JP4498668B2 - Image forming system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image forming system in which a peripheral device is assembled to an image forming apparatus.
[0002]
[Prior art]
2. Description of the Related Art In recent years, an image forming system has been provided in which peripheral devices are assembled to an image forming apparatus in accordance with a user's request or a use environment.
[0003]
As the image forming system, for example, there is an image forming system in which a switchback mechanism is assembled as a peripheral device to an image forming apparatus. In the image forming system, first, the image forming apparatus discharges a recording material (sheet) on which an image is formed on one side to the switchback mechanism. Then, after the sheet is reversed by the switchback mechanism, the sheet is sent to the image forming apparatus. With this image forming system, images can be formed on both the front and back sides of the sheet, so resource saving can be realized.
[0004]
For example, as the image forming system, there is an image forming system in which a post-processing device is assembled as a peripheral device to the image forming device. In the image forming system, a sheet on which image formation has been completed by the image forming apparatus is sent to the post-processing apparatus. The post-processing apparatus performs punch hole processing, stapling, sorting, and the like. With this image forming system, work efficiency can be improved.
[0005]
As described above, in the image forming system in which the peripheral device is assembled to the image forming apparatus, the type of the peripheral device can be selected. In addition, the image forming apparatus has a purpose of use such as a copying machine or a printer. Can be selected arbitrarily. Therefore, there is a degree of freedom in the combination of the functions of the image forming apparatus and the functions of the peripheral devices, and the user can arbitrarily select and set the desired image finishing form. The system is highly scalable.
[0006]
By the way, in the image forming system, a sheet may stay in the sheet conveying system of the image forming apparatus or the peripheral device and a jam may occur. In such a case, the user must perform a recovery operation of the image forming system such as taking out the staying sheet.
[0007]
In such a case, jam processing is performed by opening a gap between the image forming apparatus and the peripheral device, such as by pulling out a predetermined unit in the image forming apparatus to the outside of the peripheral device side of the image forming apparatus. If the peripheral device assembled in the image forming apparatus is not removed or moved before the jam processing, the staying sheet cannot be taken out, and the work increases. In addition, it is necessary to provide a space necessary for removing the peripheral device, a space for temporarily removing the removed peripheral device, and a space to which the peripheral device is moved. Since it is easy to place objects, it may be accompanied by a great work of moving obstacles in this space during jam processing.
[0008]
Patent Document 1 discloses an image forming apparatus that includes an opening / closing unit in which an opening is provided in the front portion of the main body of the image forming apparatus, and a conveying member and the like are disposed inside the opening. In the image forming apparatus, the user is configured to take out the sheet retained by the jam by inserting his / her hand through the opening. If it is possible to perform processing from such an opening for a jam that has been processed by opening the space between the image forming apparatus and the peripheral device, the image can be obtained even if the peripheral device is assembled. For jams in the forming apparatus, it may be possible to eliminate the work of removing and moving the peripheral devices as described above.
[0009]
For example, Patent Document 2 discloses an image forming system in which a plurality of peripheral devices assembled into an image forming apparatus are unitized. In this image forming system, each peripheral device can be moved in a direction away from the image forming apparatus on a support base disposed on the floor surface. When a jam occurs in the vicinity of the connection between the image forming apparatus and the peripheral device or in each peripheral device, the user disconnects the predetermined unit from the image forming system and moves it on the support table, causing the jam. A space is formed in the vicinity, and the retained sheet is taken out using this space. When such an image forming system is used, when the jam processing is performed with the image forming apparatus and the peripheral device opened, a space in which the peripheral device should move is previously formed on the support base. Can be considered.
[0010]
[Patent Document 1]
Japanese Patent Laid-Open No. 4-86836 (Publication date: March 19, 1992)
[0011]
[Patent Document 2]
JP-A-6-286922 (publication date: October 11, 1994)
[0012]
[Problems to be solved by the invention]
However, in the image forming apparatus disclosed in Patent Document 1, a space for taking out the staying sheet is provided in the image forming apparatus itself. Removal may still be difficult. Also, it is not possible to perform jams occurring in the peripheral device from the above space.
[0013]
Therefore, in order to perform jam processing in a state where a space between the image forming apparatus and peripheral devices is opened and a sufficient work space is secured, the configuration of the image forming system disclosed in Patent Document 2 is used. Then, even in such an image forming system, if a part of the image forming apparatus is pulled out to perform jam processing, the peripheral device unitized by the user must be removed and moved before being pulled out. There is no change, and there is still a lot of work.
[0014]
Further, even if a space in which the peripheral device is to be moved is formed in advance on the support base, the space is formed at the side edge of the image forming system, so that the space on the support base installed on the floor surface A load or the like can be easily placed, and a part of another object can easily enter the space. Therefore, it cannot be said that a space for moving peripheral devices is surely secured. Therefore, it is difficult to eliminate the great work of removing obstacles from the space when jamming.
[0015]
As described above, in the conventional image forming system, there is a problem that the work associated with the opening between the image forming apparatus and the peripheral device is difficult when performing jam processing between the image forming apparatus and the peripheral device. was there.
[0016]
The present invention has been made in view of the above problems, and an object thereof is to perform jam processing between an image forming apparatus and a peripheral device in an image forming system in which the peripheral device is assembled to the image forming apparatus. Another object of the present invention is to provide an image forming system in which it is not necessary to perform a great work associated with the opening between the image forming apparatus and the peripheral device.
[0017]
[Means for Solving the Problems]
  In order to solve the above problems, an image forming system according to the present invention is assembled with an image forming apparatus that forms an image on a recording material and juxtaposed with the image forming apparatus, and image formation is performed from the image forming apparatus. In an image forming system comprising a peripheral device that transports the recording material and performs a predetermined process on the recording material, positioning means for positioning the image forming device and the peripheral device, and from the image forming device A relay conveyance device that relays conveyance of the recording material to the peripheral device, and the positioning means includes the image forming device and the peripheral device that are performed between the image forming device and the peripheral device. Position the recording material so that it is separated by a distance corresponding to the space for jam processing.A first positioning member that connects the image forming apparatus and the peripheral device on the side opposite to the operation side of the image forming system with respect to the space; and the image forming apparatus and the lower part below the space. A recording material that is connected to a peripheral device and includes a second positioning member that determines a relative arrangement position of the image forming apparatus and the peripheral device, and the second positioning member is supplied to the image forming apparatus. Recording material supply deviceThe relay conveying device is a flat plate-like device provided horizontally so as to define the upper limit of the space, and the image forming apparatus and the above-described device are left so as to leave the space except for the occupation of the relay conveying device. The peripheral device is connected, and the connection between the image forming device and the peripheral device is released so that the connection release portion can be rotated so as to face vertically downward. The relay conveyance device is rotated downward so that the surface is positioned along the side surface of the peripheral device or the surface opposite to the operation side of the image forming system. After rotating the conveying device, it is possible to open the recording material conveying path of the image forming apparatus by retracting the side wall of the image forming apparatus accommodating the conveying path inside the space. It is characterized by that.
[0018]
According to the above invention, the recording material between the image forming apparatus and the peripheral apparatus between the image forming apparatus and the peripheral apparatus of the image forming system is positioned between the image forming apparatus and the peripheral apparatus by positioning by the positioning means and connection by the relay conveying apparatus. The space for the jam processing is secured in advance. For this reason, when the jamming occurs between the image forming apparatus and the peripheral device when the recording material stays in the image forming apparatus or the recording material conveyance system of the peripheral device assembled in the image forming apparatus and a jam occurs, the above space is used. The recording material staying through can be easily taken out. This eliminates the need to remove or move the peripheral device to form the jam handling space.
[0019]
As a result, in the image forming system in which the peripheral device is assembled to the image forming apparatus, when the jam processing is performed between the image forming apparatus and the peripheral device, a serious problem occurs due to the opening between the image forming apparatus and the peripheral device. An image forming system that does not require work can be provided.
[0020]
Furthermore, in order to solve the above-described problems, the image forming system of the present invention is a flat plate-like device provided horizontally so as to define the upper limit of the space. It is characterized in that the connection with the device is released and the connection release portion can be turned so as to face vertically downward.
[0021]
According to the above invention, during the jam processing, the relay transport device releases the connection between the image forming apparatus and the peripheral device, and the relay transport device is rotated so that the connection release portion faces vertically downward. The apparatus is in a state of retreating from the upper limit of the space. Since the relay transfer device has a flat plate shape, even if such retraction is performed, it is possible to prevent the relay transfer device after the retraction from narrowing the space so as to be an obstacle to the jam processing. Therefore, it is not accompanied by a laborious work such as removing and moving a peripheral device as in the prior art.
[0022]
As described above, since the relay conveyance device is retracted from above the space at the time of jam processing, the work can be started from above the space, and the use efficiency of the space can be increased accordingly.
[0023]
Furthermore, in order to solve the above-described problems, the image forming system of the present invention is characterized in that the relay conveyance device rotates toward the side opposite to the operation side of the image forming system.
[0024]
According to the above invention, the rotated relay conveyance device is retracted to the side opposite to the operation side of the image forming system, that is, the side opposite to the side where normal jam processing is performed, and the use efficiency of the space is further increased. can do.
[0025]
When the relay transport device is rotated to the image forming apparatus side or the peripheral device side, the space is narrowed by the thickness of the retracted relay transport device, but the image forming apparatus and the peripheral device in the space after the narrowing Is equal to the horizontal distance at the time of jam processing in the present invention, the distance between the image forming apparatus and the peripheral device is increased by the thickness of the relay conveyance device. As a result, the distance in the direction connecting the image forming apparatus and the peripheral apparatus of the relay conveyance apparatus in the horizontal state becomes long. Therefore, by retracting to the side opposite to the jam processing side, the horizontal distance between the image forming apparatus and the peripheral devices in the entire image forming system, that is, the lateral width can be shortened.
[0026]
Furthermore, in order to solve the above problems, the image forming system of the present invention is configured to retract the predetermined portion of the image forming apparatus to the space and then record the recording material of the image forming apparatus after rotating the relay conveyance device. It is possible to open the conveyance path.
[0027]
According to the above invention, after the relay conveyance device is rotated, the predetermined portion of the image forming apparatus is retracted into the space and the recording material conveyance path is opened, thereby generating in the conveyance path of the image forming apparatus. The jam can be processed particularly easily through a space with high utilization efficiency.
[0028]
Further, in the image forming system of the present invention, in order to solve the above-mentioned problem, the positioning means connects the image forming apparatus and the peripheral device on the opposite side to the operation side of the image forming system with respect to the space. 1 positioning member and the 2nd positioning member which connects the said image forming apparatus and the said peripheral device under the said space, It is characterized by the above-mentioned.
[0029]
According to the above invention, the positioning means is constituted by the first positioning member that exists on the opposite side to the operation side of the image forming system with respect to the space, and the second positioning member that exists below the space. Therefore, the positioning means can be completely absent from the space on the operation side of the image forming system. Therefore, the user can easily perform jam processing from the operation side of the image forming system through the space.
[0030]
Furthermore, in order to solve the above-described problems, the image forming system of the present invention is characterized in that a predetermined device that performs processing related to the system can be installed as the second positioning member.
[0031]
According to said invention, the said process can be performed with a 2nd positioning member by installing the predetermined | prescribed apparatus which performs the process regarding a system as a 2nd positioning member. Therefore, it is not necessary to install the predetermined apparatus in a separately provided space, and the size of the entire image forming system can be reduced.
[0032]
Further, in order to solve the above problems, the image forming system of the present invention is characterized in that the predetermined device is a recording material supply device that stores a recording material to be supplied to the image forming device.
[0033]
According to the above invention, since the predetermined device used as the second positioning member is the recording material supply device, the total capacity of the recording material supplied to the image forming apparatus can be increased. Also, if the space occupied by the second positioning member is large, the recording material supply device can be a device that accommodates a large amount of recording material. In this case, the user frequently replenishes the recording material. There is no need to do such work.
[0034]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the image forming system of the present invention will be described as follows with reference to FIGS.
[0035]
FIG. 1 shows a configuration of an image forming system 51 according to the present embodiment. The image forming system 51 includes an image forming apparatus 52, a post-processing apparatus 53, a positioning member 54, and a relay conveying apparatus 55.
[0036]
The image forming apparatus 52 is an apparatus for forming an image on a sheet (recording material) as a copying machine or a printer, and includes an automatic document conveying device 52a, an image reading device 52b, an image recording device 52c, a recording material refeeding and conveying device 52d, and a recording device. A material supply device 52e is provided.
[0037]
The automatic document feeder 52a is a device for reading a document by the image reading device 52b while conveying the document. The image reading device 52b is a document conveyed by the automatic document feeder 52a or a document placed on a document table. Read. The image recording device 52c records the image data of the original read by the image reading device 52b as an image on the recording material supplied and conveyed from the internal recording material supply unit or the recording material supply device 52e. The recording material supply device 52e has a multi-stage recording material supply tray prepared as an optional device. The recording material resupply / conveyance device 52d is a device for reconveying a sheet on which an image is recorded on one side by the image recording device 52c to the image recording device 52c when an image is also recorded on the back side.
[0038]
The positioning member (positioning means) 54 is a member that positions the image forming apparatus 52 and the post-processing apparatus 53, and is fixed so that the image forming apparatus 52 and the post-processing apparatus 53 do not move during the operation of the image forming system 51. And a recording material supply device 54b. The connecting member (first positioning member) 54 a is a member that connects the image forming apparatus 52 and the post-processing apparatus 53 on the side opposite to the operation side of the image forming system 51, that is, on the back side of the image forming system 51. The recording material supply device (second positioning member) 54b is a device that accommodates a large amount of sheets, and supplies the sheets to the image recording device 52c. The recording material supply device 54b connects the image forming device 52 and the post-processing device 53, and is a member that should be referred to as a lower connection member with respect to the upper connection member 54a. The relay conveyance device 55 connects the image forming apparatus 52 positioned by the positioning member 54 and the post-processing device 53, and relays the conveyance of the sheet from the image forming device 52 to the post-processing device 53. The post-processing device (peripheral device) 53 is a device assembled via the positioning member 54 and the relay conveyance device 55 so as to be juxtaposed to the image forming device 52, and the sheet on which image formation has been performed from the image forming device 52. Is conveyed via the relay conveying device 55, the sheet is subjected to predetermined post-processing such as punching, stapling, and sorting.
[0039]
Next, each part of the image forming system 51 will be described in detail.
[0040]
The image reading device 52b includes and is supported by an image reading device support base 57 provided on the image recording device 52c and the recording material refeeding and conveying device 52d. An image of a document set on a transparent document table (not shown) is exposed and scanned to form an image on a photoelectric conversion element, and the document image is converted into an electrical signal and output as image data. The image reading device 52b simultaneously scans and reads a document image from below and above the document in the process of conveying the document along the automatic document transport path by the automatic document transport device 52a.
[0041]
From below the document surface, a moving scanning optical system that normally scans and moves the lower surface of the document table is configured to read a document image by guiding an optical image to a photoelectric conversion element CCD while stopped at a predetermined position on the document transport path. It has become. When both sides of the document are read simultaneously, the light source that exposes the document to the upper surface of the document surface, the optical lens that guides the optical image to the photoelectric conversion element, the photoelectric conversion element that converts the optical image into image data, and the like are integrated. A close contact image sensor (CIS) configured as described above is mounted on the automatic document feeder 52a so that both sides of the document are simultaneously read.
[0042]
With the above configuration, when the duplex original reading mode is set, the originals set on the supply unit of the automatic original conveying device 52a are sequentially conveyed, and the images are read almost simultaneously.
[0043]
The image reading device 52b has an automatic reading mode and a manual reading mode. The automatic reading mode is a method in which a sheet document is automatically supplied by an automatic document feeder 52a and sequentially exposed and scanned one by one to read a document image. In the manual reading mode, a book document or a sheet document that cannot be automatically supplied by the automatic document feeder 52a is set by a manual operation and a document image is read.
[0044]
Next, FIG. 2 shows a detailed cross-sectional configuration of the image recording device 52c. The image recording device 52c records and outputs an image read by the image reading device 52b and data from a device (for example, an image processing device such as a personal computer) externally connected to the image recording device 52c. .
[0045]
In the image recording device 52c, process units responsible for each function of the image forming process are arranged around the photosensitive drum 3, and an image forming unit is formed by these. Around the photosensitive drum 3, a charging unit 5, an optical scanning unit 11, a developing unit 2, a transfer unit 6, a cleaning unit 4, a static elimination lamp 12, and the like are sequentially arranged.
[0046]
The charging unit 5 charges the surface of the photosensitive drum 3 uniformly. The optical scanning unit 11 scans an optical image on the uniformly charged photosensitive drum 3 to write an electrostatic latent image. The developing unit 2 visualizes the electrostatic latent image written by the optical scanning unit 11 with the developer supplied from the developer supply container 7. The transfer means 6 transfers an image visualized on the photosensitive drum 3 onto a recording material. The cleaning unit 4 removes the developer remaining on the photosensitive drum 3 and enables a new image to be recorded on the photosensitive drum 3. The static elimination lamp 12 removes electric charges on the surface of the photosensitive drum 3.
[0047]
Below the image recording device 52c, the supply tray 10 provided in the main body of the image recording device 52c is disposed.
[0048]
The supply tray 10 is a recording material storage tray that stores sheets. The sheets stored in the supply tray 10 are separated one by one by a pickup roller 16 and the like, conveyed to the registration roller 14, and timed with the image formed on the photosensitive drum 3 by the registration roller 14 to measure the transfer means. 6 and the photosensitive drum 3 are sequentially supplied. The image recorded and reproduced on the photosensitive drum 3 is transferred onto the sheet. The supply of the sheet to the supply tray 10 is performed by pulling out the supply tray 10 to the front side (operation side) of the image recording device 52c.
[0049]
In addition, a sheet receiving port 61 is provided on the lower surface of the image recording device 52c for receiving sheets sent from the recording material supply device 52e and sequentially supplying the sheets toward the image forming unit. An extended recording material for receiving sheets sent from the recording material supply device 54b via the recording material resupplying and conveying device 52d and sequentially supplying the sheets toward the image forming unit is provided below the side surface of the image recording device 52c. A receiving part 62 is provided.
[0050]
A fixing device 8 is disposed in the upper part of the image recording device 52c. The fixing device 8 sequentially receives sheets on which images have been transferred, and uses a fixing roller 81 and a pressure roller 82 to fix the developed image transferred onto the sheet by heat and pressure. Thereby, an image is recorded on the sheet.
[0051]
The sheet on which the image is recorded is further conveyed upward by the conveyance roller 25 and passes through the switching gate 9. When the sheet discharge tray is set to the stacking tray 15 provided in the exterior of the image recording device 52c, the sheet is discharged to the stacking tray 15 by the reverse roller 26. On the other hand, when double-sided image formation or post-processing is designated, the sheet is discharged toward the stacking tray 15 by the reverse roller 26 once. In this case, the sheet is not completely discharged, and the reversing roller 26 is reversed while holding the sheet. Then, the sheet is reversely conveyed in the reverse direction, that is, in the direction in which the recording material refeeding and conveying device 52d and the post-processing device 53 are selectively mounted for double-sided image formation and post-processing.
[0052]
At this time, the switching gate 9 is switched from the solid line state of FIG. 2 to the broken line state. When double-sided image formation is performed, the recording material refeeding and conveying device 52d supplies the reversely conveyed sheet to the image recording device 52c again. When post-processing is performed by the post-processing device 53, the recording material re-conveying device 52 d switches the internal switching gate and conveys the sheet to the post-processing device 53 via the relay conveying device 55.
[0053]
In the upper and lower space portions of the optical scanning unit 11, a control unit 110 that houses a circuit board that controls the image forming process, an interface board that receives image data from an external device, and the like. A power supply device 111 for supplying power to the image forming process unit is disposed.
[0054]
As shown in FIG. 1, the recording material supply device 52 e includes recording material supply units 71, 72, and 73 and a recording material discharge unit 74. The recording material supply units 71 to 73 contain sheets. The recording material supply device 52e selectively operates the recording material supply units 71 to 73 that store the sheet selected by the user, and the sheets stored in the recording material supply units 71 to 73 are used as the recording material. This is separated and supplied toward the discharge unit 74. The recording material supply device 52e is also a unit having a desk function for placing the image recording device 52c, and is detachable from the image recording device 52c.
[0055]
When a sheet is supplied by the recording material supply device 52e, the sheet is delivered to the sheet receiving port 61 provided at the lower portion of the image recording device 52c, and then reaches the image forming unit. When a sheet is supplied to the recording material supply units 71 to 73, or when a sheet stored in the recording material supply units 71 to 73 is replaced, the recording material is stored in the front side direction of the main body of the recording material supply device 52e. The parts 71 to 73 are pulled out.
[0056]
Here, the recording material supply device 52e includes three recording material supply units 71 to 73, but may include at least one or more recording material supply units and a recording material discharge unit. .
[0057]
Next, as shown in FIG. 3, the upper connection member 54 a of the positioning member 54 has a back plate or a back stay for connecting the image forming apparatus 52 and the post-processing apparatus 53 on the side opposite to the operation side of the image forming system 51. It is. One end of the connecting member upper 54 a in the horizontal direction is fixed to the image forming apparatus 52, and the other end is fixed to the post-processing apparatus 53. The upper connection member 54a is provided on the back side of the image forming system 51 above the recording material supply device 54b, but is not provided on the operation side, that is, the front side of the image forming system 51.
[0058]
Further, the recording material supply device 54b of the positioning member 54 is provided so as to occupy the lower side of the space between the image forming apparatus 52 and the post-processing device 53 as shown in FIG. It has. The recording material supply unit 75 stores sheets. When performing a sheet supply operation, the recording material supply unit 75 discharges the recording material provided in the upper right side of the recording material supply device 54b. It is supplied separately toward the section 76. The recording material supply device 54b can store a large amount of sheets larger than the amount of sheets stored in the recording material supply units 71 to 73 of the image recording device 52c. The height of the lower surface of the recording material supply device 54b is the same as that of the lower surface of the image forming device 52 and the lower surface of the post-processing device 53, but the height of the upper surface is above the recording material supply device 54b during jam processing. It is limited to a height at which a predetermined unit can be pulled out from the forming device 52 toward the post-processing device 53 side.
[0059]
When the sheet is supplied by the recording material supply device 54b, the sheet is transferred to the extended recording material receiving portion 62 (FIG. 2) provided at the lower left side of the image recording device 52c, and then to the image forming portion. It reaches.
[0060]
The recording material supply device 54b functions as the second positioning member and the connecting member as described above, and determines the position where the image forming device 52 and the post-processing device 53 are arranged. The recording material supply device 54b is fixed to the image forming device 52 with the surface facing the image forming device 52 side, and is fixed to the post processing device 53 with the surface facing the post processing device 53 side. 52 and the post-processing device 53 are connected. Under such a connecting member, a structure in which a lower front connecting member provided on the front side of the image forming system 51 and a rear connecting member provided on the rear side are separately provided, or a structure in which these are integrated. Or a structure comprising a front connecting member, a rear connecting member, and a stay for connecting them.
[0061]
Due to the connection using the above-described connection member upper 54a and the recording material supply device 54b, the positioning member 54 is a space for jamming processing of the recording material performed between the image forming apparatus 52 and the post-processing apparatus 53. Is positioned so as to be separated by a horizontal distance L (FIG. 1) that can be secured, that is, separated by a distance L that can be pulled out until the predetermined unit can be jammed.
[0062]
Further, the connecting member upper portion 54a and the connecting member lower portion may be integrated, or may be configured separately. In the case of separate configurations, a predetermined device that performs processing related to the system can be used under the connecting member, like the recording material supply device 54b in the present embodiment.
[0063]
As shown in FIG. 1, the relay conveyance device 55 is a horizontally provided flat plate device that connects the vicinity of the uppermost portion of the recording material refeeding conveyance device 52 d and the vicinity of the uppermost portion of the post-processing device 53. In this connected state, the relay conveyance device 55 receives the sheet on which image formation has been completed by the image recording device 52 c from the recording material refeed conveyance device 52 d and conveys the sheet to the post-processing device 53. Further, the relay conveyance device 55 is supported so as to be rotatable around a rotation fulcrum 56 provided on a surface of the post-processing device 53 on the image forming device 52 side or on the connecting member 54a. . The rotation fulcrum 56 is located on the front side of the image forming system 51 at a position separated from the connection position of the relay conveyance device 55 with the recording material refeeding conveyance device 52d by the horizontal distance L ′ (FIG. 1) toward the post-processing device 53. And along the direction connecting the back side. When the connection between the relay conveyance device 55 and the recording material re-feed conveyance device 52 d is released and the conveyance path is disconnected from the image forming device 52, the connection release portion is directed vertically downward around the rotation fulcrum 56. It can be rotated 90 degrees. L ′ <L, and the flat plate surface of the relay transfer device 55 after the rotation is substantially along the side surface of the post-processing device 53.
[0064]
Further, the relay conveying device 55 is provided at a position separated from the upper surface of the recording material supply device 54b by a distance H (FIG. 1), and the jam handling space in which the distance L is set by the positioning member 54 is relayed and conveyed. The above connection is performed so as to leave the device 55 occupied. That is, a jam processing space can be formed between the image forming apparatus 52 and the post-processing apparatus 53 even if the space corresponding to the volume of the relay conveyance apparatus 55 is excluded. Therefore, even if the space formed when the relay conveyance device 55 performs the above connection is not sufficient for jam processing as it is, the relay conveyance device 55 is placed between the image forming device 52 and the post-processing device 53. If it can be moved appropriately, a space for jam processing can be formed by such movement. Further, H> L is set so that the above-described rotation is possible. As described above, the image forming system 51 is surrounded by the image forming apparatus 52, the post-processing apparatus 53, the recording material supply apparatus 54b, and the relay conveying apparatus 55, and the opening size is H × L as shown in FIG. A space is formed.
[0065]
The post-processing device 53 is arranged and assembled to the image forming device 52 so as to be positioned on the left side of the image forming system 51 in the drawing. After the punched hole processing, stapling, and sorting are performed on the conveyed sheet. Process. Further, the post-processing device 53 includes a receiving and conveying unit 53a, a first recording material discharging unit 53b, and a second recording material discharging unit 53c. The reception conveyance unit 53a is connected to the relay conveyance device 55, receives a sheet conveyed by the relay conveyance device 55, and conveys the sheet to a portion where the post-processing is performed. The first recording material discharging unit 53b is a discharging unit that discharges the sheet received by the receiving and conveying unit 53a to the outside when the sheet is not subjected to post-processing. The second recording material discharge unit 53c is a discharge unit that discharges the post-processed sheet to the outside. In the post-processing device 53, the user selects whether the sheet on which the image is formed is discharged from the first recording material discharge portion 53b or the second recording material discharge portion 53c. Yes.
[0066]
Although not shown here, the post-processing device 53 is equipped with a post-processing unit having a function of performing a stapling process on a predetermined number of sheets, or B4, A3, and other sheets are folded. Post-processing apparatus equipped with post-processing means having a function, post-processing apparatus equipped with post-processing means having a function of drilling holes for filing, or recording materials of several to several tens of bins for sorting and sorting There are post-processing devices equipped with post-processing means having a function of having a discharge section, and any post-processing device can be mounted.
[0067]
The above is the details about each part of the image forming system 51. As described above, a space surrounded by the image forming apparatus 52, the post-processing apparatus 53, the recording material supply apparatus 54b, and the relay conveying apparatus 55 is secured in advance. The horizontal distance L of this space is a distance corresponding to a space for performing jam processing between the image forming apparatus 52 and the post-processing apparatus 53. Therefore, when the sheet stays in the recording material conveyance system of the image forming apparatus 52 or the post-processing apparatus 53 and a jam occurs, and the jam processing is performed between the image forming apparatus 52 and the post-processing apparatus 53, the above space is used. Therefore, the staying sheet can be easily taken out. Further, since this space is formed in the middle of the horizontal width (horizontal width) of the image forming system 51, a load is placed as in the conventional case, or one of the devices placed in the vicinity of the image forming system 51. The part rarely enters. This eliminates interference with surrounding objects of the image forming system 51 during jam processing, so that it is not necessary to remove or move the post-processing device 53 to form a jam processing space. The external shape of the image forming system 51 does not change from the normal external shape during jam processing.
[0068]
As a result, in the image forming system 51, when jam processing is performed between the image forming apparatus 52 and the post-processing apparatus 53, a great work accompanying opening between the image forming apparatus 52 and the post-processing apparatus 53 is performed. The image forming system 51 can be easily restored.
[0069]
Here, an example of an operation at the time of jam processing will be described with reference to FIGS. Assume that a jam occurs in the image forming apparatus 52. First, the fact that a jam has occurred is displayed on the operation unit (not shown) of the image forming apparatus 52. Therefore, the user performs an operation of taking out the staying sheet using the space described above according to the displayed guidance. In the image forming system 51 shown in FIG. 3, the user releases the connection of the relay transport device 55 with the image forming device 52 and rotates the relay transport device 55 from P to Q in the direction of the arrow. Then, as shown in FIG. 4, the relay conveyance device 55 has a flat plate surface along the side surface of the post-processing device 53. The width of the jam processing space is shorter than the distance L by the thickness of the relay transport device 55. Then, a predetermined unit 52u in the image forming apparatus 52 is pulled out in this space in the direction of arrow E, and the conveyance path in the image forming apparatus 52 is opened. In this state, the user removes the jammed sheet.
[0070]
As described above, during the jam processing, the connection between the image forming apparatus 52 and the post-processing apparatus 53 by the relay conveyance device 55 is released, and the relay conveyance device 55 is rotated 90 degrees so that the connection release portion faces vertically downward. Thus, the relay transfer device 55 is in a state of being retracted from the upper limit of the space. Since the relay conveyance device 55 is flat, it is avoided that the relay conveyance device 55 after evacuation narrows the space so as to be an obstacle to the jam processing even if the evacuation is performed by turning 90 degrees. be able to. Therefore, it does not involve a difficult work like when the post-processing device 53 is removed or moved as in the prior art. In this embodiment, an example in which the relay conveyance device 55 rotates from the image forming device 52 side to the post-processing device 53 side is shown. However, the relay conveying device 55 rotates from the post-processing device 53 side to the image forming device 52 side. The post-processing device 53 may be configured such that a door can be opened or a predetermined unit can be pulled out for jam processing.
[0071]
Thus, since the relay conveyance device 55 is retracted from above the space at the time of jam processing, the work can be started from above the space, and the use efficiency of the space can be increased accordingly.
[0072]
Further, in the image forming system 51, the relay conveyance device 55 may be provided so as to rotate toward the side opposite to the operation side of the image forming system 51, that is, from the front side to the back side of the system. An example of an operation during jam processing in this case will be described with reference to FIGS.
[0073]
Assume that a jam occurs in the image forming apparatus 52. In the image forming system 51 shown in FIG. 5, the user releases the connection of the relay transport device 55 with the image forming device 52 and rotates the relay transport device 55 from the direction S of the arrow toward T. This direction is orthogonal to the direction from P to Q in FIG. Then, as illustrated in FIG. 6, the relay conveyance device 55 has a flat plate surface along the surface of the upper connection member 54 a (the back surface of the image forming system 51). The width of the jam processing space is the same as the distance L before the rotation. Then, a predetermined unit 52u in the image forming apparatus 52 is pulled out in this space in the direction of arrow E, and the conveyance path in the image forming apparatus 52 is opened. In this state, the user removes the jammed sheet.
[0074]
It is the same as in the previous example that the relay conveyance device 55 can be retracted from above the space during the jam processing, so that the work can be started from above the space. Further, the relay conveyance device 55 is retracted to the side opposite to the side where the user of the image forming system 51 performs the normal jam processing, and the use efficiency of the space can be further increased.
[0075]
Further, when the relay transport device 55 is rotated 90 degrees toward the image forming apparatus 52 or the post-processing device 53 as described above, the space is narrowed by the thickness of the retracted relay transport device 55. Let the horizontal distance connecting the image forming apparatus 55 and the post-processing apparatus 53 in the space after narrowing be equal to the horizontal distance when the relay conveying apparatus 55 is rotated to the side opposite to the operation side of the image forming system 51. Then, the distance L between the image forming apparatus 55 and the post-processing apparatus 53 is increased by the thickness of the relay conveyance apparatus 55. As a result, the distance in the direction connecting the image forming apparatus 52 and the post-processing apparatus 53 of the relay transfer apparatus 55 in the horizontal state is increased. Accordingly, the horizontal width of the entire image forming system 51, that is, the horizontal width can be shortened by retracting to the side opposite to the jam processing side.
[0076]
In the above two examples, after the relay conveying device 55 is rotated, the predetermined unit (predetermined portion) 52u of the image forming apparatus 52 is retracted into the space to open the sheet conveying path of the image forming apparatus 52. Is possible. Accordingly, it is possible to particularly easily handle a jam occurring in the conveyance path of the image forming apparatus 52 through a space with high utilization efficiency.
[0077]
Further, in the image forming system 51, the positioning member 54 includes a connecting member upper 54a that is on the opposite side to the operation side of the image forming system 51 with respect to the space, and a recording material supply device 54b that exists below the space. Therefore, the positioning member 54 is not present at all on the operation side of the image forming system 51 with respect to the space. Therefore, the user can easily perform jam processing from the operation side of the image forming system 51 through the space.
[0078]
In the image forming system 51, a recording material supply device 54b, which is a predetermined device that performs processing related to the system, can be installed as the second positioning member. Accordingly, the second positioning member can perform a process related to a system called a sheet supply process from the apparatus accommodating a large amount of sheets to the image forming apparatus 52. Accordingly, it is not necessary to install the recording material supply device 54b in a separately provided space, so that the size of the entire image forming system 51 can be reduced. Further, in this case, the total capacity of sheets supplied to the image forming apparatus 52 can be increased. In addition, the present embodiment describes a case where the space occupied by the second positioning member is large enough to install a device that accommodates a large amount of sheets. In such a case, the user However, there is no need to frequently replenish sheets.
[0079]
The image forming system 1 has been described above.
[0080]
The image forming system 1 may have other configurations. For example, the image forming system 1 may be configured such that the predetermined unit 52u of the image forming apparatus 52 is pulled out to the space without rotating the relay conveyance device 55, or the space is used for jam processing. Alternatively, the door can be opened from the image forming apparatus 52 side. Further, when a jam occurs in the relay conveying device 55, as shown by an arrow R in FIG. 5, the upper portion of the relay conveying device 55 can be opened upward to take out the staying sheet. .
[0081]
  In the image forming system 1, the post-processing device 53 is described as an example of the peripheral device. However, the peripheral device is not limited to this, and is assembled so as to be juxtaposed with the image forming device 52. Any sheet may be used as long as the sheet subjected to the above process is conveyed and a predetermined process is performed on the sheet. Further, the relay transfer device 55 may be provided as a part of such a peripheral device. Furthermore, the image forming apparatus 52 is provided with an automatic document feeder 52a, an image reading apparatus 52b, and the like. However, these are not necessarily provided, and a portion that forms an image like the image recording apparatus 52c. And a sheet conveyance path are provided, and the sheet conveyance path may be configured at least by an apparatus that may perform jam processing.
  The image forming system is assembled with an image forming apparatus that forms an image on a recording material and the image forming apparatus that is mounted side by side, and the recording material on which the image is formed is conveyed from the image forming apparatus. In an image forming system including a peripheral device that performs predetermined processing on the recording material, positioning means that positions the image forming device and the peripheral device, and the recording material from the image forming device to the peripheral device. A relay conveyance device for relaying the conveyance, and the positioning means is provided in a space for jamming of the recording material performed by the image forming device and the peripheral device between the image forming device and the peripheral device. Positioning is performed so as to be separated by a corresponding distance, and the image forming apparatus and the peripheral device are arranged so that the relay conveyance device leaves the space except for the occupation of the relay conveyance device. Preparative may be configured that connects the.
[0082]
【The invention's effect】
  As described above, the image forming system of the present invention includes a positioning unit that positions the image forming apparatus and the peripheral device, and a relay conveyance that relays the conveyance of the recording material from the image forming apparatus to the peripheral device. And the positioning means is arranged so that the image forming apparatus and the peripheral device are separated from each other by a distance corresponding to a space for jamming the recording material performed between the image forming apparatus and the peripheral device. To position the lineA first positioning member that connects the image forming apparatus and the peripheral device on the side opposite to the operation side of the image forming system with respect to the space; and the image forming apparatus and the lower part below the space. A recording material that is connected to a peripheral device and includes a second positioning member that determines a relative arrangement position of the image forming apparatus and the peripheral device, and the second positioning member is supplied to the image forming apparatus. Recording material supply deviceThe relay conveying device is a flat plate-like device provided horizontally so as to define the upper limit of the space, and the image forming apparatus and the above-described device are left so as to leave the space except for the occupation of the relay conveying device. The peripheral device is connected, and the connection between the image forming device and the peripheral device is released so that the connection release portion can be rotated so as to face vertically downward. The relay conveyance device is rotated downward so that the surface is positioned along the side surface of the peripheral device or the surface opposite to the operation side of the image forming system. After rotating the conveying device, it is possible to open the recording material conveying path of the image forming apparatus by retracting the side wall of the image forming apparatus accommodating the conveying path inside the space. This is the configuration.
[0083]
Therefore, it is possible to easily take out the recording material staying through the space. This eliminates the need to remove or move the peripheral device to form the jam handling space.
[0084]
As a result, in the image forming system in which the peripheral device is assembled to the image forming apparatus, when the jam processing is performed between the image forming apparatus and the peripheral device, a serious problem occurs due to the opening between the image forming apparatus and the peripheral device. There is an effect that it is possible to provide an image forming system that does not require work.
[0085]
Furthermore, in the image forming system of the present invention, as described above, the relay transfer device is a flat plate device provided horizontally so as to define the upper limit of the space, and the image forming device and the peripheral device are connected to each other. It is the structure which can rotate so that a connection may be cancelled | released and a connection cancellation | release part may face a vertically downward direction.
[0086]
Therefore, since the relay conveyance device is retracted from above the space during the jam processing, the work can be started from above the space, and the space utilization efficiency can be increased accordingly.
[0087]
Furthermore, in the image forming system of the present invention, as described above, the relay conveyance device is configured to rotate toward the side opposite to the operation side of the image forming system.
[0088]
Therefore, the rotated relay conveyance device is retracted to the side opposite to the normal jam processing side, and the space utilization efficiency can be further increased. In addition, the horizontal distance between the image forming apparatus and the peripheral apparatus in the entire image forming system, that is, the lateral width can be shortened.
[0089]
Furthermore, in the image forming system of the present invention, as described above, after the relay transport device is rotated, a predetermined portion of the image forming device is retracted into the space to transport the recording material of the image forming device. It is a configuration that can be opened.
[0090]
Therefore, it is possible to particularly easily handle a jam occurring in the conveyance path of the image forming apparatus through a space with high utilization efficiency.
[0091]
Furthermore, in the image forming system of the present invention, as described above, the positioning means connects the image forming apparatus and the peripheral device on the opposite side of the image forming system with respect to the space. And a second positioning member that connects the image forming apparatus and the peripheral device below the space.
[0092]
Therefore, there can be no positioning means on the operation side of the image forming system with respect to the space. Therefore, the user can easily perform the jam processing from the operation side of the image forming system through the space.
[0093]
Further, as described above, the image forming system of the present invention has a configuration in which a predetermined device that performs processing related to the system can be installed as the second positioning member.
[0094]
Therefore, it is not necessary to install the predetermined device in a separately provided space, and the size of the entire image forming system can be reduced.
[0095]
Furthermore, in the image forming system of the present invention, as described above, the predetermined apparatus is a recording material supply apparatus that stores a recording material supplied to the image forming apparatus.
[0096]
Therefore, there is an effect that the total capacity of the recording material supplied to the image forming apparatus can be increased. Also, if the space occupied by the second positioning member is large, the recording material supply device can be a device that accommodates a large amount of recording material. In this case, the user frequently replenishes the recording material. There is an effect that it is not necessary to perform such work.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view illustrating a configuration of an image forming system according to an embodiment of the present invention.
2 is a cross-sectional view showing a configuration of an image recording apparatus of the image forming system in FIG. 1. FIG.
3 is a perspective external view for explaining an operation on a relay conveyance device during jam processing in the image forming system of FIG. 1; FIG.
4 is a perspective external view for explaining an operation performed next to the state of FIG. 3; FIG.
FIG. 5 is a perspective external view for explaining an operation on a relay conveyance device during jam processing in a modification of the image forming system in FIG.
6 is a perspective external view illustrating an operation performed next to the state of FIG.
[Explanation of symbols]
51 Image forming system
52 Image forming apparatus
52u Predetermined unit (predetermined part)
53 Post-processing equipment (peripheral equipment)
54 Positioning member (positioning means)
54a On connecting member (first positioning member)
54b Recording material supply device (second positioning member, predetermined device)
55 Relay transfer device

Claims (1)

An image forming apparatus for forming an image on a recording material;
An image forming system including a peripheral device assembled to be juxtaposed to the image forming apparatus and transported with the recording material on which image formation has been performed from the image forming apparatus and performing predetermined processing on the recording material.
A positioning unit that positions the image forming apparatus and the peripheral device; and a relay conveyance device that relays conveyance of the recording material from the image forming apparatus to the peripheral device.
It said positioning means, and the image forming apparatus and the peripheral device, intends row positioned away by the distance corresponding to the space for jam processing of the recording material carried out between the image forming apparatus and the peripheral device And
A first positioning member that connects the image forming apparatus and the peripheral device on the side opposite to the operation side of the image forming system with respect to the space, and the image forming apparatus and the peripheral device are connected below the space. And a second positioning member that determines a relative arrangement position of the image forming apparatus and the peripheral device, and the second positioning member supplies a recording material for storing a recording material to be supplied to the image forming apparatus. Device,
The relay conveyance device is a flat plate-like device provided horizontally so as to define the upper limit of the space, and the image forming apparatus and the above-described space are left so as to leave the space except for the occupation of the relay conveyance device. The peripheral device is connected, and the connection between the image forming device and the peripheral device is released so that the connection release portion can be turned vertically downward.
The relay transport device so that the flat plate surface of the plate-shaped relay transport device is positioned along the side surface of the peripheral device, or is positioned along the surface opposite to the operation side of the image forming system. Pivots downward,
After the relay conveying device is rotated, the recording material conveying path of the image forming apparatus can be opened by retracting the side wall of the image forming apparatus accommodating the conveying path inside the space. An image forming system.

Images