image forming apparatus 100.

  The image formation control unit 103 includes a CPU, a memory such as a flash memory, and a RAM. In addition, an OS and various types of software are installed in the memory, and the image formation control unit 103 performs control on the image formation operation unit 101, power control described later, and the like using these OSs and software. .

  The power supply 104 for the image formation control unit supplies power to the image formation control unit 103, the image formation display operation unit 105, the image formation LAN / I / F 106, and the image formation RS232C / I / F 107.

  Further, the image forming display operation unit 105 is operated by a user of the image forming apparatus 100 and displays related to the image forming apparatus 100. The image forming LAN / I / F 106 is an interface (I / F) for connecting an external device such as a personal computer to the image forming apparatus 100. The image forming RS 232C • I / F 107 is an interface (I / F) for connection with the air cleaning device 70.

  Each of the above parts is housed in the housing of the image forming apparatus 100. Among the above, the image forming operation unit 101 is the image forming operation unit described above, the image forming operation unit power source 102 is the first power source described above, the image forming control unit 103 is the control unit described above, and the image forming display operation unit 105. The image forming LAN / I / F 106 corresponds to the above-described operation unit and the remote operation reception unit described above.

  Further, in FIG. 4, the air purifier 70 includes an operating part (hereinafter referred to as an air purifying operation part) 71 of the air purifying apparatus 70, an operating part power source (hereinafter referred to as an air purifying operation part power source), and the air purifying apparatus 70. 72, a control unit (hereinafter referred to as an air cleaning control unit) 73 of the air cleaning device 70, a power source for a control unit of the air cleaning device 70 (hereinafter referred to as a power source for the air cleaning control unit) 74, an air cleaning device 70. Display operation section (hereinafter referred to as an air cleaning display operation section) 75 and RS232C · I / F (hereinafter referred to as air cleaning RS232C · I / F) 77 of the air cleaning device 70.

  The air cleaning operation unit 71 performs an air cleaning process in the air cleaning device 70. The power supply 72 for the air cleaning operation unit supplies power to the air cleaning operation unit 71. The air cleaning control unit 73 performs various controls in the air cleaning device 70.

  The air cleaning control unit 73 includes a memory such as a CPU, a flash memory, and a RAM. In addition, an OS and various types of software are installed in this memory, and the air purification control unit 73 performs control on the air purification operation unit 71, power supply control described later, and the like using these OSs and software. .

  The power supply 74 for the air cleaning control unit supplies power to the air cleaning control unit 73, the air cleaning display operation unit 75, and the air cleaning RS232C / I / F 77. The air cleaning display operation unit 75 is operated by the user of the air cleaning device 70 and displays related to the air cleaning device 70. The air cleaning RS232C · I / F 77 is an interface (I / F) for connection with the image forming apparatus 100.

  Among the above, the air purifying operation unit is dispersed and accommodated in the main body 70a of the air purifying device 70 and the other parts are dispersed in the struts 70b of the air purifying device 70. Of the above, the air cleaning operation unit 71 corresponds to the above-described air cleaning operation unit, and the air cleaning operation unit power source 72 corresponds to the above-described second power source.

  As described above, the image forming system according to the second embodiment includes the image forming apparatus 100 that performs the image forming process on the recording paper, and the air cleaning apparatus 70 that performs the air cleaning process that generates and releases ions to the outside. Has been. The image forming process in the image forming apparatus 100 is mainly performed by the image forming operation unit 101, and the air cleaning process in the air cleaning device 70 is mainly performed by the air cleaning operation unit 71. First, the image forming operation unit 101 and the air cleaning operation unit 71 will be described.

<Description of Image Forming Operation Unit>
First, the image forming operation unit 101 will be described. In the image forming operation unit 101 in the image forming apparatus 100, in FIG. 3, the image of the document read by the document reading unit 60 or the image received from the outside is recorded on a recording sheet in color or single color by the image forming processing unit. Processing is performed.

  The document reading unit 60 reads the document image conveyed by the document conveying unit 42. In the document conveying section 42, when a document is set on the document set tray 41, the document pickup roller 44 is pressed against the document surface and rotated, the document is pulled out from the document set tray 41, and the document is pulled out from the suction roller 45 and the separation pad 46. After passing between the sheets, the sheets are separated one by one and then conveyed to the conveyance path 47.

  In this conveyance path 47, the leading edge of the document abuts on the document registration roller 49, the leading edge of the document is aligned in parallel with the document registration roller 49, and then the document is transported by the document registration roller 49 and read with the reading guide 51. Passes between the glasses 52. Further, the document is conveyed by the conveyance roller 57 and is discharged to the paper discharge tray 59 via the paper discharge roller 58.

  In the document reading unit 60, when the document passes between the reading guide 51 and the reading glass 52, the light from the light source of the first scanning unit 53 is irradiated on the surface of the document through the reading glass 52, and the reflected light thereof is read glass 52. The reflected light is reflected by the mirrors of the first scanning unit 53 and the second scanning unit 54 and guided to the imaging lens 55, and the original is reflected by the imaging lens 55. This image is formed on a CCD (Charge Coupled Device) 56. The CCD 56 reads a document image and outputs image data indicating the document image.

  In addition, it is possible to read a document placed on the platen glass 61. The document transport unit 42 is pivotally supported on the rear side of the document reading unit 60 so that it can be opened and closed. When the document transport unit 42 is opened, the document table glass 61 is released, and the document is placed on the document table glass 61. Can be placed.

  When the document is placed and the document transport unit 42 is closed, the first scanning unit 53 and the second scanning unit 54 are moved in the sub-scanning direction, and the first scanning unit 53 moves the document on the document table glass 61. The document surface is exposed, and reflected light from the document surface is guided to the imaging lens 55 by the first scanning unit 53 and the second scanning unit 54, and an image of the document is formed on the CCD 56 by the imaging lens 55. Is done.

  At this time, the first scanning unit 53 and the second scanning unit 54 are moved while maintaining a predetermined speed relationship with each other, and the document surface → the first scanning unit 53 and the second scanning unit 54 → image formation. The positional relationship between the first scanning unit 53 and the second scanning unit 54 is always maintained so that the length of the optical path of the reflected light from the lens 55 to the CCD 56 does not change, and thereby the original image on the CCD 56 is focused. Always maintained accurately.

  The entire image of the original read in this way is sent and received as image data to the laser exposure apparatus 1, and the image is recorded on a recording sheet.

  On the other hand, the image forming processing unit includes a laser exposure device 1, a developing device 2, a photosensitive drum 3, a charger 5, a cleaner device 4, an intermediate transfer belt device 8, a fixing device 12, a paper transport path S, a paper feed tray 10, The paper discharge tray 15 and the like are included.

  The image data handled in the image forming processing unit is one corresponding to a color image using each color of black (K), cyan (C), magenta (M), yellow (Y), or a single color (for example, black). This is in accordance with the monochrome image. Accordingly, four each of the developing device 2, the photosensitive drum 3, the charger 5, and the cleaner device 4 are provided so as to form four types of latent images corresponding to the respective colors, and black, cyan, magenta, and yellow are respectively provided. Four image stations Pa, Pb, Pc, and Pd are configured in association with each other.

  The photosensitive drum 3 has a drum shape for image formation, and an electrostatic latent image is formed on the surface of the drum.

  The charger 5 is a charging means for uniformly charging the surface of the photosensitive drum 3 to a predetermined potential. In addition to a contact type roller type or brush type charger, a charger type charger is used. .

  The laser exposure apparatus 1 is a laser scanning unit (LSU) provided with a laser diode and a reflection mirror, and exposes the surface of a charged photosensitive drum 3 according to image data and corresponds to the image data on the surface. An electrostatic latent image is formed.

  The developing device 2 develops the electrostatic latent image formed on the photosensitive drum 3 with (K, C, M, Y) toner. The cleaner device 4 removes and collects toner remaining on the surface of the photosensitive drum 3 after development and image transfer.

  The intermediate transfer belt device 8 disposed above the photosensitive drum 3 includes an intermediate transfer belt 7, an intermediate transfer belt drive roller 21, a driven roller 22, an intermediate transfer roller 6, and an intermediate transfer belt cleaning device 9. .

  The intermediate transfer belt drive roller 21, the intermediate transfer roller 6, the driven roller 22, etc. stretch and support the intermediate transfer belt 7, and move the intermediate transfer belt 7 in the direction of arrow C.

  The intermediate transfer roller 6 is rotatably supported in the vicinity of the intermediate transfer belt 7, is pressed against the photosensitive drum 3 via the intermediate transfer belt 7, and transfers the toner image on the photosensitive drum 3 to the intermediate transfer belt 7. A transfer bias is applied.

  The intermediate transfer belt 7 is provided so as to be in contact with each photoconductive drum 3, and a color toner image (each color is transferred by sequentially superimposing and transferring the toner image on the surface of each photoconductive drum 3 onto the intermediate transfer belt 7. Toner image). This transfer belt is formed in an endless belt shape using a film having a thickness of about 100 μm to 150 μm.

  The transfer of the toner image from the photosensitive drum 3 to the intermediate transfer belt 7 is performed by the intermediate transfer roller 6 that is in pressure contact with the back surface of the intermediate transfer belt 7. A high voltage transfer bias (a high voltage having a polarity (+) opposite to the toner charging polarity (−)) is applied to the intermediate transfer roller 6 in order to transfer the toner image. The intermediate transfer roller 6 is a roller whose base is a metal (for example, stainless steel) shaft having a diameter of 8 to 10 mm and whose surface is covered with a conductive elastic material (for example, EPDM, urethane foam, or the like). With this conductive elastic material, a high voltage can be uniformly applied to the recording paper.

  As described above, the toner images on the surfaces of the respective photosensitive drums 3 are stacked on the intermediate transfer belt 7 and become a color toner image indicated by the image data. The toner images of the respective colors stacked in this way are transported together with the intermediate transfer belt 7 and transferred onto the recording paper by the transfer roller 11a of the secondary transfer device 11 that is in contact with the intermediate transfer belt 7.

  The intermediate transfer belt 7 and the transfer roller 11a of the secondary transfer device 11 are pressed against each other to form a nip region. Further, the transfer roller 11a of the secondary transfer device 11 has a voltage for transferring the toner image of each color on the intermediate transfer belt 7 onto a recording sheet (high polarity (+) opposite to the toner charge polarity (-)). Voltage) is applied. Further, in order to constantly obtain the nip region, either the transfer roller 11a of the secondary transfer device 11 or the intermediate transfer belt drive roller 21 is made of a hard material (metal or the like), and the other is a soft material such as an elastic roller. (Elastic rubber roller, foaming resin roller, etc.).

  In addition, the toner image on the intermediate transfer belt 7 may not be completely transferred onto the recording paper by the secondary transfer device 11, and the toner may remain on the intermediate transfer belt 7. Causes color mixing. Therefore, the residual toner is removed and collected by the intermediate transfer belt cleaning device 9. The intermediate transfer belt cleaning device 9 is provided with, for example, a cleaning blade as a cleaning member that comes into contact with the intermediate transfer belt 7 to remove residual toner, and the intermediate transfer belt is driven by a driven roller 22 at a portion where the cleaning blade comes into contact. 7 The back side is supported.

  The paper feed tray 10 is a tray for storing recording paper, and is provided below the image forming unit of the image forming apparatus 100 to supply the recording paper in the tray.

  In addition, an S-shaped sheet conveyance path S is provided to send the recording sheet supplied from the sheet feeding tray 10 to the sheet discharge tray 15 via the secondary transfer device 11 and the fixing device 12. Along the paper conveyance path S, a paper pickup roller 16, a paper registration roller 14, a fixing device 12, and a conveyance roller for conveying the recording paper are arranged.

  The paper pick-up roller 16 is a calling roller that is provided at the end of the paper feed tray 10 and supplies recording paper from the paper feed tray 10 to the paper transport path S one by one. The conveyance rollers are small rollers for promoting and assisting conveyance of the recording paper, and a plurality of conveyance rollers are provided.

  The paper registration roller 14 temporarily stops the recording paper that has been conveyed, aligns the leading edge of the recording paper, and is on the intermediate transfer belt 7 in the nip region between the intermediate transfer belt 7 and the transfer roller 11 a of the secondary transfer device 11. The recording paper is conveyed in a timely manner in accordance with the rotation of the photosensitive drum 3 and the intermediate transfer belt 7 so that the color toner image is transferred onto the recording paper.

  For example, the paper registration roller 14 detects the color toner image on the intermediate transfer belt 7 in the nip area between the intermediate transfer belt 7 and the transfer roller 11a of the secondary transfer device 11 based on the detection output of a pre-registration detection switch (not shown). The recording sheet is conveyed so that the leading end is aligned with the leading end of the image forming area of the recording sheet.

  The fixing device 12 includes a heating roller 31, a pressure roller 32, and the like. The heating roller 31 and the pressure roller 32 sandwich and convey the recording paper that has passed through the nip region between the intermediate transfer belt 7 and the transfer roller 11a of the secondary transfer device 11.

  The heating roller 31 is controlled so as to reach a predetermined fixing temperature based on the detection output of a temperature detector (not shown), and the toner transferred onto the recording paper by thermocompression bonding with the pressure roller 32. It has a function of fusing, mixing, and pressing an image to thermally fix the image on a recording sheet.

  The recording paper after the fixing of the toner images of the respective colors is discharged face down onto the paper discharge tray 15 by the transport roller.

  The image forming operation unit 101 includes two states as the state mode of the image forming operation unit 101. That is, a power saving state and a normal state. The above-described operation is performed when the state mode of the image forming operation unit 101 is the normal state. On the other hand, the operation described above is not performed when in the power saving state. In the state mode, the power saving state corresponds to the power saving mode described above.

  The image forming apparatus 100 can perform “copy”, “printer”, and “image transmission” by using the function of the image forming operation unit 101 described above. These functions are selected by pressing a copy button, a printer button, or an image transmission button provided in the image forming display operation unit 105 shown in FIG. 11 provided in the image forming apparatus 100.

  As shown in FIG. 11, the image forming display operation unit 105 includes an LCD (liquid crystal display) 105 g provided with a touch panel, a color button for instructing color copying as “copy” in addition to the above buttons. A monochrome button for instructing monochrome copying, a numeric keypad for setting the number of copies, a user setting button (push button switch SW3) 105f for making various settings for the image forming apparatus 100, a numeric keypad 105h, and the like.

  The image forming display operation unit 105 includes a power button (push button switch SW1) 105a, an ON automatic display lamp 105b, which is an enlarged view of a portion X in FIG. An OFF automatic display lamp 105c, a power supply display lamp 105d, and a switch barrier 105e are provided.

<Explanation of the air cleaning operation part>
Next, the air cleaning operation unit 71 that performs the air cleaning process accommodated in the main body 70a of the air cleaning device 70 will be described. FIG. 5 is a sectional view showing the structure of the air cleaning operation unit 71, FIG. 6 is a plan view showing the ion generating element 85 built in the air cleaning operation unit 71, and FIGS. 7 and 8 are images. The perspective view which showed the state which attached the air purifying apparatus 70 containing the air purifying operation | movement part 71 to the housing | casing of the forming apparatus 100, FIG. 9: is sectional drawing which the air purifying operation part 71 showed the operation state of the power saving state FIG. 10 is a cross-sectional view showing an operation state in which the air cleaning operation unit 71 is in a normal state. In addition, the strip | belt-shaped arrow in a figure and the linear arrow have shown the direction through which air flows.

  As shown in FIG. 5, the air cleaning operation unit 71 has a substantially L-shaped cross section bent in the rear surface direction. In FIG. 5, the left side is the front side, and the right side is the rear side.

  The air cleaning operation unit 71 is configured as follows. First, a fan unit 82 equipped with a fan 82a is built in the lower portion inside the air cleaning operation unit 71. A plurality of suction holes 81 a are formed on the rear surface of the lower portion of the air cleaning operation unit 71, and an upper surface outlet 81 b is formed on the upper surface of the air cleaning operation unit 71.

  A suction duct 83 is formed between the suction hole 81 a and the fan unit 82 to guide the air sucked from the suction hole 81 a to the fan unit 82. In addition, a blowout duct 84 is formed between the fan unit 82 and the upper surface outlet 81b to guide the air sent from the fan unit 82 to the upper surface outlet 81b.

  As shown in FIG. 5, the blowout duct 84 includes a fixed duct front wall 91 and a fixed duct rear wall 92. The fixed duct front wall 91 has a plate shape extending from the front end of the upper surface of the fan unit 82 to the front end of the upper surface outlet 81b and slightly bulging to the front side. The fixed duct rear wall 92 has a plate shape extending from the center of the upper surface of the fan unit 82 to the rear end of the upper surface outlet 81b and slightly bulging to the front side.

  Further, an ion generating element 85 is provided on the front side of the fan unit 82 at the lower part inside the air cleaning operation unit 71. The ion generating element 85 is configured by a plasma cluster ion (registered trademark) generating element (PCI). As shown in FIG. 6, a plurality of the ion generating elements 85 are arranged along the longitudinal direction of the air cleaning operation unit 71, that is, the main body 70 a of the air cleaning device 70.

  As shown in FIG. 6, the ion generating element 85 includes a pair of positive ion generating elements 85a that generate positive ions and a pair of negative ion generating elements 85b that generate negative ions. By using these positive ion generation element 85a and negative ion generation element 85b, positive ions and negative ions can be generated simultaneously.

  Thus, it is known to efficiently remove airborne bacteria in the air by simultaneously generating positive ions and negative ions. The ion generating element 85 is described in detail in Japanese Patent Application Laid-Open No. 2002-58731, which describes an invention filed by the same applicant as the present invention.

  The fan 82a and the ion generating element 85 are connected to the air cleaning control unit 73 of the air cleaning device 70 shown in FIG. 4, and the fan 82a and the ion generating element 85 are connected by the air cleaning control unit 73. Is controlled. By this control, increase / decrease in the amount of ions released from the air cleaning operation unit 71 is controlled.

  The increase / decrease control of the amount of ions emitted from the air cleaning operation unit 71 is performed by two methods. The first control method is performed by increasing or decreasing the air volume of the fan 82a. The air volume of the fan 82a is increased or decreased by increasing or decreasing the rotational speed of the fan 82a. The second control method is performed by increasing or decreasing the number of ion generating elements 85 to be operated.

  By doing in this way, the quantity of the ion which the air cleaning operation | movement part 71 generate | occur | produces and discharge | releases can be changed easily and reliably.

  In the air cleaning operation unit 71, as shown in FIG. 5, the fan 82a attached to the fan unit 82 rotates in the direction of the arrow 87 indicating the rotation direction, so that the air sucked from the suction hole 81a is Through the fan unit 82, positive ions and negative ions generated by the ion generating element 85 are included and discharged to the outside from the upper surface outlet 81b.

  Further, as shown in FIGS. 7 to 10, the air purifying operation unit 71, that is, the main body 70a of the air purifying device 70 is moved so that the main body 70a can move with respect to the support column 70b. It is attached to the column 70b so that it can be swung.

  In order to cause the main body 70a of the air purifier 70 to swing, a driving motor for swinging (not shown) is built in the tip of the column 70b. Further, as shown in FIGS. 7 to 10, the main body 70a of the air cleaning device 70 is provided with a rotation shaft 70c for rotation, and this rotation shaft 70c is the rotation of the driving motor for oscillation described above. It is configured to work with the shaft.

  The swing of the main body 70 a of the air cleaning device 70 is controlled by the air cleaning control unit 73 of the air cleaning device 70.

  As for the swing of the main body 70a of the air cleaning device 70 described above, the posture of the main body 70a is such that the front outlet 81b of the main body 70a faces upward as shown in FIGS. As shown in FIGS. 8 and 10, the process is performed between the image forming apparatus 100 and the state facing the upper surface of the casing. The orientation of the main body 70 a varies depending on the state of the image forming operation unit 101.

  That is, when the image forming operation unit 101 is in the power saving state, the front blowing port 81c of the air cleaning operation unit 71 is set to face upward as shown in FIGS. Further, when the image forming operation unit 101 is in a normal state, the image forming operation unit 101 is set to face in the direction of the upper surface of the casing of the image forming apparatus 100 as shown in FIGS.

  Further, the amount of ions generated and released by the air cleaning operation unit 71 is set to be smaller in the normal state than in the power saving state in the image forming operation unit 101.

  That is, when the image forming operation unit 101 is in the power saving state, the front air outlet 81b of the air cleaning operation unit 71 faces upward as shown in FIGS. The amount of ions generated and released by the air cleaning operation unit 71 is released more than in the normal state.

  On the other hand, when the image forming operation unit 101 is in the normal state, the front outlet 81c of the air cleaning operation unit 71 is directed toward the upper surface of the casing of the image forming apparatus 100 as shown in FIGS. And the amount of ions generated and released by the air cleaning operation unit 71 is less than that of the power saving state in the image forming operation unit 101.

  The reason described above is that it is basically used when the following state is assumed. That is, when the image forming operation unit 101 is in the normal state, the image forming system 100 is mainly devoted to purifying exhaust gas discharged from the casing of the image forming apparatus 100. When the image forming operation unit 101 is in the power saving state, the image forming system is installed. The indoor air is purified.

  According to the air cleaning operation unit 71 described above, since the air cleaning operation unit 71 can be provided outside the casing of the image forming apparatus 100, the image forming apparatus 100 can be prevented from being increased in size and cost, and the image can be reduced. The exhaust gas discharged from the housing of the forming apparatus 100 can be purified, and the air in the room where the image forming system is installed can be purified. That is, a single unit can play two roles of purifying exhaust gas from the casing of the image forming apparatus 100 and purifying indoor air.

  In the air cleaning operation unit 71 described above, the amount of ions generated and released by the air cleaning operation unit 71 is smaller in the normal state than in the power saving state in the image forming operation unit 101. There may be an operation method in which the same amount of ions is used in both the power saving state and the normal state of the image forming operation unit 101.

  Further, in the air cleaning operation unit 71 described above, the mounting posture of the air cleaning operation unit 71 is always set so that the front blowing port 81c of the air cleaning operation unit 71 forms an image as shown in FIG. 8 and FIG. It is assumed that the device 100 faces in the direction of the upper surface of the casing. The amount of ions generated and released by the air cleaning operation unit 71 may be smaller in the normal state than in the power saving state in the image forming operation unit 101.

  Thus, when the image forming operation unit 101 is in the power saving state, the air released from the air cleaning operation unit 71 is diffused into the room in which the image forming system is installed, and image formation is performed. When the operation unit 101 is in a normal state, ions can be drifted around the casing of the image forming apparatus 100 to cover the periphery of the casing of the image forming apparatus 100 like an air curtain. Therefore, even in the above manner, it is possible to purify indoor air and purify exhaust gas discharged from the housing of the image forming apparatus 100.

<Description of power control in image forming system>
In the above image forming system, the image forming apparatus 100 includes the image forming operation unit power source 102 and the image forming control unit power source 104 as power sources, and the air cleaning device 70 includes the air cleaning operation unit power source 72 and the air. A power source 74 for the cleaning control unit is provided.

  Among these, the power supply 104 for the image formation control unit and the power supply 74 for the air cleaning control unit 74 are in a state where the power is always turned on so that the image forming apparatus 100 and the air cleaning device 70 can be controlled at all times. The power is on.

  On the other hand, the power supply 102 for the image forming operation unit and the power supply 72 for the air cleaning operation unit 72 are turned on when necessary and are energized, and are turned off when they are no longer needed. The image forming system described above is characterized by on / off control for the power supply 102 for the image forming operation section and the power supply 72 for the air cleaning operation section. Therefore, this point will be described next.

  In the above-described image forming system, first, regarding the power supply 102 for the image forming operation unit, there are power on / off manually operated and power on / off automatically operated. As described above, the image forming apparatus 100 includes the image forming display operation unit 105. The air cleaning device 70 includes an air cleaning display operation unit 75.

  11 is a plan view of an image forming display operation unit provided in the image forming apparatus of the image forming system, FIG. 12 is an enlarged view of a portion X in FIG. 11, and FIG. 13 is provided in the air cleaning device 70. It is the top view of the air clean display operation part 75.

  For the above-described manual operation, the power button (SW1) 105a provided in the image forming display operation unit 105 is used (see FIG. 12). The power button (SW1) 105a is formed by a push button switch. For the automatic operation, a clock function provided in the image formation control unit 103 is used.

  In FIG. 12, a switch barrier 105e is provided to prevent the power button (SW1) 105a from being accidentally pressed, and the power button (SW1) 105a is disposed around the power button (SW1) 105a. It is formed by being surrounded by a barrier having a height higher than 105a.

  In the image forming display operation unit 105 shown in FIG. 11, the power display lamp 105d is turned on when the power supply 102 for the image forming operation unit is on, and is turned off when the power is off. The ON automatic display lamp 105b is lit when the image forming operation unit power supply 102 is automatically turned on using the clock function clock function provided in the image forming control unit 103, and the OFF automatic display lamp 105c is also the same. Lights when the image forming control unit 103 is automatically turned off using a clock function.

  That is, when both the ON automatic display lamp 105b and the OFF automatic display lamp 105c are lit, the power button (SW1) 105a does not function, and even if the power button (SW1) 105a is pressed, it is ignored. Is done. On the other hand, when either the above-mentioned ON automatic display lamp 105b or OFF automatic display lamp 105c is lit, the power button ( SW1) 105a functions.

  In the image forming system described above, the air cleaning operation unit power supply 72 is not linked to the power ON / OFF performed in conjunction with the image formation operation unit power supply 102, and is not related to the image forming operation unit power supply 102. There is power on / off performed independently.

  As shown in FIG. 4, the image forming control unit 103 and the air cleaning control unit 73 are connected to each other via an image forming RS232C • I / F 107 and an air cleaning RS232C • I / F77. The above-described image forming RS232C • I / F 107 and air cleaning RS232C • I / F77 are linked to the power on / off of the air cleaning operation portion power supply 72 and the power on / off of the image forming operation portion power supply 102. The image forming control unit 103 and the air cleaning control unit 73 are connected via That is, the above-described interlocking is performed by an instruction from the image formation control unit 103 to the air cleaning control unit 73 regarding power control of the power source 72 for the air cleaning operation unit, as will be described later.

  When the above-described interlocking is performed, the power supply of the air cleaning operation unit power supply 72 is turned on, off, or both are performed at the same time as the power supply of the image forming operation unit power supply 102 is turned on, off, or both. There are cases where it is not and cases where it is not.

  There are the following two cases as the above-mentioned cases. One is that the power supply of the power supply 72 for the air purifying operation section is preceded by the time when the power supply of the power supply 102 for the image forming operation section is turned on. The other one is a case where the power supply of the power supply 72 for the air cleaning operation unit 72 is turned off after a time when the power supply of the power supply 102 for the image forming operation unit 102 is turned off.

  Further, the power supply on / off of the air cleaning operation unit power supply 72 independently performed irrespective of the power on / off of the image forming operation unit power supply 102 is performed as follows. That is, the column 70b of the air cleaning device 70 is provided with the air cleaning display operation unit 75 shown in FIG. 13, and the air cleaning operation unit power source 72 is performed independently from the image forming operation unit power source 102 described above. Is turned on / off using a power button (SW2) 75a provided in the air cleaning display operation unit 75. The power button (SW2) 75a is formed by a push button switch.

  In the air cleaning display operation unit 75 shown in FIG. 13, the power display lamp 75d is turned on when the air cleaning operation unit power source 72 is in an on state, and is turned off when it is in an off state. The ON interlocking display lamp 75b is lit when the air cleaning operation part power supply 72 is turned on in conjunction with the image forming operation part power supply 102, and the OFF interlocking display lamp 75c is also the image forming operation part power supply. Illuminates when the power supply 72 for the air purifying operation unit is turned off in conjunction with 102.

  That is, when both the ON interlock display lamp 105b and the OFF interlock display lamp 105c are lit, the power button (SW2) 75a does not function, and even if the power button (SW2) 75a is pressed, it is ignored. Is done. On the other hand, when one of the above-described ON interlocking display lamp 105b or OFF interlocking display lamp 105c is lit, the power button ( SW2) 75a functions.

  Which method is used for the power control described above is set using an LCD (liquid crystal display) 105g with a touch panel of the image forming display operation unit 105 provided in the image forming apparatus 100, as will be described in detail later. Is selected and determined.

  In the image forming system described above, the memory shown in FIG. 14 and the data shown in FIGS. 15 and 16 are provided in the memory provided in the image forming control unit 103 in order to realize the power control function. Yes. Of these, all the data shown in FIG. 15 and the remaining data except for the air clean power ON time t3 and the air clean power OFF time t4 in the data shown in FIG. It is set by the above setting using the LCD (liquid crystal display) 105g with a touch panel.

  The flags shown in FIG. 14 are an image forming power ON / OFF instruction flag F1, an air cleaning power ON / OFF instruction flag F2, an image forming power saving state flag F3, and an image forming operation in-progress flag F4.

  The image forming power ON / OFF instruction flag F1 is a flag for instructing the on / off state of the image forming operation unit power supply 102. F1 = 0 is a power off state instruction, and F1 = 1 is Indicates a power-on state instruction.

  That is, when the image forming power ON / OFF instruction flag F1 changes from F1 = 0 to F1 = 1, the image forming control unit 103 turns on the image forming operation unit power supply 102, and F1 = 1 to F1 = 0. When changed, the image forming operation unit power supply 102 is turned off.

  The air cleaning power ON / OFF instruction flag F2 is a flag for instructing the ON / OFF state of the power supply 72 for the air cleaning operation unit. F1 = 0 indicates the power OFF state, and F1 = 1 indicates the power ON. Indicates a status indication.

  That is, when the air clean power ON / OFF instruction flag F2 changes from F2 = 0 to F2 = 1, the image formation control unit 103 passes through the image formation RS232C • I / F107 and the air cleanliness RS232C • I / F77. Thus, the air cleaning control unit 73 is instructed to turn on the power supply 72 for the air cleaning operation unit. The air cleaning control unit 73 that has received the notification of the air cleaning operation unit power supply 72 on instruction turns on the air cleaning operation unit power supply 72.

  Further, when the air cleaning power ON / OFF instruction flag F2 changes from F2 = 1 to F2 = 0, the image forming control unit 103 passes through the image forming RS232C • I / F107 and the air cleaning RS232C • I / F77. Then, the air cleaning control unit 73 is notified of an instruction to turn off the power 72 for the air cleaning operation unit. The air purification control unit 73 that has received the notification of the air purification operation unit power supply 72 off instruction turns off the air purification operation unit power supply 72.

  The image forming power saving state flag F3 represents the state of the image forming operation unit 101, F3 = 0 represents that the image forming operation unit 101 is in a normal state, and F3 = 1 represents that the image forming operation unit 101 has saved. Represents a power state.

  The image forming operation flag F4 indicates whether or not the image forming operation unit 101 is operating, F4 = 0 indicates that the image forming operation unit 101 is not operating, and F4 = 1 indicates that the image forming operation unit 101 is not operating. Indicates that is in operation. Note that the state of F4 = 1 occurs only when the image forming operation unit 101 is in the normal state, that is, while the image forming power saving state flag F3 is F3 = 0.

  The data shown in FIG. 15 includes image forming power ON automatic presence / absence D1, image forming power OFF automatic presence / absence D2, air cleaning power ON interlocking presence / absence D3, air cleaning power OFF interlocking presence / absence D4, air cleaning power ON prior presence / absence D5, and air Clean power OFF delay presence / absence D6.

  The image forming power ON automatic presence / absence D1 indicates whether or not the image forming operation unit power supply 102 is automatically turned on. D1 = 0 indicates no automatic and D1 = 1 indicates automatic.

  The image forming power supply OFF automatic presence / absence D2 indicates whether or not the image forming operation unit power supply 102 is automatically turned off. D2 = 0 indicates no automatic operation, and D2 = 1 indicates automatic existence.

  The presence / absence of interlocking of the air cleaning power source D3 indicates whether or not the power supply for the air cleaning operation unit 72 is turned on and the power supply for the image forming operation unit 102 is turned on, where D3 = 0 is not linked and D3 = 1 is linked. Indicates yes.

  Air purification power supply OFF interlocking presence / absence D4 indicates whether or not the air cleaning operation unit power supply 72 is interlocked with the image forming operation unit power supply 102 off. D4 = 0 is not interlocking and D4 = 1 is interlocking. Indicates yes.

  Air purifying power ON preceding presence / absence D5 indicates whether or not the air purifying operation unit power 72 is turned on before the image forming operation unit power 102 is turned on when the air purifying power ON interlocking presence / absence D3 = 1. , D5 = 0 indicates no preceding, and D5 = 1 indicates that there is a leading.

  When D5 = 0, the air cleaning operation unit power supply 72 is turned on simultaneously with the image forming operation unit power supply 102 being turned on. When D5 = 1, the air cleaning operation unit power supply 72 is turned on before the image forming operation unit power supply 102 is turned on, but only when the image formation power supply ON automatic presence / absence D1 = 1.

  The air purification power supply OFF delay presence / absence D6 indicates whether or not the air purification operation section power supply 72 is delayed from the image formation operation section power supply 102 off when the air purification power supply OFF interlock presence / absence D4 = 1. , D6 = 0 indicates no delay, and D6 = 1 indicates that there is a delay.

  The data shown in FIG. 16 includes the image forming power ON time t1, the image forming power OFF time t2, the air cleaning power ON preceding time (minutes) T1, the air cleaning power OFF delay time (minutes) T2, the air cleaning power ON time t3, And it is air cleaning power supply OFF time t4.

  The image forming power supply ON time t1 is data set when the image forming power supply ON automatic presence / absence D1 = 1, and represents the time when the image forming operation unit power supply 102 is turned on.

  The image forming power supply OFF time t2 is data set when the image forming power supply OFF automatic presence / absence D2 = 1, and represents the time when the image forming operation unit power supply 102 is turned off.

  The air purifying power ON preceding time (minutes) T1 is data set when the air purifying power ON preceding presence / absence D5 = 1, and the time when the air purifying operation power supply 72 is turned on is set as the image forming operation power supply 102. Represents the time (minutes) that precedes the time when is turned on. This air cleaning power ON preceding time (minute) T1 is set to 120 minutes at the maximum.

  The air purifying power supply OFF delay time (minutes) T2 is data set when the air purifying power supply OFF delay presence / absence D6 = 1, and indicates the time when the air purifying operation section power supply 72 is turned off, and the image forming operation section power supply 102. Represents the time (minutes) to be delayed from the time when is turned off. The air clean power OFF delay time (minutes) T2 is set to 120 minutes at the maximum.

  The air cleaning power ON time t3 is the time when the air cleaning power source power supply 72 is turned on, and when the air cleaning power ON preceding presence / absence D5 = 1, based on the air cleaning power ON preceding time (minutes) T1, The image formation control unit 103 automatically calculates and sets.

  That is, when the image forming power ON automatic presence / absence D1 = 1, since t1 is set, the calculation is performed by t3 = t1 + T1. On the other hand, when the image forming power ON automatic presence / absence D1 = 0, t1 is not set and t3 cannot be obtained by calculation. Therefore, in this case, t3 is not used, and the air cleaning operation unit power source 72 is turned on at the same time as the image forming operation unit power source 102 is actually turned on.

  The air cleaning power supply OFF time t4 is the time when the air cleaning operation unit power supply 72 is turned off, and when the air cleaning power supply OFF delay presence / absence D6 = 1, based on the above air cleaning power supply OFF delay time (minutes) T2. The image formation control unit 103 automatically calculates and sets.

  That is, when the image forming power supply OFF automatic presence / absence D2 = 1, since t4 is set, the calculation is performed with t4 = t2 + T2. On the other hand, when the image forming power OFF automatic presence / absence D2 = 0, t2 is not set. In this case, since the image forming operation unit power supply 102 is manually turned off, the time tf when the image forming operation unit power supply 102 is actually turned off is used to calculate t4 = tf + T2.

  As described above, all the data shown in FIG. 15 and the remaining data excluding the air cleaning power ON time t3 and the air cleaning power OFF time t4 shown in FIG. (Liquid crystal display) It is set by the setting described above using 105 g. Then, next, the setting of this data is demonstrated.

  In the setting using the LCD (liquid crystal display) 105g with a touch panel of the image forming display operation unit 105 described below, the power source 102 for the image forming operation unit as the display on the LCD (liquid crystal display) 105g with a touch panel "Image forming apparatus power supply" is displayed, and the air cleaning operation section power supply 72 is displayed as "air cleaning apparatus power supply".

  17 to 23 are screens used for the above setting using the LCD (liquid crystal display) 105g with a touch panel of the image forming display operation unit 105. FIG. To set these data, first, the user of the image forming system presses the user setting button (SW3) 105f of the image forming display operation unit 105 shown in FIG.

  Then, the “setting menu” screen of FIG. 17 is displayed on the LCD (liquid crystal display) 105 g with a touch panel of the image forming display operation unit 105. On this display screen, “image forming apparatus power setting” and “air cleaning apparatus power setting” are displayed together with other setting items as displays that are input when the user of the image forming system touches the screen display. ing.

  In addition to the above, there are “End”, “Correction”, and “Determination” as the display in which input is performed when the screen is touched. Of these, touching the above-mentioned “end” ends the setting process, and the screen of the LCD (liquid crystal display) 105g with a touch panel of the image forming display operation unit 105 displays the user setting button ( SW3) Return to the state before pressing 105f.

  When touching the “correction”, the input on the screen can be corrected. Further, when “decision” is touched, the input information on the screen is confirmed and the input is completed, and the process proceeds to the next stage. Note that “correction” and “decision” apply to all the screens described below. “End” is used only for the screen of FIG. 17, and “return” is displayed instead of “end” on screens other than FIG. When this “return” is touched, the screen displayed immediately before that screen returns.

  Touching “image forming apparatus power setting” on the “setting menu” screen in FIG. 17 moves to the “image forming apparatus power setting 1” screen in FIG.

  The “image forming apparatus power setting 1” screen in FIG. 18 is a screen for performing settings related to power-on of the power supply 102 for the image forming operation unit. On the “image forming apparatus power setting 1” screen in FIG. 18, when “manually ON” is touched and then “decision” is touched, the image forming power ON automatic presence / absence D1 = 0 is set. The “Image forming apparatus power setting 2” screen appears.

  When “automatically ON” is touched on the “image forming apparatus power setting 1” screen of FIG. 18, in this case, the “ON time” is further set using the numeric keypad 105h provided in the image forming display operation unit 105. Input in the order of “hour” and “minute” in 24-hour display. When “enter” is touched after this input, the image forming power ON automatic presence / absence D1 = 1 is set. Further, after the time input by the above input is set at the image forming power ON time t1, FIG. The “image forming apparatus power setting 2” screen is displayed.

The “image forming apparatus power setting 2” screen in FIG. 19 is a screen for performing settings related to power-off of the power supply 102 for the image forming operation unit. In the “image forming apparatus power setting 2” screen of FIG. 19, touching “OFF manually” and then “decision” sets automatic image forming power OFF D2 = 0, and next, FIG. Move to “Setting Menu” screen.

  When “OFF automatically” is touched on the “image forming apparatus power setting 2” screen in FIG. 19, in this case, “OFF time” is further set using the numeric keypad 105h provided in the image forming display operation unit 105. Input in the order of “hour” and “minute” in 24-hour display. When “enter” is touched after this input, the image forming power supply OFF automatic presence / absence D2 = 1 is set, and further, the time input by the above input is set at the image forming power supply OFF time t2, and then FIG. Move to “Setting Menu” screen.

  On the “setting menu” screen in FIG. 17, when “air purifier power setting” is touched next, the screen moves to the “air purifier power setting 1-1” screen in FIG. 20.

  The “air purifier power supply setting 1-1” screen in FIG. 20 is a screen for setting whether or not the power-on of the power supply 72 for the air purifying operation unit is linked with the power-on of the power supply 102 for the image forming operation unit. is there.

  On the “Air Cleaner Power Supply Setting 1-1” screen in FIG. 20, when “Non-interlocking” is touched and then “Determination” is touched, the presence / absence of air cleaning power ON interlocking D3 = 0 is set, and then FIG. The “air purifier power supply setting 2-1” screen is moved to.

  On the “Air Cleaner Power Supply Setting 1-1” screen in FIG. 20, when “Interlock” is touched, and then “Determination” is touched, the presence / absence of D3 = 1 for air clean power ON is set. In this case, the next screen Next, the screen moves to the “Air Cleaner Power Supply Setting 1-2” screen in FIG. 21.

  The “air cleaning device power supply setting 1-2” screen in FIG. 21 turns on the power supply 72 for the air cleaning operation unit at the same time as the power supply for the image forming operation unit 102 is turned on, It is a screen which performs the setting regarding whether the power supply of the power supply 72 for air purifying operation | movement parts is turned on prior to power-on.

  In the “air purifier power setting 1-2” screen of FIG. 21, touching “concurrently” and then “decision” sets air clean power ON preceding presence / absence D5 = 0, then FIG. The “air purifier power supply setting 2-1” screen is moved to.

  When “preceding” is touched on the “air purifier power supply setting 1-2” screen in FIG. 21, in this case, the “preceding time ( Min)). After this input, touch “OK” to set the air clean power ON preceding presence / absence D5 = 1, and the air clean power ON preceding time (minute) T1 is the time (minute) input by the above input. After the setting, the “air purifier power supply setting 2-1” screen of FIG. 22 is displayed.

  The “air purifier power supply setting 2-1” screen in FIG. 22 is a screen for setting whether or not the power supply of the air cleaning operation unit power supply 72 is linked to the power off of the image forming operation unit power supply 102. is there.

  In the “Air Purifier Power Setting 2-1” screen of FIG. 22, when “Non-interlocking” is touched and then “Determination” is touched, the air cleaning power OFF interlocking presence / absence D4 = 0 is set, and then Then, the “setting menu” screen of FIG. 17 is displayed.

  In the “Air Cleaner Power Setting 2-1” screen of FIG. 22, when “Interlock” is touched and then “Determination” is touched, “Air Cleaner Power OFF interlock presence / absence D4 = 1” is set. In this case, the next screen is displayed. Next, the screen moves to the “Air Purifier Power Supply Setting 2-2” screen of FIG.

  The “air purifier power supply setting 2-2” screen in FIG. 23 turns off the power of the air cleaning operation unit 72 simultaneously with the power off of the image forming operation unit power supply 102 or the power supply of the image forming operation unit power supply 102. It is a screen which performs the setting regarding whether to power off the power supply 72 for the air purifying operation unit with a delay from the power off.

  In the “air purifier power supply setting 2-2” screen of FIG. 23, when “touch simultaneously” is touched and then “decision” is touched, air clean power OFF delay presence / absence D6 = 0 is set, and then FIG. Move to “Setting Menu” screen.

  When “delay” is touched on the “air cleaning device power setting 2-2” screen in FIG. 23, in this case, “delay time ( Min)). After this input, touch “Determine” to set presence / absence D6 = 1 of the air clean power supply OFF delay. Further, the time (minute) input by the above input is set in the air clean power OFF delay time (minute) T2. After the setting, the “setting menu” screen shown in FIG. 17 is displayed.

  As a result of the above, all the settings relating to power control are completed. After all these settings are completed, touching “Exit” on the “Setting menu” screen in FIG. The screen of the (liquid crystal display) 105g returns to the state before the user setting button (SW3) 105f of the image forming display operation unit 105 is pressed.

  The above-described setting is performed using an LCD (liquid crystal display) 105g with a touch panel of the image forming display operation unit 105. In addition, these settings are performed by an external device such as a personal computer connected to the image forming apparatus 100. It can also be done.

  In other words, as described above, the image forming apparatus 100 includes the image forming LAN / I / F 106, and an external device such as a personal computer can be connected via the LAN / I / F 106.

  An external device such as a personal computer connected to the image forming apparatus 100 includes a display device such as an LCD, and input devices such as a numeric keypad, a full keyboard, and a mouse. By using these display devices and input devices, The above-described setting can be performed.

  In this case, for example, instead of the operation of touching the display on the touch panel in the setting described above, the setting can be performed in the same manner as described above by changing the display to an operation of clicking with the mouse.

  Next, the power control operation for the image forming operation unit power supply 102 and the power control operation for the air cleaning operation unit power source 72 performed by the image formation control unit 103 based on the above settings will be described.

  FIG. 24 is a flowchart showing a power control operation for the image forming operation unit power supply 102 performed by the image formation control unit 103. FIG. 25 is a diagram showing an air cleaning operation unit power supply 72 similarly performed by the image formation control unit 103. It is the flowchart which showed the power supply control operation | movement with respect to.

  The power control operation for the power supply 102 for the image forming operation unit and the power control operation for the power source 72 for the air cleaning operation unit 72 are performed using a clock function provided in the image formation control unit 103 of the image forming system. Done. In FIG. 24 and FIG. 25, tn represents the current time.

  First, the power control operation for the image forming operation unit power supply 102 will be described with reference to FIG. The flowchart shown in FIG. 24 shows the flow of the process in which S2 to S6 set the image forming power ON / OFF instruction flag F1, that is, the process of turning on the image forming operation unit power 102, and S7 to S12. Shows a flow of a process of resetting the image forming power ON / OFF instruction flag F1, that is, a process of turning off the image forming operation unit power supply 102.

  In FIG. 24, the power control operation for the image forming operation unit power supply 102 is as follows. First, the image forming power ON / OFF instruction flag F1 is reset to F1 = 0 (S1), and then the image formation of S2 to S6 is performed. The process proceeds to a flow for setting the power ON / OFF instruction flag F1.

  In the flow of setting the image forming power ON / OFF instruction flag F1, first, the image forming power ON automatic presence / absence D1 is checked in S2. If D1 = 1 is not satisfied, that is, if D1 = 0, the image forming operation unit The power supply 102 is turned on manually. Therefore, next, the process proceeds to S3.

  If D1 = 1 in the check of whether or not the image forming power supply ON is automatically checked D1 in S2, the power supply 102 for the image forming operation unit is automatically turned on. Therefore, the process proceeds to S4.

  In S3, the power button (SW1) 105a of the image formation display operation unit 105 is checked. If SW1 = 1, the power button (SW1) 105a of the image formation display operation unit 105 is pressed, so that the image formation operation is performed. The department power supply 102 needs to be turned on, and the process proceeds to S6.

  In the check of the power button (SW1) 105a of the image formation display operation unit 105 in S3, if SW1 = 1 is not 1, that is, SW1 = 0, the power button (SW1) 105a of the image formation display operation unit 105 is pressed. Therefore, it is not necessary to turn on the power supply 102 for the image forming operation unit, and the process proceeds to S5.

  In S4, it is checked whether or not the current time tn is the image forming power ON time t1, and if tn = t1, the image forming power ON time t1 has been reached. Needs to be turned on, and then the process proceeds to S6.

  When it is checked whether or not the current time tn of S4 is the image formation power ON time t1, if tn = t1, the image formation power ON time t1 has not been reached. There is no need to turn it on, and the process proceeds to S5.

  In S5, the image forming power saving state flag F3 is checked, and if F3 = 1, this indicates that the state of the image forming operation unit 101 is the power saving state, and it is necessary to turn on the power supply 102 for the image forming operation unit. Since there is not, it returns to S2 and repeats after S2.

  If F3 = 1 is not satisfied in the check of the image forming power saving state flag F3 in S5, that is, if F3 = 0, this indicates that the state of the image forming operation unit 101 is the normal state, and the image forming operation unit power supply 102 Needs to be turned on, and then the process proceeds to S6.

  In S6, the image forming power ON / OFF instruction flag F1 is set to set F1 = 1. That is, the image forming power ON / OFF instruction flag F1 changes from F1 = 0 to F1 = 1. Therefore, as described above, the image forming control unit 103 turns on the power supply 102 for the image forming operation unit.

  When the image forming power supply 102 is turned on by setting the image forming power ON / OFF instruction flag F1 in S6, the flow for setting the image forming power ON / OFF instruction flag F1 is completed, and then the images of S7 to S12 are performed. The process proceeds to a flow for resetting the formation power ON / OFF instruction flag F1.

  In the flow of resetting the image forming power ON / OFF instruction flag F1, first, the image forming power OFF automatic presence / absence D2 is checked in S7, and if D2 = 1 is not satisfied, that is, if D2 = 0, the image forming operation unit The power supply 102 is turned off manually. Therefore, next, the process proceeds to S8.

  If D2 = 1 in the image forming power supply OFF automatic presence / absence check D2 in S7, the image forming operation unit power supply 102 is automatically turned off. Therefore, the process proceeds to S9.

  In S8, the power button (SW1) 105a of the image forming display operation unit 105 is checked. If SW1 = 1, the power button (SW1) 105a of the image forming display operation unit 105 is pressed, so that the image forming operation is performed. It is necessary to turn off the part power supply 102, and then the process proceeds to S10.

  In the check of the power button (SW1) 105a of the image formation display operation unit 105 in S8, if SW1 = 1 is not 1, that is, SW1 = 0, the power button (SW1) 105a of the image formation display operation unit 105 is pressed. Therefore, it is not necessary to turn off the power supply 102 for the image forming operation unit, and the process proceeds to S11.

  In S9, it is checked whether or not the current time tn is the image forming power supply OFF time t2, and if tn = t2, the image forming power supply power supply 102 is reached because the image forming power supply OFF time t2 has been reached. Needs to be turned off, and then the process proceeds to S10.

  When it is checked whether or not the current time tn in S9 is the image forming power supply OFF time t2, if tn = t2, the image forming power supply power supply 102 is turned off because the image forming power supply OFF time t2 has not arrived. There is no need to turn it off, and the process proceeds to S11.

  In S10, before the image forming operation unit power supply 102 is turned off, the image forming operation unit power supply 102 is not turned off while the image forming operation unit 101 is operating. The flag F4 is checked, and if F4 = 1, the image forming operation unit 101 is operating. Therefore, the process waits until F4 = 0 and proceeds to S12.

  In S11, the image forming power saving state flag F3 is checked, and if F3 = 1, this indicates that the state of the image forming operation unit 101 is the power saving state, and it is necessary to turn off the power supply 102 for the image forming operation unit. Yes, then go to S12.

  When the image forming power saving state flag F3 in S11 is not F3 = 1, that is, F3 = 0, this indicates that the state of the image forming operation unit 101 is the normal state, and the power supply 102 for the image forming operation unit. Since there is no need to turn off, the process returns to S7 and S7 and subsequent steps are repeated.

  In S12, the image forming power ON / OFF instruction flag F1 is reset to F1 = 0. That is, the image forming power ON / OFF instruction flag F1 changes from F1 = 1 to F1 = 0. Therefore, as described above, the image forming control unit 103 turns off the power supply 102 for the image forming operation unit.

  When the image forming operation unit power supply 102 is turned off by resetting the image forming power supply ON / OFF instruction flag F1 in S12, the flow for resetting the image forming power supply ON / OFF instruction flag F1 is completed, and then the images of S2 to S6 are completed. In order to proceed to the flow for setting the formation power ON / OFF instruction flag F1, the process returns to S2 and S2 and subsequent steps are repeated.

  Next, a power control operation for the air cleaning operation unit power supply 72 will be described with reference to FIG. The flowchart shown in FIG. 25 shows a flow of a process in which S22 to S29 set the air cleaning power ON / OFF instruction flag F2, that is, a process of turning on the air cleaning power supply 72, and S30 to S39. Shows a flow of a process of resetting the air cleaning power ON / OFF instruction flag F2, that is, a process of turning off the air cleaning operation unit power source 72.

  In FIG. 25, the power control operation for the power supply 72 for the air cleaning operation section is as follows. First, the air cleaning power ON / OFF instruction flag F2 is reset to F2 = 0 (S21), and then the air cleaning of S22 to S29 is performed. The process proceeds to a flow for setting the power ON / OFF instruction flag F2.

  In the flow for setting the air clean power ON / OFF instruction flag F2, first, the air clean power ON interlocking presence / absence D3 is checked in S22. If D3 = 1 is not satisfied, that is, if D3 = 0, the air clean operation section The power supply 72 is turned on manually. Therefore, the process proceeds to S23.

  In the check of the presence / absence of interlocking D3 of the air cleaning power source in S22, if D3 = 1, the power source 72 for the air cleaning operation unit is automatically turned on. Therefore, next, the process proceeds to S24.

  In S23, the power button (SW2) 75a of the air purification display operation unit 75 is checked, waits until the power button (SW2) 75a of the air purification display operation unit 75 is pressed, and when SW2 = 1, It is necessary to turn on the power supply 72 for the cleaning operation unit, and then the process proceeds to S29.

  In S24, the presence / absence D5 of the air cleaning power ON is checked. If D5 = 1 is not satisfied, that is, if D5 = 0, the air cleaning operation unit power 72 is turned on and the image forming operation unit power 102 is turned on. Done at the same time. Therefore, next, the process proceeds to S25.

  If D5 = 1 in the check of the presence / absence D5 of the air cleaning power supply ON in S24, the air cleaning operation section power supply 72 is turned on prior to the image forming operation section power supply 102 being turned on. In this case, as described above, the air cleaning power ON time t3 is calculated as t3 = image forming power ON time t1−air cleaning power ON preceding time (minutes) T1, and the image forming power ON time t1 is set. There is a need. As described above, this t1 is set when the image forming power ON automatic presence / absence D1 = 1. Therefore, in order to check this, the process proceeds to S26.

  In S25, the image forming power supply ON / OFF instruction flag F1 is checked and waits until this F1 is set. When F1 = 1, the image forming operation unit power supply 102 is turned on. It is necessary to turn on the power supply 72 for the cleaning operation unit, and then the process proceeds to S29.

  In S26, the image forming power ON automatic presence / absence D1 is checked. If D1 = 1 is not 1, that is, if D1 = 0, the image forming power ON time t1 is not set. The power ON time t3 cannot be calculated. Therefore, in this case, as described above, the same processing as that in the case where the air purifying power ON preceding presence / absence D5 = 0 is performed. Therefore, next, the process proceeds to S25 described above.

  If D1 = 1 in the check of the image forming power ON automatic presence / absence D1 in S26, the image forming power ON time t1 is set, and the image forming control unit 103 can calculate the air clean power ON time t3. it can. Therefore, the process proceeds to S27.

  In S27, the air purification power ON time t3 is calculated by the image forming control unit 103 by t3 = image forming power ON time t1−air cleaning power ON preceding time (minutes) T1, and then the process proceeds to S28.

  In S28, it is checked whether or not the current time tn is the image forming power ON time t3. If tn = t3, the air cleaning power ON power t 72 is reached because the air cleaning power ON time t3 is reached. Needs to be turned on, and then the process proceeds to S29.

  In S29, the air cleaning power ON / OFF instruction flag F2 is set to F2 = 1. That is, the air cleaning power ON / OFF instruction flag F2 changes from F2 = 0 to F2 = 1. Therefore, as described above, the image formation control unit 103 instructs the air cleaning control unit 73 to turn on the power supply 72 for the air cleaning operation unit via the image forming RS232C • I / F 107 and the air cleaning RS232C • I / F77. To be notified. The air cleaning operation unit power source 72 is turned on by the air cleaning control unit 73 that has received the instruction to turn on the air cleaning operation unit power source 72.

  When the air cleaning power supply 72 is turned on by setting the air cleaning power ON / OFF instruction flag F2 in S29, the flow for setting the air cleaning power ON / OFF instruction flag F2 is completed, and then the air of S30 to S39 is performed. The process proceeds to a flow for resetting the clean power ON / OFF instruction flag F2.

  In the flow for resetting the air clean power ON / OFF instruction flag F2, first, the air clean power OFF interlocking presence / absence D4 is checked in S30, and if D4 = 1 is not satisfied, that is, if D4 = 0, the air clean operation section. The power supply 72 is turned off manually. Therefore, next, the process proceeds to S31.

  If D4 = 1 in the check of the presence / absence of interlocking D4 of the air cleaning power supply in S30, the power supply 72 for the air cleaning operation unit is automatically turned off. Therefore, next, the process proceeds to S32.

  In S31, the power button (SW2) 75a of the air purification display operation unit 75 is checked, waits until the power button (SW2) 75a of the air purification display operation unit 75 is pressed, and when SW2 = 1, It is necessary to turn off the power supply 72 for the cleaning operation unit, and then the process proceeds to S39.

  In S32, the air clean power supply OFF delay presence / absence D6 is checked. If D6 = 1 is not satisfied, that is, if D6 = 0, the air clean operation section power supply 72 is turned off and the image forming operation section power supply 102 is turned off. Done at the same time. Therefore, the process proceeds to S33.

  In S33, the image forming power supply ON / OFF instruction flag F1 is checked and waits until F1 is reset. When F1 = 0, the image forming operation unit power supply 102 is turned off. It is necessary to turn off the power supply 72 for the air purifying operation unit, and then the process proceeds to S39.

  When the air purifying power supply OFF delay presence / absence D6 in S32 is checked, if D6 = 1, the air purifying operation section power supply 72 is turned on after the image forming operation section power supply 102 is turned off.

  In this case, the time to turn off with delay is the air clean power supply OFF time t4. This air clean power supply OFF time t4 is, as described above, when the image forming power supply OFF automatic presence / absence D2 = 1, the image forming power supply OFF. Since the time t2 is set, the image forming control unit 103 calculates the air clean power OFF time t4 by t4 = image forming power OFF time t2 + air clean power OFF delay time (minutes) T2.

  On the other hand, when the image forming power OFF automatic presence / absence D2 = 0, the image forming power OFF time t2 is not set. In this case, since the image forming operation unit power supply 102 is manually turned off, the image formation control unit 103 uses the time tf when the image forming operation unit power supply 102 is actually turned off to use the air cleaning power supply. The OFF time t4 is calculated by t4 = tf + air cleaning power supply OFF delay time (minutes) T2. Then, in order to determine which of the above calculations should be performed, the process proceeds to S34.

  In S34, the image forming power supply OFF automatic presence / absence D2 is checked. If D2 = 1, the image forming power supply OFF time t2 is set. Therefore, the process proceeds to S35, and the air cleaning power supply OFF time t4 is changed to t4 = image forming. Calculation is performed using the power OFF time t2 + the air clean power OFF delay time (minutes) T2, and the process proceeds to S38.

  In the check of whether or not the image forming power supply OFF is automatically set D2 in S34, if D2 = 1 is not 1, that is, D2 = 0, it is necessary to know the time tf when the image forming operation unit power supply 102 is actually turned off. The process proceeds to S36.

  In S36, the image forming power supply ON / OFF instruction flag F1 is checked and waits until this F1 is reset. When F1 = 0, the power supply 102 for the image forming operation unit is turned off, and the process proceeds to S37. Then, using the current time tn at this time as the time tf, the air clean power OFF time t4 is calculated by t4 = tn + air clean power OFF delay time (minutes) T2, and the process proceeds to S38.

  In S38, it is checked whether or not the current time tn is the air cleaning power OFF time t4. If tn = t4, the air cleaning power OFF time t4 has arrived. Needs to be turned off, and then the process proceeds to S39.

  In S39, the air cleaning power ON / OFF instruction flag F2 is reset to F2 = 0. That is, the air cleaning power ON / OFF instruction flag F2 changes from F2 = 1 to F2 = 0. Therefore, as described above, the image forming control unit 103 instructs the air cleaning control unit 73 to turn off the power 72 for the air cleaning operation unit via the image forming RS 232C · I / F 107 and the air cleaning RS 232C · I / F 77. To be notified. The air cleaning operation unit power source 72 is turned off by the air cleaning control unit 73 that has received the notification of the air cleaning operation unit power source 72 off instruction.

  When the air cleaning power source power supply 72 is turned off by resetting the air cleaning power ON / OFF instruction flag F2 in S39, the flow for resetting the air cleaning power ON / OFF instruction flag F2 is completed, and then the air in S22 to S29 is completed. In order to proceed to the flow for setting the clean power ON / OFF instruction flag F2, the process returns to S22 and repeats the steps from S22.

  According to the image forming system, the air cleaning operation unit power source 72 can be turned on / off in conjunction with the image forming operation unit power source 102. That is, it has a linked on control function and a linked off control function for supplying power to the image forming operation unit 101 and the air cleaning operation unit 71.

  Therefore, the surrounding environment of the image forming system such as a room in which the image forming system is installed can be effectively kept clean while reducing power consumption.

  Further, the power supply of the air cleaning operation unit power supply 72 can be turned on prior to the time when the power supply of the image forming operation unit power supply 102 is turned on. That is, the power supply ON control to the air cleaning operation unit 71 before the preset time before the time point when the power supply ON control to the image forming operation unit 101 (first power supply ON control described above) is executed. (The second power supply ON control described above) can be executed.

  Therefore, air in a room or the like in which the image forming system is installed can be cleaned in advance before the image forming operation unit 101 of the image forming system operates. Therefore, the environment surrounding the image forming system, such as a room in which the image forming system is installed, can be effectively kept clean while reducing power consumption.

  Further, the power supply of the air cleaning operation unit power supply 72 can be turned off with a delay from the time when the power supply of the image forming operation unit power supply 102 is turned off. That is, the power supply off control (to the air cleaning operation unit 71) after a preset time from the time when the power supply on control to the image forming operation unit 101 (first power supply off control described above) is executed ( The above-described second power supply off control) can be executed.

  Therefore, the air in the room where the image forming system is installed can be continuously cleaned even after the image forming operation unit 101 of the image forming system stops operating, and the image forming system is installed for the next day. The room can be effectively kept clean. Therefore, the environment surrounding the image forming system, such as a room in which the image forming system is installed, can be effectively kept clean while reducing power consumption.

  In addition, the power supply of the air cleaning operation unit power supply 72 and the power supply of the image forming operation unit power supply 102 can be turned on at the same time. That is, as the execution of the interlock on control function, the power supply on control to the image forming operation unit 101 (first power supply on control described above) and the power supply on control to the air cleaning operation unit 71 (second power supply described above). ON control) can be executed simultaneously.

  Therefore, when the power supply to the image forming operation unit 101 is turned on, the power supply to the air cleaning operation unit 71 is turned on and the air cleaning operation unit 71 is operated to release the image forming operation unit 101 from the image forming operation unit 101. Invisible fine particles and odors can be removed, and the room where the image forming system is installed can be effectively kept clean while reducing power consumption.

  Further, the power supply of the air cleaning operation unit power supply 72 and the power supply of the image forming operation unit power supply 102 can be turned off at the same time. That is, as the execution of the interlock on control function, the power supply off control to the image forming operation unit 101 (first power supply off control described above) and the power supply off control to the air cleaning operation unit 71 (second power supply described above). Off control) can be executed simultaneously.

  Therefore, the power supply to the image forming operation unit 101 is turned off, and at the same time, the power supply to the air cleaning operation unit 71 is turned off to stop the operation of the air cleaning operation unit 71, whereby the image forming system is installed. The room can be effectively kept clean while reducing power consumption. In addition, by doing so, it is possible to prevent forgetting to turn off the power to the air cleaning operation unit 71.

  Further, the image forming operation unit 101 of the image forming system causes the image forming control unit 103 to reduce the power consumption of the image forming operation unit 101 when the image forming operation unit 101 does not operate. When the image forming operation unit 101 is in the power saving mode, the power supply off to the image forming operation unit 101 is turned off. Even if the control is executed, the power supply off control to the air cleaning operation unit 71 (the second power supply off control described above) is not executed.

  For this reason, when the image forming operation unit 101 is not operated, from the viewpoint of reducing power consumption, by setting the power saving mode, the image forming control unit 103 of the image forming system controls power supply off to the image forming operation unit 101. Is executed, and the power supply to the image forming operation unit 101 is stopped. However, the power supply to the air cleaning operation unit 71 is not turned off, and the operation of the air cleaning operation unit 71 is continued. Therefore, the room in which the image forming system is installed can be effectively kept clean while reducing power consumption.

  The image forming system includes a plurality of types of interlock on control. That is, as described above, the power supply ON control to the image forming operation unit 101 (first power supply ON control described above) and the power supply ON control to the air cleaning operation unit 71 (second power supply ON control described above). The power supply ON control to the air cleaning operation unit 71 is performed for a predetermined time before the power supply ON control to the image forming operation unit 101 (the first power supply ON control described above) is executed. (The second power supply ON control described above) can be executed.

  Further, as described above, power supply off control to the image forming operation unit 101 (first power supply off control described above) and power supply off control to the air cleaning operation unit 71 (second power supply off control described above). And the power supply off control to the air cleaning operation unit 71 after a certain time after the execution of the power supply off control to the image forming operation unit 101 (first power supply off control described above) ( The above-described second power supply off control) can be executed.

  Therefore, by selecting one of the multiple types of linked on control functions or selecting one of the multiple types of linked off control functions, it can be matched to the situation of the room where the image forming system is installed. The cooperation between the image forming operation unit 101 and the air cleaning operation unit 71 can be realized, and the room in which the image forming system is installed can be effectively kept clean while reducing power consumption. it can.

  In the image forming system, the power supply ON control to the image forming operation unit 101 (first power supply ON control described above) and the power supply ON control to the air cleaning operation unit 71 (second power supply described above) are provided. (The above-described individual on-control function), power supply off control (the above-described first power supply off control) to the image forming operation unit 101, and air A function (individual off control function described above) that is independently executed independently of the power supply off control (second electric power supply off control described above) to the cleaning operation unit 71 is provided.

  Therefore, the power control for the image forming operation unit 101 and the air cleaning operation unit 71 can be individually performed according to the situation of the room where the image forming system is installed, and the room where the image forming system is installed Therefore, it is possible to effectively maintain a clean state while suppressing power consumption.

  Further, according to the image forming system described above, the settings necessary for each power control described above are provided in the image forming apparatus 100 in addition to the operation by the image forming display operation unit 105 provided in the image forming apparatus 100. It can be performed by remote operation by an external device such as a personal computer connected to the image forming apparatus 100 via the image forming LAN / I / F 106.

  Therefore, the power control setting for the image forming system can be set from a plurality of locations, and the setting operation can be facilitated and speeded up.

  In the image forming system described above, the “image forming apparatus power setting 1” screen shown in FIG. 18 and the “image forming apparatus power setting 2” shown in FIG. The “image forming apparatus power setting 1” screen in FIG. 18 and the “image forming apparatus power setting 2” screen in FIG. 19 are used instead of the “image forming apparatus power setting 1” screen in FIG. ”Screen and the“ image forming apparatus power setting 2 ”screen of FIG. 27 may be used.

  In this case, on the “image forming apparatus power setting 1” screen of FIG. 26, whether to perform the manual operation or the automatic operation is set by one operation for turning on and off the power supply 102 for the image forming operation section.

  In the “image forming apparatus power setting 2” screen of FIG. 27, the image forming operation unit power supply 102 is turned on and off for one week. The image forming operation unit power supply 102 is set for each day of the week. The on time and the off time are individually set.

  In this case, as data areas of the image forming power ON time t1 and the image forming power OFF time t2 shown in FIG. 16, seven data from Monday to Sunday are secured, and the set data is used for each day of the week. .

  By doing so, it is possible to make settings in accordance with the operation on each day of the week of the image forming system.

  Although the image forming system does not include a FAX function, the image forming control unit 103 may be provided with a FAX function by providing a telephone line connection interface. In this case, while the power supply 102 for the image forming operation unit is off, only the reception function is performed among the transmission function and the reception function of the FAX function.

  In the image forming system, the air cleaning device 70 is provided outside the casing of the image forming apparatus 100. However, the air cleaning device 70 is provided inside the casing of the image forming apparatus 100. May be.

  FIG. 28 is a perspective view showing the appearance of the image forming system when the air cleaning device 70 is provided inside the housing of the image forming device 100. In this case, for example, as shown in FIG. 28, a suction hole (not shown) is provided on the rear surface side, and an outlet is provided on the front surface side.

  Thus, by providing the air cleaning device 70 inside the housing of the image forming apparatus 100, it is not necessary to provide a space for installing the air cleaning device 70 outside the image forming apparatus 100. be able to. Further, it is possible to eliminate the need for providing an independent air purifier separately in a room or the like where the image forming system is installed. Therefore, it is possible to suppress a decrease in the space that can be effectively used in a room or the like where the image forming system is installed.

  In the above image forming system, the image forming system is configured by combining the image forming apparatus 100 and the air cleaning device 70. The power supply 102 for the image forming operation section and the power supply 72 for the air cleaning operation section Although provided separately, the image forming operation unit power supply 102 and the air cleaning operation unit power supply 72 may be configured integrally.

DESCRIPTION OF SYMBOLS 1 Laser exposure apparatus 2 Developing apparatus 3 Photoconductor drum 4 Cleaner apparatus 5 Charger 6 Intermediate transfer roller 7 Intermediate transfer belt 8 Intermediate transfer belt apparatus 9 Intermediate transfer belt cleaning apparatus 10 Paper feed tray 11 Secondary transfer apparatus 11a Transfer roller 12 Fixing Device 14 Paper registration roller 15 Paper discharge tray 16 Paper pickup roller 21 Intermediate transfer belt drive roller 22 Driven roller 31 Heating roller 32 Pressure roller 41 Document set tray 42 Document transport section 44 Document pickup roller 45 Sakiaki roller 46 Separation pad 47 Transport path 49 Document registration roller 51 Reading guide 52 Reading glass 53 First scanning unit 54 Second scanning unit 55 Imaging lens 56 CCD
57 Conveying roller 58 Paper discharge roller 59 Paper discharge tray 60 Document reading unit 61 Document table glass 70 Air purifier 70a Main body 70b Post 70c Rotating shaft 70d Air outlet 71 Air cleaning operation unit 72 Air cleaning operation unit power supply 73 Air cleaning control Unit 74 Air Clean Control Unit Power Supply 75 Air Clean Display Operation Unit 75a Power Button (SW2)
75b ON-linked display lamp 75c OFF-linked display lamp 75d Power display lamp 77 Air clean RS232C / I / F
81a Suction hole 81b Top surface outlet 82 Fan unit 82a Fan 83 Suction duct 84 Air outlet duct 85 Ion generating element 85a Positive ion generating element 85b Negative ion generating element 87 Arrow 91 indicating rotation direction Fixed duct front wall 92 Fixed duct rear wall 100 Image Image forming operation unit 102 Image forming operation unit power supply 103 Image formation control unit 104 Image formation control unit power supply 105 Image formation display operation unit 105a Power button (SW1)
105b ON automatic indicator lamp 105c OFF automatic indicator lamp 105d Power indicator lamp 105e Switch barrier 105f User setting button (SW3)
105g LCD
105h Numeric keypad 106 Image forming LAN / I / F
107 Image formation RS232C / I / F
200 Image Forming System 201 Power Supply 210 Image Forming Apparatus 211 Image Forming Operation Unit 212 First Power Supply 213 Control Unit 214 Operation Unit 215 Remote Operation Accepting Unit 220 Air Cleaner 221 Air Cleaning Operation Unit 222 Second Power Supply

Claims (13)

An image including an image forming operation unit that performs an image forming operation, an air cleaning operation unit that performs an air cleaning operation, a power source that supplies power to the image forming operation unit and the air cleaning operation unit, and a control unit A forming system,
The controller is
Linked ON that links the first power supply on control for turning on the power supply from the power source to the image forming operation unit and the second power supply on control for turning on the power supply from the power source to the air cleaning operation unit. With control function,
The interlock on-control function is configured to execute the second power supply on control before a set time set in advance from the time of executing the first power supply on control. Forming system. The image forming system according to claim 1,
The power source includes a first power source that supplies power to the image forming operation unit, and a second power source that supplies power to the air cleaning operation unit,
The first power supply on control is executed for the first power supply, and the second power supply on control is executed for the second power supply. system. The image forming system according to claim 1 or 2,
The image forming system, wherein the control unit includes a plurality of types of the interlock on control function. The image forming system according to any one of claims 1 to 3, wherein:
The controller is
It has an operation unit that accepts external operations,
An image forming system, wherein the set time is set based on the operation received by the operation unit. The image forming system according to claim 4,
The image forming system, wherein the control unit is configured to select any one of a plurality of types of the linked-on control functions based on the operation received by the operation unit. The image forming system according to claim 5,
The controller is
Furthermore, it has an individual on control function for independently and individually executing the first power supply on control and the second power supply on control,
Based on the operation received by the operation unit, an on-control function selection for selecting any one of the plural types of the interlock on-control function and the individual on-control function is performed. An image forming system. The image forming system according to claim 5 or 6,
The controller is
It has a remote operation acceptance unit that accepts remote operation from the outside via the communication function,
An image forming system, wherein the on-control function selection is executed based on the remote operation received by the remote operation receiving unit. The image forming system according to any one of claims 2 to 7,
The first power source, the image forming operation unit, and the control unit constitute an image forming apparatus,
The image forming system, wherein the second power source and the air cleaning operation unit constitute an air cleaning device. The image forming system according to claim 8,
The image forming system, wherein the air cleaning device is provided outside the image forming device. The image forming system according to claim 9,
The image forming system, wherein the air cleaning device is provided above the image forming device. The image forming system according to claim 9 or 10, wherein:
The image forming system, wherein the air purifying operation unit has an ion generation function. The image forming system according to claim 11,
The image forming apparatus includes a normal mode and a power saving mode that consumes less power than in the normal mode.
The image forming system, wherein the air cleaning operation unit has different ion release directions in the normal mode and the power saving mode. The image forming system according to claim 8,
The image forming system, wherein the air cleaning device is provided inside the image forming apparatus.

Images