JP3802005B2 - Image recording system and relay unit - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image recording system having excellent expandability, such as a copying machine and a printer.
[0002]
[Prior art]
Conventionally, depending on the user's request and the environment in which it is used, peripheral devices such as a paper feed unit that increases the number of paper feed stages and a post-processing device having a sort function and a staple function are arbitrarily selected in the image recording apparatus body. Thus, it is provided as an image recording system that can be combined and meet the demand.
[0003]
For example, Japanese Patent Publication No. 6-100850 discloses a configuration in which the system is upgraded to full equipment as shown in FIG. 22B based on the copying machine main body 101 shown in FIG.
[0004]
(A) shows a basic form in which the pressure plate 103 is mounted on the copying machine main body 101 and the sheet discharge tray 104 of the sheet feeding path is mounted. Reference numeral 102a denotes a paper feed tray containing a small size recording material, 102b denotes a paper feed tray containing a large size recording material, and 105 denotes an openable / closable manual feed tray.
[0005]
(B), an automatic document feeder 110 is mounted on the copying machine main body 101 in place of the pressure plate 103, and a sorter 111 is mounted in place of the paper discharge tray 104. Further, the copying machine main body 101 is placed on a table 113 via a double-sided processing device 112, and a 250-sheet tray 102c is also mounted on the double-sided processing device 112. The table 113 is provided with a paper bank 114, and a 1000-sheet tray 115 and a 250-sheet tray 102d are mounted on the paper bank 114. In this configuration, double-sided recording and collation of a double-sided original can be automatically performed using large-size and small-size recording materials.
[0006]
[Problems to be solved by the invention]
However, as can be seen from FIG. 22A, in the configuration of the above publication, since the paper feed trays 102a and 102b and the paper discharge tray 104 have already protruded greatly from the copying machine main body 101 in the basic configuration, a large installation width is required. Need. Therefore, when the peripheral devices are installed in combination, the installation width as a system becomes very large as shown in FIG.
[0007]
As a result, the conventional location where the image recording system is installed becomes a limited place in the office, and the user is forced to go to the installation site one by one when using the system, which results in poor workability. I did.
[0008]
Recently, in the copier market, digitalization has progressed, and in the office environment where various terminal devices are network-connected, when image output from various terminal devices is instructed, the output of the image at hand. Therefore, there is an increasing demand to install an image recording apparatus in a familiar place.
[0009]
The present invention has a configuration in which an image recording system can be combined as a system in accordance with a user's request and office environment, and the installation area of the combined system can be minimized and An object of the present invention is to provide an image recording system capable of improving the degree of freedom of the installation location of the computer.
[0010]
[Means for Solving the Problems]
In order to solve the above problems, an image recording system according to the present invention records an image on a recording material, and is discharged from the image recording apparatus. Note A first receiving portion for receiving the recorded recording material; A double-sided conveying device for supplying the recorded recording material discharged from the image recording device to the image recording device again with the front and back reversed; Towards the first receiving part Recorded A conveyance path for conveying the recording material, and the above Double-sided transfer device What Recorded Also used as the first switchback transport path for introducing the recording material 1 carrying Route and above 1 carrying A curvature correction means for correcting the curvature of the recording material provided in the feeding path; , the above Double-sided transfer device What Recorded recording material Second switchback transport path to be introduced Second transport path used as And above 1 carrying Route In Above curvature correction means than Upstream A conveyance path of a recorded recording material provided and discharged from the image recording apparatus, And a conveyance path switching means for switching to the first or second conveyance path.
[0011]
According to the above configuration, the curvature of the recording material discharged from the image recording apparatus to the first receiving portion is corrected by the curvature correcting means when passing through the first receiving portion conveyance path. The The recording material discharged to the second receiving portion disposed on the opposite side of the first receiving portion with respect to the image recording apparatus is also the first switchback transport path during the switchback transport. Since it passes through the first receiving portion conveyance path, the curvature is similarly corrected by the curvature correcting means.
[0012]
Accordingly, the recording material conveyed from the image recording apparatus toward the second receiving portion by the single curvature correcting means is also conveyed from the image recording apparatus toward the second receiving portion. Also, the curvature can be corrected.
[0013]
Therefore, it is possible to provide an image recording system that can reduce the installation area of the combined system and improve the degree of freedom of the installation location in the office.
[0015]
According to said structure, the conveyance path switching means provided in the upstream of the conveyance path for 1st receiving parts is used for the conveyance path used for switchback conveyance of the recording material introduced into a 2nd receiving part. Thus, it is possible to switch to the first switchback conveyance path in which the curvature correcting means is provided or the second switchback conveyance path in which the curvature correction means is not provided. Accordingly, it is possible to select whether or not to correct the curvature of the recording material conveyed to the second receiving unit.
[0016]
Thereby, according to the bending condition of the recording material conveyed to the 2nd receiving part, selection of whether to perform curvature correction to a recording material can be arbitrarily set up.
[0017]
The relay unit of the present invention is a relay unit that is mounted on the upper surface of an image recording apparatus that discharges an image-recorded recording material to the upper surface of the apparatus main body and relays the conveyance of the image-recorded recording material to the recording material post-processing device. A first conveying path for conveying an image-recorded recording material toward the recording material post-processing apparatus side, and an image-recorded recording material is guided to the unit upper surface from an opening provided in the unit body. And a second conveyance path.
[0018]
By using the relay unit having this configuration, an image recording system to which the above-described relay unit is mounted can be easily realized.
[0019]
Therefore, it is possible to provide an image recording system that can reduce the installation area of the combined system and improve the degree of freedom of the installation location in the office.
[0020]
Furthermore, the relay unit of the present invention has the above-described configuration, wherein the first transport path transports the recording material to a peripheral device disposed on the opposite side of the recording material post-processing device with respect to the relay unit. In addition, it is also used as a switchback conveyance path, and the first conveyance path is provided with a curvature correcting means for correcting the curvature of the recording material.
[0021]
According to the above configuration, the curvature of the recording material on which the image has been recorded is corrected by the curvature correcting means when passing through the first conveyance path. In addition, the recorded recording material conveyed to the peripheral device disposed on the opposite side of the recording material post-processing device with respect to the relay unit is the first conveyance path which is also the switchback conveyance path during the switchback conveyance. In this case, the curvature is similarly corrected by the curvature correcting means.
[0022]
Thereby, the recording material post-processing device and the recorded recording material conveyed toward the peripheral device arranged on the opposite side of the recording material post-processing device with respect to the relay unit by one curvature correcting means For both, the curvature can be corrected.
[0023]
An image recording system of the present invention includes an image recording apparatus that records an image on a recording material, A double-sided conveyance device for supplying the recorded recording material discharged from the image recording device to the image recording device again with the front and back reversed, a paper discharge unit for discharging the recording material, A reverse conveying roller pair or a combination of a belt and a roller, and a first conveying path used as a switchback conveying path for introducing the recorded recording material discharged from the image recording apparatus into the double-sided conveying apparatus; A second conveyance path for conveying the recorded recording material discharged from the image recording apparatus toward the paper discharge unit, and the upstream side of the roller pair or the combination of the belt and the roller. Conveying path switching means for switching the conveying path of the recorded recording material discharged from the recording apparatus to the first or second conveying path; It is characterized by having.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments according to the present invention will be described below with reference to FIGS.
The image recording system according to the present invention has a basic image recording function, and by combining various peripheral devices engaged with the image recording apparatus capable of accommodating a general-purpose small-size recording material inside, It is characterized by the ability to configure a system according to the user's wishes.
[0025]
In other words, the power supply device of the image recording apparatus has a capability of supplying a sufficient current to each peripheral device in the maximum configuration when the system is improved, and a gear and an electric signal that can directly drive the peripheral device as necessary A connector is provided to connect peripheral devices. Some types of peripheral devices have their own motor, and such a motor is driven by an electrical signal supplied from a connector. Depending on the type of peripheral device, a configuration including a power supply device by itself is also conceivable.
[0026]
FIGS. 1A to 1I show examples in which various peripheral devices are mounted on the image recording apparatus 1. Details will be described later, and will be briefly described here.
[0027]
(A) has shown the image recording apparatus 1 single-piece | unit used as the basis of a system. The image recording apparatus 1 has a paper feed cassette (recording material supply unit) that accommodates a recording material of a small size in the main body of the apparatus 1 and is transmitted when an image processing apparatus such as a personal computer is connected. It functions as a printer that outputs incoming image information to a recording material.
[0028]
(B) is an improvement of the paper feed surface. A paper feed cassette capable of accommodating a recording material larger in size than the recording material of the paper feed cassette built in the image recording apparatus 1 below the image recording apparatus 1. Is provided, and the image recording apparatus 1 is placed on the upper surface of the paper supply unit 2A, and the paper discharge tray 3 is mounted on the left side of the image recording apparatus 1 Shows the form. In this configuration, a recording material having a size larger than that of the recording material incorporated in the image recording apparatus 1 can be used.
[0029]
(C) is a plan to further enhance the paper feed surface, and has a plurality of paper feed cassettes including a paper feed cassette capable of accommodating a large size recording material instead of the paper feed unit 2A in the system of (b). A form in which a multistage sheet feeding unit (recording material supply device) 2B is mounted is shown. In this configuration, since large-size recording materials having different sizes can be accommodated in each of the paper feed cassettes of the multi-stage paper feed unit 2B, recording materials of different sizes can be used without exchanging the recording materials and paper feed cassettes. Can do.
[0030]
(D) shows a stapling device 5 that staples and discharges the recording material in the space where the paper discharge tray 3 protrudes in the system (c), and a relay unit on the upper surface of the image recording device 1. 6 shows a form in which 6 is attached. In this configuration, the stapling process can be automatically performed on the recording material after image recording.
[0031]
(E) shows a form in which a document image reading device 7 is further mounted on the system of (d). With this configuration, it is possible to read a document image and to have a function as a copying machine.
[0032]
(F) shows a form in which a double-sided conveyance unit (double-sided conveyance device) 8 that enables double-sided conveyance of a recording material is mounted on the right side of the image recording apparatus 1 in the system of (d). Is fully equipped with the system. In this configuration, image recording can be performed on both sides of the recording material.
[0033]
(G) shows a form in which a sorter 10 for automatically performing collation and sorting is installed in place of the stapling device 5 in the system of (d). In this configuration, collation and sorting can be automatically performed. (H) is a full system of the system equipped with the sorter 10.
[0034]
(I) shows a form in which the document image reading device 7 is mounted on the system (c). This configuration can be said to be the basis of a copying machine that can handle a plurality of recording materials of different sizes.
[0035]
The mounting examples shown in FIGS. 1A to 1I are merely examples, and various combinations are possible.
[0036]
Next, the configuration of the image recording apparatus 1 and each unit attached to the image recording apparatus 1 will be described in detail with reference to FIGS.
[0037]
First, the image recording apparatus 1 will be described with reference to FIG. FIG. 2 is a cross-sectional configuration diagram of the image recording apparatus 1.
[0038]
An electrophotographic process unit 20 centered on the photosensitive drum 21 is disposed on the right side of the center of the image recording apparatus 1. Around the photosensitive drum 21, a charging roller 22 for uniformly charging the surface of the photosensitive drum 21, and an optical scanning for scanning an optical image on the uniformly charged photosensitive drum 21 to write an electrostatic latent image. A unit 23, a developing unit 24 that reproduces the electrostatic latent image written by the optical scanning unit 23 with a developer, and a transfer unit 25 that transfers an image reproduced on the photosensitive drum 21 onto a recording material are sequentially arranged. The electrophotographic process unit 20 reproduces an image on the recording material.
[0039]
Around the photosensitive drum 21, a cleaning unit 26 that enables the developer remaining on the photosensitive drum 21 after transfer to be removed and a new image to be recorded on the photosensitive drum 21, and the photosensitive member A static elimination lamp unit (not shown) for removing charges on the surface of the drum 21 is also arranged.
[0040]
A paper feed cassette 30 (indicated by a two-dot chain line in the figure) capable of accommodating a maximum A4 size recording material is disposed at the bottom of the image recording apparatus 1. The recording material accommodated in the paper feed cassette 30 is separated and fed one by one by a pickup roller 31 and a paper feed roller pair 32 provided on the upper portion of the paper feed cassette 30, and is conveyed by a transport roller pair 34. (A dashed line) 36 is supplied to the electrophotographic process unit 20.
[0041]
Immediately before the electrophotographic process unit 20, a registration roller pair 35 for controlling the supply timing of the recording material is disposed. By this registration roller pair 35, the recording material is transferred to the photosensitive drum 21 at a predetermined timing. Supplied between units 25.
[0042]
The paper feed cassette 30 is configured to be drawable with respect to the front surface (front side of the paper) of the main body of the image recording apparatus 1, and operations such as replenishing the recording material to the paper feed cassette 30 and replacing the recording material are performed. The paper cassette 30 can be pulled out.
[0043]
Further, the conveyance path 36 is branched into three under the conveyance roller pair 34 and extends to the bottom surface of the image recording apparatus 1 separately from the conveyance path 36a extending to the paper feed cassette 30 side. 36b and a conveyance path 36e extending rightward in the drawing of the image recording apparatus 1 are formed.
[0044]
Among these, the conveyance path 36 b has a conveyance roller pair 37, and the recording material fed from the above-described sheet feeding units 2 A and 2 B installed below the image recording apparatus 1 enters the conveyance path 36. It can be brought in.
[0045]
On the other hand, the conveyance path 36e allows the recording material that has been conveyed upside down by the double-sided conveyance unit 8 mounted on the right side in the drawing of the image recording apparatus 1 to be carried into the conveyance path 36. It is what.
[0046]
A fixing unit 27 is disposed above the electrophotographic process unit 20 and sequentially receives the recording material onto which the image has been transferred, and heats and fixes the developer transferred onto the recording material.
[0047]
A switching gate 39 is provided above the fixing unit 27 for switching the conveyance direction of the recording material after being conveyed in the conveyance path 36. The switching gate 39 has a conveyance path for conveying the recording material between a conveyance path 36c extending to the paper discharge unit 1a provided with the discharge roller pair 38 and a conveyance path 36d extending in the opposite direction. It is to switch.
[0048]
The switching gate 39 introduces the recording material from the conveying path 36c to the conveying path 36d when the above-described double-sided conveying unit 8 is installed in the image recording apparatus 1 and the recording material is introduced into the unit 8 to perform the reverse of the front and back. Let Therefore, the paper discharge roller pair 38 is a reversible rotating roller pair. A discharge roller pair 40 for introducing the recording material into the duplex conveying unit 8 is provided on the downstream side in the conveying direction of the conveying path 36d.
[0049]
The upper surface of the main body of the image recording apparatus 1 is formed in an inclined paper discharge portion 1a so that the recording material discharged to the outside of the apparatus 1 main body can be received by the paper discharge roller pair 38 and can be placed with the front end aligned. Has been. The recording material guided to the conveyance path 36c by the guide of the switching gate 39 and discharged to the outside of the main body of the apparatus 1 by the discharge roller pair 38 is held on the discharge portion 1a.
[0050]
An upper and lower space portion of the optical scanning unit 23 is a substrate portion 41 including a plurality of substrates. The substrate unit 41 includes a process control unit (PCU) substrate that controls the electrophotographic process unit 20, an interface substrate that receives image data from the outside of the apparatus, and predetermined image processing for image data received from the interface substrate. In addition, an image control unit (ICU) substrate to be scanned and recorded as an image by the optical scanning unit 23, and various power supply units for supplying power to these various substrates and units are arranged.
[0051]
In the above description, the single sheet feeding cassette 30 is provided in the main body of the image recording apparatus 1. However, a configuration in which a plurality of sheet feeding cassettes 30 are installed may be employed.
[0052]
Next, the sheet feeding unit 2A will be described with reference to FIG. FIG. 3 is a cross-sectional configuration diagram of the paper feed unit 2A.
[0053]
The paper feeding unit 2A can accommodate a recording material having a size larger than the recording material accommodated in the paper feeding cassette 30 incorporated in the image recording apparatus 1 shown in FIG. A single sheet cassette 50 is provided.
[0054]
The paper feed cassette 50 includes a pickup roller 31 and a paper feed roller pair 32, and the recording material in the paper feed paper cassette 50 is separated one by one by the pickup roller 31 and the paper feed roller pair 32. The paper is fed and supplied into the conveyance path 53.
[0055]
The conveyance path 53 extends to the upper surface of the paper feed unit 2A, and reaches the conveyance path 36b of the image recording apparatus 1 in a state where the image recording apparatus 1 is mounted and coupled to the upper surface of the unit 2A main body. is there. As a result, the recording material in the paper feed cassette 50 can be introduced into the electrophotographic process section 20 of the image recording apparatus 1.
[0056]
Further, the paper feed cassette 50 is configured to be drawable with respect to the front surface (front side of the paper) of the unit 2A main body, and operations such as replenishment of the recording material into the paper feed cassette 50 and replacement of the recording material are performed. This can be done by pulling out the paper feed cassette 50.
[0057]
Next, two configurations of the multi-stage sheet feeding unit 2B will be described with reference to FIGS. (A) (b) is a cross-sectional block diagram.
[0058]
First, a paper feed unit 2B shown in FIG. 3A is a type in which recording materials of various types can be easily used, and the same paper feed cassette 50 as the paper feed unit 2A shown in FIG. Three stages are provided in the height direction.
[0059]
The recording materials accommodated in the sheet feeding cassettes 50 are separated and fed one by one by operating the pickup roller 31 and the pair of sheet feeding rollers 32 corresponding to the selected sheet feeding cassette 50, and the conveyance path 54a. Then, it is introduced into the conveyance path 54 and conveyed upward by the conveyance roller pair 51.
[0060]
Similarly to the conveyance path 53 in the paper feed unit 2A of FIG. 3, the conveyance path 54 extends to the upper surface of the main body of the paper feed unit 2B, and the image recording apparatus 1 is placed on the upper surface of the main body of the unit 2B. In this state, they reach the conveyance path 36b of the image recording apparatus 1. Thus, the recording material can be introduced from the paper feeding unit 2B to the electrophotographic process unit 20 of the image recording apparatus 1.
[0061]
On the other hand, the paper feed unit 2B shown in FIG. 5B includes one stage of paper feed cassettes 50 that accommodate large-size recording materials, and cassettes that can accommodate small-size recording materials below them. In this configuration, a sheet feeding cassette 58 in which a section 58a and a cassette section 58b are provided side by side is provided.
[0062]
The cassette unit 58a and the cassette unit 58b provided in the paper feed cassette 58 are respectively provided with a pickup roller 31 and a pair of paper feed rollers 32 in order to separate and feed the recording materials stored in the respective cassette units 58a and 58b one by one. And only the pick-up roller 31 and the paper feed roller pair 32 of any selected cassette unit operate to feed the recording material from the selected cassette unit.
[0063]
The fed recording material passes through the conveyance path 59b provided with the conveyance roller pair 55, and is conveyed by the image recording apparatus 1 in a state where the image recording apparatus 1 is mounted and coupled on the upper surface of the sheet feeding unit 2B. It enters the conveyance path 59 that reaches the path 36 b and is introduced into the electrophotographic process unit 20 of the image recording apparatus 1.
[0064]
The configuration for separating the recording materials from the paper feed cassette 50 one by one is the same as that of the paper feed unit 2B in FIG.
[0065]
Also in the paper feed unit 2B, as with the paper feed unit 2A, the paper feed cassettes 50 and 58 are configured to be able to be drawn out from the front surface (front side of the paper) of the unit 2B main body. Operations such as replenishment of recording materials to 50 and 58 and replacement of recording materials can be performed by pulling out the respective paper feed cassettes 50 and 58.
[0066]
Since the paper feeding unit 2B having a plurality of such paper feeding cassettes is bulky and heavy compared to the paper feeding unit 2A, the bottom of the unit 2B main body has a roller for easy movement. 55 and fixing stoppers 56 are provided.
[0067]
It should be noted that the number of stacked sheet cassettes 50 that accommodate large-sized recording materials provided in the two types of sheet supply units 2B described here and the number of cassette sections arranged in the sheet cassette 58 are limited to the above. It is not a thing.
[0068]
Next, the stapling apparatus 5 which is one of the recording material post-processing apparatuses will be described with reference to FIG. FIG. 5 is a cross-sectional configuration diagram of the stapling apparatus 5.
[0069]
The stapling device 5 is installed side by side with the image recording device 1 on the left side corresponding to the downstream side in the paper discharge direction of the image recording device 1 shown in FIG. 2, and the recording material on which image recording has been completed in the image recording device 1. A pair of carry-in rollers 60 for introducing the toner into the stapling apparatus 5.
[0070]
On the downstream side in the paper discharge direction of the carry-in roller pair 60, the recording material conveyance path is arranged in accordance with the mode designated by the user, the conveyance path 44 that does not perform stapling processing, and the conveyance path 65 that is connected to the staple processing unit 67. A switching gate 63 for selectively switching between and is provided.
[0071]
The recording material carried into the conveyance path 64 by the guidance of the switching gate 63 is not subjected to any processing as it is due to the action of the conveyance roller pair 61 and the discharge roller pair 62, and the upper discharge tray 70. Discharged to the top.
[0072]
On the other hand, the recording material carried into the conveyance path 65 by the guidance of the switching gate 63 is once stocked in the processing tray 66 provided in the conveyance path 65. A staple processing unit 67 is provided below the processing tray 66. When a set number of recording materials are stocked in the processing tray 66, a stapling process is performed on a bundle of recording materials. Thereafter, the bundle of recording materials subjected to the stapling process is discharged onto the lower discharge tray 71 by the action of the discharge roller pair 69.
[0073]
Next, the sorter 10 which is one of the post-processing apparatuses will be described with reference to FIG. FIG. 6 is a cross-sectional configuration diagram of the sorter 10.
[0074]
The sorter 10 is installed side by side with the image recording apparatus 1 on the left side of the image recording apparatus 1 in the same manner as the stapling apparatus 5 shown in FIG. The recording material for which image recording has been completed by the image recording apparatus 1 is introduced into the sorter 10 by the carry-in roller pair 75. A plurality of bins 77 are provided on the downstream side in the paper discharge direction of the sorter 10 main body, and the recording material is separately discharged into each bin 77.
[0075]
The recording material is discharged to each bin 77 by the action of a plurality of switching gates 76 provided on the downstream side of the carry-in roller pair 75 in the paper discharging direction. A roller pair 78 is provided.
[0076]
Next, the document image reading device 7 will be described with reference to FIG. FIG. 7 is a cross-sectional configuration diagram of the document image reading device 7.
[0077]
The document image reading device 7 includes a transparent document placing table 84, and is reciprocated in parallel along the lower surface of the document placing table 84 below the document placing table 84 to be placed on the document placing table 84. A photoelectric conversion element 83 comprising a first and second scanning units 81a and 81b for exposing and scanning an image of a placed document, an optical lens 82, and a CCD for converting a reflected light image from the document into an electric signal. Has been placed.
[0078]
The first scanning unit 81a includes an exposure lamp and a mirror, and the second scanning unit 81b includes a plurality of mirrors. The optical lens 82 is for forming a reflected light image on the photoelectric conversion element 83.
[0079]
Further, the document image reading device 7 is provided with an automatic document feeder 80 that automatically supplies a sheet document to the document table 84.
[0080]
As a result, the document image reading device 7 cannot automatically supply the document by means of an automatic reading mode in which the document is automatically exposed and scanned one by one to read the document image, and the book document or the automatic document feeder 80. A manual reading mode in which an original sheet is set by manual operation and an original image is read.
[0081]
FIG. 8 shows a system rack 100 for attaching the document image reading device 7 to the upper part of the image recording device 1. With this system rack 100, the document image reading device 7 can be stacked and supported with a certain space between the upper surface of the image recording unit 1. In the space B of the system rack 100 in the figure, the image recording apparatus 1 is accommodated together with the recording material post-processing apparatuses such as the paper feeding units 2A and 2B, the stapling apparatus 5 and the sorter 10 described above.
[0082]
Next, the duplex conveying unit 8 will be described with reference to FIG. FIG. 9 is a cross-sectional configuration diagram of the duplex conveyance unit 8.
[0083]
The double-sided conveyance unit 8 is attached to the right side surface of the image recording apparatus 1 shown in FIG. 2, and after reversing the recording material on which the image discharged from the fixing unit 27 is recorded, the electronic unit of the image recording apparatus 1 is again used. This is a recording material transport unit for supplying the space between the photosensitive drum 21 and the transfer unit 25 (transfer section) in the photographic process section 20.
[0084]
The double-sided conveyance unit 8 has three conveyance roller pairs 89... Along the conveyance path 88, and a recording material conveyed in the conveyance path 88 by a discharge roller pair 90 provided on the lower end side. Is carried into a conveyance path 36e connected to the electrophotographic process unit 20 of the image recording apparatus 1 with the double-sided conveyance unit 8 attached to the image recording apparatus 1.
[0085]
Next, the relay unit 6 will be described with reference to FIG. FIG. 10 is a cross-sectional configuration diagram of the relay unit 6.
[0086]
The relay unit 6 is mounted on the paper discharge unit 1a on the upper surface of the image recording apparatus 1 shown in FIG. 2 when the post-processing apparatus such as the stapling apparatus 5 and the sorter 6 shown in FIGS. Is.
[0087]
The relay unit 6 is provided with a pair of conveyance rollers 92 and is provided with a conveyance path 93 extending from the upstream side in the paper discharge direction to the downstream side in the paper discharge direction, and an image discharged from the image recording apparatus 1 is recorded. The recording material is carried into the post-processing apparatus through the conveyance path 93.
[0088]
The transfer path 93 is provided with a switching gate 91 that is selectively driven in the vicinity of the paper discharge port 95 provided on the upper surface of the main body of the relay unit 6. The material is guided to the conveyance path 94 and can be discharged from the paper discharge port 95 to the upper surface 6a of the unit 6 body.
[0089]
The upper surface 6a of the relay unit 6 main body is formed so as to be flush with the upper surface of the adjacent post-processing apparatus main body to form a recording material receiving portion, and the recording material carried out from the paper discharge port 95 is a recording material. It is placed over the upper surface of the material post-processing apparatus.
[0090]
Further, the discharge of the recording material to the outside of the unit 6 main body using the paper discharge port 95 is performed when the above-described double-sided conveyance unit 8 is mounted on the image recording apparatus 1. It is also used for switchback conveyance for introducing a recording material into the inside.
[0091]
Further, in the relay unit 6, a pair of conveyance rollers 92 disposed in a conveyance path 93 for introducing the recorded recording material from the upstream side in the paper discharge direction to the post-processing device on the downstream side in the paper discharge direction includes: The curl (curvature) generated in the recording material can be corrected by passing through the heat fixing roller provided in the fixing unit 27 (see FIG. 2) of the image recording apparatus 1. It also has functions.
[0092]
The function of correcting the curl in the above-described conveyance roller pair 92 will be described in detail with reference to FIG. The conveying roller pair 92 includes a first roller 92a that is a hard roller located on the upper side and a second roller 92b that is a soft roller located on the lower side.
[0093]
Further, in order to select whether or not to correct the curl in accordance with the curl state of the recording material generated by passing through the heat fixing roller of the image recording apparatus 1, a switching gate 91 is used and a first switch is used. It is also possible to switch between using the transfer path 93 as the back transfer path and using the transfer path 94 as the second switchback transfer path. Accordingly, after the curl correction is performed on the recording material, the recording material is switched back and conveyed toward the double-sided conveyance unit 8, or the recording material is double-sided without performing the curl correction on the recording material. It is possible to select whether to carry out switchback conveyance toward the inside of the conveyance unit 8.
[0094]
That is, the curling of the recording material introduced toward the post-processing device disposed on the downstream side of the image forming apparatus 1 is performed, and after being guided from the image forming apparatus 1 to the relay unit 6 once. Whether or not to correct the curl can be arbitrarily selected depending on the situation with respect to the recording material that is switched back and guided into the duplex conveying unit 8.
[0095]
Further, although not shown, it is possible to provide a separation mechanism that separates the first roller 92a and the second roller 92b of the transport roller pair 92 as necessary. By providing the separation mechanism, the pressure contact between the first roller 92a and the second roller 92b depends on whether or not the curling correction is performed on the recording material conveyed toward the downstream side of the conveyance roller pair 92. Or the separation can be switched. In addition, even with a mechanism that changes the pressure-bonding force without separating the first roller 92a and the second roller 92b, the same effect can be obtained.
[0096]
As described above, by providing the curling correction means in the relay unit 6, the problem of curling occurring in the recording material on which the developer is heat-fixed can be solved, and further introduced toward the post-processing apparatus. For both the recording material to be recorded and the recording material guided into the double-sided conveyance unit 8, there is a merit that the curl can be surely corrected as needed by one curl correcting means. is doing.
[0097]
In the present embodiment, a pair of rollers is used as the conveying roller pair 92, but it is also possible to provide a similar function by combining a belt and a roller.
[0098]
The systems shown in FIGS. 1 (c) (d) (i) (e) (f) (h) will be described in detail below with reference to FIGS.
[0099]
FIG. 11 is a structural cross-sectional view of the system of FIG. 1C, in which the image recording apparatus 1 is mounted and supported on the upper surface of the paper feed unit 2B shown in FIG.
[0100]
As shown in FIG. 11, the conveyance path 54 in the paper feeding unit 2B and the conveyance path 36e in the image recording apparatus 1 are joined together in a state where the image recording apparatus 1 is placed on the paper feeding unit 2B. It is in a positional relationship. Thus, the image recording apparatus 1 receives the recording material supplied from the paper feeding unit 2B side into the conveyance path 36, and the recording material is supplied toward the electrophotographic process unit 20 of the image recording apparatus 1. It becomes.
[0101]
Further, the discharge unit 1a on the top surface of the image recording apparatus 1 that receives the recording material on which the image is recorded by the image recording apparatus 1 can receive a large size recording material. The above-described paper discharge tray 3 is attached. Thus, the large size recording material can be held without dropping from the upper surface of the image recording apparatus 1.
[0102]
The paper discharge tray 3 and the image recording apparatus 1 are respectively formed with engaging members (not shown) that engage with each other, and the paper discharge tray 3 can be easily attached to the image recording apparatus 11 by using these engaging portions. Installed.
[0103]
In such a system, an environment in which a variety of recording materials can be selectively supplied is prepared, and a desired recording material is continuously supplied so that recorded images can be efficiently obtained.
[0104]
As can be seen from FIG. 11, the image recording apparatus 1 mounted and supported on the upper surface of the paper feed unit 2B includes the paper discharge tray 3 protruding from the main body of the apparatus 1 within the installation space range X of the paper feed unit 2B. It is settled.
[0105]
Accordingly, an environment in which an image can be recorded by selectively supplying from a small size recording material to a large size recording material is prepared, and a recording material on which an image discharged from the image recording apparatus 1 is recorded is reliably received. The system that can be installed will be realized with an installation area that can be installed in a familiar space such as the side of the desk. Therefore, the user can easily check the output, leading to a significant improvement in work efficiency.
[0106]
FIG. 12 is a structural sectional view of the system of FIG. 1 (i), in which a document image reading device 7 is further mounted above the image recording device 1 in the system of FIG. The document image reading device 7 is mounted using the system rack 100 of FIG.
[0107]
In the system of FIG. 12, not only recording reproduction based on image data transferred from an external device such as a personal computer but also an image based on image data of a document read by the document image reading device 7 is recorded on a recording material. It is reproduced and discharged to the paper discharge unit 1a on the upper surface of the image recording apparatus 1.
[0108]
As can be seen from FIG. 12, the document image reading device 7 has a shape that fits within the installation space range X of the paper feeding unit 2 </ b> B, and does not increase the width of the system.
[0109]
Accordingly, an environment in which an image can be recorded by selectively supplying from a small size recording material to a large size recording material is prepared, and a recording material on which an image discharged from the image recording apparatus 1 is recorded is reliably received. A system that can function as a copier is realized with an installation area that can be installed in a familiar space such as the side of a desk. Therefore, the user can easily confirm the output product and can also perform copying on the spot, which leads to further improvement in work efficiency.
[0110]
Next, FIG. 13 is a sectional view of the structure of the system of FIG. 1 (d), in which the image recording apparatus 1 and the stapling apparatus 5 are mounted and supported on the upper surface of the paper feed unit 2B shown in FIG. 4 (a). is there.
[0111]
As shown in FIG. 13, in this system as well as the system of FIG. 11, the transport path 54 in the paper feed unit 2B and the transport path 36e in the image recording apparatus 1 are placed on the image recording apparatus 1 on the paper feed unit 2B. Are in a positional relationship where they are joined together.
[0112]
Further, the conveyance path 93 of the relay unit 6 mounted on the top surface of the image recording apparatus 1 and the transport path 36c in the image recording apparatus 1 are in a state where the relay unit 6 is mounted on the top surface of the image recording apparatus 1 body. It is in the positional relationship to be joined. As a result, the recording material discharged from the image recording apparatus 1 is received in the relay unit 6.
[0113]
The conveyance path of the stapling device 5 disposed on the left side of the image recording apparatus 1 and the conveyance path 93 of the relay unit 6 are also engaged with each other in a state where the stapling apparatus 5 is mounted on the left side of the image recording apparatus 1. They are in a positional relationship. As a result, the recording material discharged from the image recording apparatus 1 is received in the stapling apparatus 5 via the relay unit 6.
[0114]
In this system, when the recording material on which the image is recorded is discharged without being subjected to the stapling process, the recording material is passed through the conveyance path 64 of the stapling apparatus 5 and discharged onto the upper discharge tray 70.
[0115]
On the other hand, when the recording material is subjected to staple processing and discharged, the recording material on which the image is recorded is subjected to stapling processing in the staple processing unit 67 through the conveyance path 65 provided with the processing tray 66, and then the lower stage. The paper is discharged to the paper discharge tray 71.
[0116]
Also, by controlling the switching of the switching gate 91, the recording material can be transported to the transport path 64 and discharged using the upper surface of the unit 6 main body and the upper surface of the stapling apparatus 5 main body. It is effective to use this transport path 94 when it is desired to discharge a recording material on which an image received in an interrupt process or the like is recorded separately from other recording materials. Since the recording material discharged through the conveyance path 94 is discharged to the uppermost surface of the system, the user can easily obtain the recording material without making a mistake with other recording materials.
[0117]
In such a system, an environment in which a variety of recording materials can be selectively supplied is prepared, and a desired recording material can be continuously supplied to efficiently obtain a recorded image, and the recording material on which the image is recorded As a result, the stapling process can be arbitrarily performed.
[0118]
As can be seen from FIG. 13, the main body (main part) of the image recording apparatus 1 and the stapling apparatus 5 mounted and supported on the upper surface of the paper feeding unit 2B are within the installation space range X of the paper feeding unit 2B. Yes.
[0119]
Accordingly, an environment in which an image can be recorded by selectively supplying from a small size recording material to a large size recording material is prepared, and the recording material on which an image discharged from the image recording apparatus 1 is recorded is necessary. Accordingly, a system that can receive the paper reliably after performing the stapling process is realized with an installation area that can be installed in a familiar space such as the side of the desk. Therefore, the user can not only easily check the output, but also can perform a stapling process as necessary, leading to further improvement in work efficiency.
[0120]
FIG. 14 is a structural sectional view of the system of FIG. 1 (e), in which a document image reading device 7 is further mounted above the system of FIG. The document image reading device 7 is mounted using the system rack 100 of FIG.
[0121]
In the system of FIG. 14, not only recording reproduction based on image data transferred from an external device such as a personal computer but also an image based on image data of a document read by the document image reading device 7 is recorded on a recording material. After being reproduced and subjected to a stapling process as necessary, the paper is discharged to the paper discharge trays 70 and 71. Further, the sheet may be discharged from the upper surface of the relay unit 6 to the upper surface of the stapling device 5.
[0122]
As can be seen from FIG. 14, the document image reading device 7 has a shape that fits within the installation space range X of the paper feeding unit 2 </ b> B, and does not increase the width of the system.
[0123]
Accordingly, an environment in which an image can be recorded by selectively supplying from a small size recording material to a large size recording material is prepared, and the recording material on which the image discharged from the image recording apparatus 1 is recorded is necessary. Thus, a system that can be surely received after stapling and also functions as a copying machine is realized with an installation area that can be installed in a familiar space such as the side of a desk. Therefore, the user can easily confirm the output product, can perform the stapling process as necessary, and can also perform the copy on the spot, thereby further improving the work efficiency.
[0124]
FIG. 15 is a structural cross-sectional view of the system of FIG. 1 (f), and shows a form in which a duplex conveying unit 8 is further mounted on the side of the image recording apparatus 1 in the system of FIG. 14 described above.
[0125]
In this configuration, the transport path 88 in the duplex transport unit 8 and the transport path 36e of the image recording apparatus 1 are joined to each other in a state where the duplex transport unit 8 has arrived to the side of the image recording apparatus 1. Yes, the recording material on which the image is recorded on the first surface by the image recording apparatus 1 is guided and conveyed again between the photosensitive drum 21 of the image recording apparatus 1 and the transfer unit 254 in a state where the recording material is reversed. The image is recorded on the second surface of the recording material.
[0126]
At this time, the recording material on which the image discharged from the paper discharge unit of the image recording apparatus 1 is recorded is temporarily guided to the upper surface of the unit 6 main body by the switching gate 91 of the relay unit 6 and then the stapling apparatus 5. Guided toward the top surface. Here, if the recording material size (recording material conveyance direction) is short, it is guided and supported by the upper surface of the relay unit 6, and if the recording material size (recording material conveyance direction) is long, the relay unit 6 is connected. It is guided and supported by the upper surface of the stapling device 5.
[0127]
As a result, an environment in which a variety of recording materials can be selectively supplied is prepared, and a desired recording material can be continuously supplied to efficiently obtain recorded images. Further, post-processing such as stapling can be optionally performed on the recording material on which an image is recorded, as necessary. Further, the recording material can be switched back and conveyed to the double-sided conveyance unit 8 within the range of the installation space of the image recording system without using a special apparatus, and an image can be recorded on both sides of the recording material. . Moreover, it also has a function as a copying machine.
[0128]
Therefore, the user can easily check the output, and can perform stapling as necessary, and even the copy in duplex mode can be performed on the spot, leading to further improvement in work efficiency. .
[0129]
11 to 15, the paper feed unit 2B shown in FIG. 4A is provided. However, the paper feed unit 2B shown in FIG. Further, a configuration provided with the paper feed unit 2A of FIG.
[0130]
Further, the description has been given of the case where the duplex conveying unit 8 is mounted on the system of FIG. 14, but it is not only mounted on the system shown in FIGS. 11, 12, and 13 but also mounted on the image recording apparatus 1 alone. Similarly, it is possible to record images on both sides of the recording material. In the case where the relay unit 6 is not attached to the paper discharge unit 1a of the image forming apparatus 1, the recording material on which the image is recorded on the first surface temporarily discharged from the image recording apparatus 1 is The paper is guided and held by the paper discharge unit 1 a on the upper surface of the main body of the apparatus 1, and is then guided toward the duplex conveying unit 8.
[0131]
Here, the system including the stapling device 5 has been described for each level (mounting state). However, as a recording material post-processing device, a system including the sorter 10 shown in FIG. It is good. By providing the sorter 10, collation and sorting can be automatically performed instead of stapling.
[0132]
FIG. 16 is an example of a fully equipped system in which the sorter 10 is mounted.
As a result, an environment in which a variety of recording materials can be selectively supplied is prepared, and a desired recording material can be continuously supplied to efficiently obtain recorded images. Further, it is possible to automatically collate and sort the recording material on which an image is recorded as necessary. Further, the recording material can be switched back and conveyed to the double-sided conveyance unit 8 within the range of the installation space of the image recording system without using a special apparatus, and an image can be recorded on both sides of the recording material. . Moreover, it also has a function as a copying machine.
[0133]
Therefore, it is possible for the user to easily check the output, and to automatically collate as necessary, and even copying in duplex mode can be performed on the spot, further improving work efficiency. Leads to improvement.
[0134]
18 includes a double-sided conveyance unit 18 slightly different from the double-sided conveyance unit 8 used in the system of FIG. 15 on the side of the image recording apparatus 1 in the system of FIG. Structural sectional view of a system in which a mail bin sorter (side-position recording material post-processing device) 9 is mounted on the side of the entire system so as to cover the side surface of the duplex conveying unit 18 where the image recording device 1 is not disposed. It is.
[0135]
The double-sided conveyance unit 18 is provided with a conveyance path 88 a that guides the recording material that has been switched back and conveyed to the mail bin sorter 9 and a conveyance path 88 b that leads to the inside of the double-sided conveyance unit 18. One conveying roller 89a is provided along the conveying path 88a, and three conveying rollers 89b are provided along the conveying path 88b.
[0136]
The mail bin sorter 9 receives a recording material on which an image is recorded from the image recording apparatus 1, and discharges and stores the recording material toward a predetermined bin 9a. In the mail bin sorter 9, for example, a control circuit that manages the operation of the mail bin sorter 9, a power supply unit that drives the mail bin sorter 9, and the like are arranged in a space corresponding to the lower part of the duplex conveyance unit 18. Has been. Thereby, although more space is required than the installation space range X of the paper feeding unit 2B, an increase in the installation space of the system due to the installation of the mail bin sorter 9 is suppressed as much as possible.
[0137]
Further, a part of the mail bin sorter 9 constitutes a conveyance path portion located below the duplex conveyance unit 18 in the conveyance path 88 b provided in the duplex conveyance unit 18. In this way, the mail bin sorter 9 forms at least a part of the conveyance path 88b provided in the double-sided conveyance unit 18, whereby the mail bin sorter 9 is viewed from the side of the image recording system as shown in FIG. When separated, a part of the conveyance path 88b of the duplex conveying unit 18 can be opened. Therefore, the recording material stagnating in the transport path 88b can be easily removed.
[0138]
The image recording system as described above can be regarded as a system in which the mail bin sorter 9 is basically upgraded to the image recording system of FIG. Accordingly, the recording material conveyance path until the recording material discharged from the paper discharge unit of the image recording apparatus 1 is introduced into the double-sided conveyance unit 18, and the operation and effect of the provision of this conveyance path are the same as those of the system of FIG. In addition to this operational effect, the provision of the mail bin sorter 9 also has the effect of being able to sort and sort electronic mail from network-connected devices or document data from a personal computer or the like.
[0139]
In addition, as shown in FIG. 20, when a multi-manual feed unit (recording material supply device for double-sided conveyance device) 11 is prepared as a new system peripheral device instead of the mail bin sorter 9, both sides of the multi-manual feed unit 11 are prepared. The mounting portion 11a with the transport unit 18 is formed and mounted in accordance with the shape of the transport path 88b located below the double-side transport unit 18. Thereby, even if the multi manual feed unit 11 is mounted instead of the mail bin sorter 9, the installation space can be minimized while the transport path 88b of the duplex transport unit 18 is provided reliably. Note that the manual feed tray (recording material support portion) 11b of the multi manual feed unit 11 can be folded with respect to the right side surface of the double-sided conveyance unit 18, and the installation space when not required can be minimized. It is.
[0140]
In the image recording system of FIG. 18, a part of the mail bin sorter 9 constitutes a conveyance path portion located below the double-sided conveyance unit 18 in the conveyance path 88b, but is shown in FIG. As in the case of the image recording system, a part of the mail bin sorter 9 may constitute substantially the entire conveyance path 88b of the duplex conveyance unit 28. Also in this case, the same effect can be obtained.
[0141]
18 to 21, the paper feed unit 2B shown in FIG. 4A is provided. However, the paper feed unit 2B shown in FIG. Further, a configuration provided with the paper feed unit 2A of FIG.
[0142]
Further, the above-described image recording system, recording material post-processing device, and relay unit may have the following configurations.
[0143]
That is, the above-described image recording system is an image recording system including an image recording apparatus that records an image on a recording material, and peripheral devices that are selectively connected according to functions required for the image recording apparatus. The image recording apparatus includes a recording material supply unit that accommodates a small-sized recording material, has a width corresponding to the dimensions of the small-sized recording material, and displays the image-recorded recording material on the upper surface of the apparatus main body. The large-size recording material larger than the small-size recording material is accommodated, and the accommodated recording material is supplied to the image recording apparatus, and has a width corresponding to the dimensions of the large-size recording material. It can also be expressed as a configuration in which the recording material supply device is further provided and the image recording device is assembled within the upper surface range of the recording material supply device.
[0144]
Among the peripheral devices mounted for system improvement of the image forming apparatus, the recording material supply apparatus that supplies a large size recording material of A3 size or B4 size to the image recording apparatus is structurally widest. . Here, the width is an apparatus dimension when viewed from the front side of the apparatus, and is a dimension in the paper discharge direction.
[0145]
Therefore, in the above configuration, the basic image recording apparatus has a width corresponding to the size of the small-size recording material required for the recording material supply unit incorporated therein, and the image recorded on the upper surface of the image recording apparatus main body is recorded. The material was discharged.
[0146]
Since such an image recording apparatus is disposed on the recording material supply apparatus, a space is formed on the upper surface of the recording material supply apparatus adjacent to the image recording apparatus. By forming this space portion on the downstream side in the paper discharge direction, it is possible to dispose a peripheral device such as a post-processing device such as a stapling device or a sorter in the space portion.
[0147]
As a result, the installation width of the image recording system can be minimized, and even if the system is improved, the installation width is almost within the width of the recording material supply device. It is possible to install the product in a familiar place such as, and it is possible to easily check the output and improve work efficiency.
[0148]
In addition, the above-described image recording system is an image recording system including an image recording apparatus that records an image on a recording material and peripheral devices that are selectively connected according to functions required for the image recording apparatus. The image recording apparatus includes a recording material supply unit that accommodates a small-sized recording material, has a width corresponding to the dimensions of the small-sized recording material, and displays the image-recorded recording material on the upper surface of the apparatus main body. All of the peripheral devices connected to the image recording apparatus including the image recording apparatus are one of the peripheral devices, and contain a large-size recording material larger than the small-size recording material. May be expressed as a configuration that is assembled so as to be substantially within the upper surface range of the recording material supply device having a width corresponding to the size of the large size recording material. so That.
[0149]
Among the peripheral devices mounted for system improvement of the image forming apparatus, the recording material supply apparatus that supplies a large size recording material of A3 size or B4 size to the image recording apparatus is structurally widest. . Here, the width is an apparatus dimension when viewed from the front side of the apparatus, and is a dimension in the paper discharge direction.
[0150]
Therefore, in the above configuration, the basic image recording apparatus has a width corresponding to the size of the small-size recording material required for the recording material supply unit incorporated therein, and the image recorded on the upper surface of the image recording apparatus main body is recorded. The material was discharged.
[0151]
When such an image recording device is arranged on the recording material supply device, a space is formed on the upper surface of the recording material supply device adjacent to the image recording device. By forming it, it becomes possible to dispose a post-processing device such as a stapling device or a sorter, which is a peripheral device, in the space, and the periphery so as to be almost within the upper surface range of the widest recording material supply device Equipment can be assembled.
[0152]
As a result, the installation width of the image recording system can be minimized, and even if the system is improved, the installation width is almost within the width of the recording material supply device. It is possible to install the product in a familiar place such as, and it is possible to easily check the output and improve work efficiency.
[0153]
Hereinafter, specific examples of the configuration of the image recording system will be described.
[0154]
In the above configuration, the image recording system includes the recording material supply device as the peripheral device. The image recording device is mounted on the upper surface of the recording material supply device, and is downstream of the image recording device in the paper discharge direction. On the side, a paper discharge tray extending along the upper surface of the image recording apparatus main body within the upper surface range of the recording material supply apparatus may be mounted.
[0155]
By including the recording material supply device, it is possible to record an image using a recording material having a larger size than the recording material supplied from the recording material supply unit incorporated in the image recording device.
[0156]
Further, since the size of the image recording apparatus is substantially determined by the size of the small size recording material accommodated in the internal recording material supply unit, the size of the upper surface also corresponds to the outer shape of the small size recording material. Therefore, if the large-size recording material supplied from the recording material supply device is supported only on its upper surface, the recording material may fall from the paper discharge unit. Therefore, the large-size recording material can be held without being dropped from the paper discharge unit. In addition, since the paper discharge tray is sized to fit within the upper surface range of the recording material supply apparatus, the installation width of the system is not increased by providing the paper discharge tray.
[0157]
Further, in the above configuration, the image recording system receives, as the peripheral device, the recording material supply device and an image-recorded recording material output from the image recording device. A recording material post-processing device that performs post-processing and discharges, and the image recording device is installed on the upper surface of the recording material supply device and adjacent to the image recording device on the upper surface of the recording material supply device The recording material post-processing device may be placed downstream in the paper discharge direction.
[0158]
According to this configuration, by including the recording material supply device, it is possible to record an image using a recording material that is larger in size than the recording material supplied from the recording material supply unit incorporated in the image recording device, In addition, since the recording material post-processing device is provided, post-processing such as sorting and stapling can be performed on the recording material on which the image has been recorded. In addition, since the recording material post-processing apparatus is within the upper surface range of the recording material supply apparatus, the installation area of the system is not increased by providing the post-processing apparatus.
[0159]
Further, in the image recording system, in the above configuration, a relay unit that relays the conveyance of the image-recorded recording material to the recording material post-processing device is mounted on the upper surface of the image recording device. A first conveyance path for conveying the image-recorded recording material toward the recording material post-processing device side, and the image-recorded recording material in a recording material receiving portion having at least a part of the upper surface of the recording material post-processing device main body. It can also be characterized by having a second transport path for transporting toward it.
[0160]
According to the above configuration, in addition to guiding the recording material on which the image has been recorded into the recording material post-processing device by the relay unit, the recording material is conveyed to the recording material receiving portion having at least a part of the upper surface of the recording material post-processing device main body. Therefore, when it is not necessary to transport the recording material to the recording material post-processing apparatus, the recording material on which the image has been recorded can be discharged and supported using the uppermost surface of the system such as the upper surface of the recording material post-processing apparatus main body.
[0161]
Therefore, for the user, it becomes easier to pick up the discharged recording material than when it is discharged to the discharge tray of the recording material post-processing device, and when a new interrupt printing is accepted during image recording, etc. By adopting a configuration for discharging to the recording material receiving portion, it is possible to clearly classify and discharge the recording material discharged onto the paper discharge tray of the post-processing apparatus, and the subsequent classification work and the like are very easy. Become.
[0162]
Further, in the above configuration, the image recording system includes a double-sided conveying device that conveys the recording material vertically downward as a peripheral device on the side surface opposite to the side adjacent to the recording material post-processing device in the image recording device. In addition, the switchback conveyance for introducing the recording material into the double-sided conveyance device uses the second conveyance path of the relay unit, and once guides the one-side recorded recording material to the recording material receiving portion. You can also.
[0163]
According to this configuration, since the double-sided conveyance device is provided, it is possible to record an image on both sides of the recording material. However, in the configuration in which the image recording device and the recording material post-processing device are accommodated within the upper surface range of the recording material supply device, the conveyance path between the image recording device and the recording material post-processing device is very short. For this reason, when switchback conveyance is performed to introduce the recording material into the double-sided conveyance device using such a short conveyance path, the front end of the recording material is placed in the conveyance path having a complicated mechanism for stapling and sorting. It becomes easy to generate a jam and the control is complicated.
[0164]
In view of this, the second transport path of the relay unit is used for the switchback transport for introducing the recording material to the double-sided transport device as described above, and the one-side recorded recording material is once guided to the recording material receiving portion. As a result, the front end of the recording material is not introduced into the conveyance path in the recording material post-processing apparatus having a complicated mechanism, so that jamming hardly occurs and complicated control is not necessary.
[0165]
Further, the image recording system includes a recording material supply unit capable of supplying a recording material equivalent to the recording material housed in the recording material supply unit incorporated in the image recording apparatus, in the above configuration. It can also be characterized by having a configuration that is arranged in parallel.
[0166]
The small size recording material accommodated in the recording material supply unit built in the image recording apparatus is, for example, A4 or B5, and is used more frequently than A3 or B4, which are large size recording materials. May be.
[0167]
For users who have many uses like this, the recording material supply device is arranged in parallel with the recording material supply unit built in the image recording device, so that a small size recording material can be used. It can be prepared for a large amount of continuous use.
[0168]
Further, the image recording system further includes a document image reading device that reads an image of a document as the peripheral device in the above configuration, and the document image reading device is disposed with a width substantially equal to that of the recording material supply device. It can also be characterized by being.
[0169]
Since the original image reading device is provided, the function as a copying machine is installed. With this configuration, in addition to the operation according to the above-described configuration, the image recording system has a function as a copying machine as well as a printer. And can.
[0170]
The image recording system further includes an image recording device mounted on an upper surface of the recording material supply device, and further includes a recording material post-processing device and a relay unit that relays the conveyance to the recording material post-processing device. As a peripheral device, a double-sided conveying device that conveys the recording material from the upper side to the lower side of the conveying surface is provided on the side surface opposite to the recording material post-treatment device arrangement side in the image recording apparatus, The first transport path of the relay unit is used for switchback transport for introducing the recording material into the transport device, and the first transport path is provided with a curvature correcting means for correcting the curvature of the recording material. It can also be a feature.
[0171]
According to the above configuration, the curvature of the recording material conveyed to the recording material post-processing apparatus is corrected by the curvature correcting means when passing through the first conveyance path. In addition, since the recording material conveyed to the double-sided conveyance device arranged on the opposite side of the recording material post-processing device passes through the first conveyance path during the switchback conveyance, the curvature correction means similarly Curvature is corrected.
[0172]
Thus, with one curving correction means, both for the recording material conveyed from the image recording apparatus to the recording material post-processing apparatus and for the recording material conveyed from the image recording apparatus toward the double-sided conveying apparatus. The curvature can be corrected.
[0173]
Further, in the above configuration, the image recording system is disposed on a side surface of the image recording apparatus and covers the double-sided conveyance apparatus that conveys the recording material from the upper side to the lower side of the conveyance surface, and the double-sided conveyance apparatus. Post-processing for side-position recording material that is disposed on the side surface of the image recording apparatus and receives a recording material conveyed via the double-sided conveying device, performs a predetermined post-processing on the recording material, and discharges the recording material. The apparatus may be provided as a peripheral device.
[0174]
According to the above configuration, the side-surface recording material post-processing device is disposed on the side surface of the image recording apparatus so as to cover the double-sided conveyance device. A control circuit for managing the operation of the side-surface recording material post-processing device, a power supply unit for driving, and the like can be arranged in a portion corresponding to the lower portion of the apparatus that does not cover the duplex conveying device. .
[0175]
Thereby, the installation space of the side-surface recording material post-processing device disposed on the side surface of the image recording apparatus can be suppressed, and an increase in the installation area of the entire image recording system can also be suppressed.
[0176]
In addition, the above-described image recording system is an image recording system including an image recording apparatus that records an image on a recording material and peripheral devices that are selectively connected according to functions required for the image recording apparatus. A double-sided conveyance device that is arranged on the side surface of the image recording apparatus and conveys the recording material from the upper side to the lower side of the conveyance surface, and is arranged on the side surface of the image recording apparatus so as to cover the double-sided conveyance device, A configuration in which a recording material post-processing device for receiving a recording material conveyed via a double-sided conveyance device, receiving a predetermined post-processing on the recording material, and discharging the recording material is provided as a peripheral device. It can also be expressed as being.
[0177]
According to the above configuration, the side-surface recording material post-processing device is disposed on the side surface of the image recording apparatus so as to cover the double-sided conveyance device. A control circuit for managing the operation of the side-surface recording material post-processing device, a power supply unit for driving, and the like can be arranged in a portion corresponding to the lower portion of the apparatus that does not cover the duplex conveying device. .
[0178]
Thereby, the installation space of the side-surface recording material post-processing device disposed on the side surface of the image recording apparatus can be suppressed, and an increase in the installation area of the entire image recording system can also be suppressed.
[0179]
Furthermore, in the above configuration, the image recording system has the side surface recording material post-processing device having a recess corresponding to the shape of the double-sided conveying device on the surface on the image recording device layout side. Is positioned by engaging the double-sided conveying device.
[0180]
According to the above configuration, the recording material post-processing device for side surface arrangement engages the concave portion provided on the surface on the image recording device arrangement side with the double-sided conveyance device installed on the side surface of the image recording device. Positioning is performed with. Therefore, a reliable positional relationship can be ensured without providing a positioning mechanism separately. Further, the installation space can be minimized by not providing a positioning mechanism separately.
[0181]
Thus, the side-surface recording material post-processing apparatus can reliably receive the recording material sent from the double-sided conveyance device to the side-surface recording material post-processing apparatus, and further increase the installation area of the entire image recording system. Can also be suppressed.
[0182]
Further, in the image recording system, in the above configuration, the side-surface-position recording material post-processing device can be separated from the double-sided conveyance device, and a part of the side-surface-position recording material post-processing device is The at least part of the conveyance path provided in the double-sided conveyance device can be configured.
[0183]
According to the above configuration, the side-surface recording material post-processing device is provided so as to be able to be separated from the double-sided conveyance device. Since it comprises, the conveyance path of the part which this recording material post-processing apparatus for side arrangement | positioning comprises can be opened. Furthermore, it is possible to reduce the installation space of the side-surface recording material post-processing device and the double-sided conveyance device.
[0184]
Thereby, when the recording material is stagnated in the conveyance path of the double-sided conveyance device, the recording material can be easily taken out, and further, an increase in the installation area of the entire image recording system can be suppressed.
[0185]
Further, in the above configuration, the image recording system configures at least a part of a conveyance path provided in the double-sided conveyance device instead of the side-surface recording material post-processing apparatus, and the recording material is disposed in the conveyance path. It is also possible to provide a recording material supply device for a double-sided conveying device.
[0186]
According to the above configuration, the recording material supply device for the double-sided conveyance device is configured such that the recording material supply device for the double-sided conveyance device that supplies the recording material to the double-sided conveyance device constitutes a part of the conveyance path of the double-sided conveyance device. The increase in installation space due to the provision of the can be minimized.
[0187]
Accordingly, the recording material can be supplied to the double-sided conveyance device without greatly increasing the installation area of the entire image recording system.
[0188]
The image recording system includes an image recording apparatus that records an image on a recording material, a first receiving unit that receives a recorded recording material that is discharged from the image recording apparatus, and the image recording apparatus. A second receiving portion that receives the discharged recording material and is disposed on the opposite side of the first receiving portion with respect to the image recording apparatus; and toward the first receiving portion. A first conveyance path for conveying a recording material and also used as a first switchback conveyance path for introducing the recording material into the second reception section; It can also be expressed as a configuration provided with a curvature correcting means for correcting the curvature of the recording material provided in the conveyance path for the receiving portion.
[0189]
According to the above configuration, the curvature of the recording material discharged from the image recording apparatus to the first receiving portion is corrected by the curvature correcting means when passing through the first receiving portion conveyance path. The The recording material discharged to the second receiving portion disposed on the opposite side of the first receiving portion with respect to the image recording apparatus is also the first switchback transport path during the switchback transport. Since it passes through the first receiving portion conveyance path, the curvature is similarly corrected by the curvature correcting means.
[0190]
Accordingly, the recording material conveyed from the image recording apparatus toward the second receiving portion by the single curvature correcting means is also conveyed from the image recording apparatus toward the second receiving portion. Also, the curvature can be corrected.
[0191]
Furthermore, in the above configuration, the image recording system has an upstream side with respect to the curvature correcting means in the second switchback conveyance path for introducing the recording material into the second receiving section and the first receiving section conveyance path. And a conveyance path switching means for switching the conveyance path to the first or second switchback conveyance path at the time of switchback conveyance for introducing the recording material into the second receiving portion. You can also.
[0192]
According to said structure, the conveyance path switching means provided in the upstream of the conveyance path for 1st receiving parts is used for the conveyance path used for switchback conveyance of the recording material introduced into a 2nd receiving part. Thus, it is possible to switch to the first switchback conveyance path in which the curvature correcting means is provided or the second switchback conveyance path in which the curvature correction means is not provided. Accordingly, it is possible to select whether or not to correct the curvature of the recording material conveyed to the second receiving unit.
[0193]
Thereby, according to the bending condition of the recording material conveyed to the 2nd receiving part, selection of whether to perform curvature correction to a recording material can be arbitrarily set up.
[0194]
Further, in the above configuration, the image correction system corrects the curvature of the recording material by causing the recording material to pass between a pair of curvature correction members that are in pressure contact with each other. The curving straightening members can be separated from each other.
[0195]
According to the above configuration, when the pair of curvature correcting members constituting the curvature correcting means are in pressure contact with each other, the recording material passing between the pair of curvature correcting members is subjected to curvature correction. On the other hand, when the pair of members are separated from each other, the curvature correction is not performed on the passing recording material. Accordingly, it is possible to select whether or not to correct the curvature of each recording material that passes through the curvature correcting means and is conveyed to the first receiving portion or the second receiving portion. As the pair of curvature correcting members, for example, a pair of rollers, a combination of a roller and a belt, or the like can be considered.
[0196]
Thereby, whether or not to correct the curvature of the recording material conveyed toward the first receiving portion and the recording material conveyed toward the second receiving portion is selected. It can be arbitrarily set according to the bending state of the recording material.
[0197]
Furthermore, in the above configuration, the image recording system corrects the curvature of the recording material by allowing the recording material to pass between a pair of curvature correcting members that are in pressure contact with each other. The pressure contact force of the curvature correcting member may be variable.
[0198]
According to the above configuration, when the pair of curvature correcting members constituting the curvature correcting means is in pressure contact with each other with an appropriate pressure contact force, the recording material passing between the pair of curvature correcting members is subjected to curvature correction. Applied. On the other hand, when the pressure contact force between the pair of straightening members is small, the straightening is not performed on the recording material passing therethrough. Accordingly, it is possible to select whether or not to correct the curvature of each recording material that passes through the curvature correcting means and is conveyed to the first receiving portion or the second receiving portion. As the pair of curvature correcting members, for example, a pair of rollers, a combination of a roller and a belt, or the like can be considered.
[0199]
Thereby, whether or not to correct the curvature of the recording material conveyed toward the first receiving portion and the recording material conveyed toward the second receiving portion is selected. It can be arbitrarily set according to the bending state of the recording material.
[0200]
In the recording material post-processing apparatus described above, the recording material post-processing apparatus that receives an image-recorded recording material output from the image recording apparatus, performs predetermined post-processing on the received recording material, and discharges the recording material. It has a width that matches the size of the recording material, and has a width that matches the size of the small size recording material smaller than the large size recording material on the upper surface of the recording material supply device that supplies the recording material contained therein to the image recording apparatus. It can also be expressed as a configuration having an apparatus main body that can be arranged in parallel with the image recording apparatus.
[0201]
By using the recording material post-processing apparatus having this configuration, the above-described recording material output from the image recording apparatus is received, subjected to predetermined post-processing on the received recording material, and discharged. An image recording system including a recording material post-processing device can be easily realized.
[0202]
The above-mentioned relay unit is a relay unit that is mounted on the upper surface of the image recording apparatus that discharges the image-recorded recording material to the upper surface of the apparatus body and relays the conveyance of the image-recorded recording material to the recording material post-processing device. A first transport path for transporting the image-recorded recording material toward the recording material post-processing apparatus, and a first guide for guiding the image-recorded recording material from an opening provided in the unit main body to the upper surface of the unit. It can also be expressed as a configuration having two transport paths.
[0203]
By using the relay unit having this configuration, an image recording system to which the above-described relay unit is mounted can be easily realized.
[0204]
Further, the relay unit has the above-described configuration, and the first transport path is a switch when transporting the recording material to a peripheral device disposed on the opposite side of the recording material post-processing device with respect to the relay unit. It can also be used as a back conveyance path, and the first conveyance path can be provided with a curvature correcting means for correcting the curvature of the recording material.
[0205]
According to the above configuration, the curvature of the recording material on which the image has been recorded is corrected by the curvature correcting means when passing through the first conveyance path. In addition, the recorded recording material conveyed to the peripheral device disposed on the opposite side of the recording material post-processing device with respect to the relay unit is the first conveyance path which is also the switchback conveyance path during the switchback conveyance. In this case, the curvature is similarly corrected by the curvature correcting means.
[0206]
Thereby, the recording material post-processing device and the recorded recording material conveyed toward the peripheral device arranged on the opposite side of the recording material post-processing device with respect to the relay unit by one curvature correcting means For both, the curvature can be corrected.
[0207]
【The invention's effect】
An image recording system of the present invention includes an image recording apparatus that records an image on a recording material, a first receiving unit that receives a recorded recording material that has been discharged from the image recording apparatus, and a discharge that is discharged from the image recording apparatus. A second receiving portion that receives the recorded recording material and is disposed on the opposite side of the first receiving portion with respect to the image recording apparatus, and records toward the first receiving portion. A first receiving portion conveying path that is also used as a first switchback conveying path that is a conveying path for conveying a material and that introduces a recording material into the second receiving portion. It is possible to adopt a configuration provided with a curvature correcting means that is provided in the part conveyance path and corrects the curvature of the recording material.
[0208]
Therefore, both the recording material discharged from the image recording apparatus to the first receiving portion and the recording material discharged to the second receiving portion pass through the curvature correcting means, and therefore the curvature thereof is reduced. It will be corrected. Accordingly, the recording material conveyed from the image recording apparatus toward the second receiving portion by the single curvature correcting means is also conveyed from the image recording apparatus toward the second receiving portion. This also has the effect of correcting the curvature.
[0209]
Furthermore, in the image recording system of the present invention, in the configuration described above, the curvature correction is performed in the second switchback conveyance path for introducing the recording material to the second receiving section and the first receiving section conveyance path. And a conveyance path switching means for switching the conveyance path to the first or second switchback conveyance path at the time of switchback conveyance in which the recording material is introduced into the second receiving portion on the upstream side of the means. be able to.
[0210]
Therefore, the switchback conveyance path can be switched to the first switchback conveyance path provided with the curvature correcting means or the second switchback conveyance path not provided with the curvature correction means. It is possible to select whether or not to correct the curvature of the recording material conveyed to the second receiving portion. Thereby, in addition to the effect by said structure, according to the curvature condition of the recording material conveyed to a 2nd receiving part, selection of whether to perform curvature correction with respect to a recording material is set arbitrarily. There is an effect that can be.
[0211]
The relay unit of the present invention is a relay unit that is mounted on the upper surface of an image recording apparatus that discharges an image-recorded recording material to the upper surface of the apparatus main body and relays the conveyance of the image-recorded recording material to the recording material post-processing device. A first conveying path for conveying an image-recorded recording material toward the recording material post-processing apparatus side, and an image-recorded recording material is guided to the unit upper surface from an opening provided in the unit body. It is the structure which has a 2nd conveyance path.
[0212]
By using the relay unit having this configuration, an image recording system including the above-described relay unit can be easily realized.
[0213]
Furthermore, the relay unit of the present invention has the above-described configuration, wherein the first transport path transports the recording material to a peripheral device disposed on the opposite side of the recording material post-processing device with respect to the relay unit. In addition, it is also used as a switchback conveyance path, and the first conveyance path may be provided with a curvature correcting means for correcting the curvature of the recording material.
[0214]
Therefore, when the recording material on which the image has been recorded passes through the first conveyance path, the curvature is corrected by the curvature correcting means, and is disposed on the opposite side of the recording material post-processing device with respect to the relay unit. Since the recorded recording material conveyed to the peripheral device is also passed through the first conveyance path which is also the switchback conveyance path during the switchback conveyance, its curvature is similarly corrected by the curvature correcting means. Thus, in addition to the effects of the above-described configuration, the single curvature correcting means can be used for the recording material post-processing device and the peripheral device disposed on the opposite side of the recording material post-processing device with respect to the relay unit. Thus, it is possible to correct the curvature of both of the recorded recording materials conveyed.
[0215]
An image recording system according to the present invention includes an image recording apparatus that records an image on a recording material, and a first recording medium provided on an upper surface of the image recording apparatus that receives a recorded recording material discharged from the image recording apparatus. 3 receiving portions, a recording material post-processing device for post-processing the recorded recording material discharged from the image recording device, and a conveyance path for conveying the recording material toward the third receiving portion. And it is the structure provided with the 3rd receiving part conveyance path used also as a 3rd switchback conveyance path which introduces a recording material into the said recording material post-processing apparatus.
[Brief description of the drawings]
FIGS. 1A to 1I are schematic views showing an example of an embodiment of an image recording system according to the present invention.
FIG. 2 is a cross-sectional view showing a configuration of an example of an image recording apparatus used in the image recording system according to the present invention.
FIG. 3 is a cross-sectional view showing a configuration of an example of a paper feed unit used in the image recording system according to the present invention.
FIGS. 4A and 4B are cross-sectional views showing the configuration of an example of a paper feed unit used in the image recording system according to the present invention.
FIG. 5 is a cross-sectional view showing a configuration of an example of a stapling apparatus used in the image recording system according to the present invention.
FIG. 6 is a sectional view showing a configuration of an example of a sorter used in the image recording system according to the present invention.
FIG. 7 is a cross-sectional view showing a configuration of a document image reading apparatus used in the image recording system according to the present invention.
FIG. 8 is a perspective view showing an example of a system rack for mounting a document image reading apparatus used in the image recording system according to the present invention.
FIG. 9 is a cross-sectional view showing an example of the configuration of a duplex conveying unit used in the image recording system according to the present invention.
FIG. 10 is a cross-sectional view showing a configuration of an example of a relay unit used in the image recording system according to the present invention.
FIG. 11 is a cross-sectional view showing an example of an image recording system according to the present invention.
FIG. 12 is a cross-sectional view showing another system example of the image recording system according to the present invention.
FIG. 13 is a cross-sectional view showing another system example of the image recording system according to the present invention.
FIG. 14 is a cross-sectional view showing another system example of the image recording system according to the present invention.
FIG. 15 is a cross-sectional view showing another system example of the image recording system according to the present invention.
FIG. 16 is a cross-sectional view showing another system example of the image recording system according to the present invention.
17 is an enlarged cross-sectional view in which a part of the relay unit shown in FIG. 10 is enlarged.
FIG. 18 is a cross-sectional view showing another system example of the image recording system according to the present invention.
19 is a cross-sectional view showing a state in which the mail bin sorter is separated from the main body of the image recording system in the image recording system shown in FIG.
FIG. 20 is a cross-sectional view showing another system example of the image recording system according to the present invention.
FIG. 21 is a cross-sectional view showing another system example of the image recording system according to the present invention.
22A and 22B are cross-sectional views showing a conventional image recording system.
[Explanation of symbols]
1 Image recording device
2A paper feed unit (recording material supply device)
2B paper feed unit (recording material supply device)
3 Output tray
5 Staple device (recording material post-processing device, first receiving section)
6 Relay unit
7 Document image reading device
8 Double-sided conveyance unit (double-sided conveyance device, second receiving part)
9 Mail Bin Sorter (Post-processing device for recording material for side surface placement)
10 Sorter (Recording material post-processing equipment)
11 Multi-manual feed unit (recording material supply device for double-sided transport device)
91 Switching gate (transport path switching means)
93 transport path (first receiving section transport path, first switchback transport path)
92 Conveyance roller (curvature correction means)
92a First roller (curvature correction member)
92b Second roller (curvature correcting member)
94 Transport path (second switchback transport path)

Claims (6)

An image recording apparatus for recording an image on a recording material;
A first receiving portion for receiving the recording material discharged serial Rokusumi from the image recording apparatus,
A double-sided conveyance device for supplying the recorded recording material discharged from the image recording device to the image recording device again with the front and back reversed;
A first conveying path that conveys the recorded recording material toward the first receiving portion, and is also used as a first switchback conveying path for introducing the recorded recording material to the double-sided conveying device; and 1 transportable sending passage,
Provided in the first transportable sending passage, a curved correcting means for correcting the curvature of the recording material,
A second transport path used as a second switchback transport path for introducing a recorded recording material to the double-side transport apparatus ;
It said than the curvature correcting means in the first transportable sending passage provided upstream transport path switching means for switching the conveying path of the recording material recorded discharged from the image recording apparatus to the first or second conveying path above An image recording system comprising:   A relay unit that is mounted on the upper surface of the image recording apparatus that discharges the image-recorded recording material to the upper surface of the apparatus body and relays the conveyance of the image-recorded recording material to the recording material post-processing device,
  A first transport path for transporting the image-recorded recording material toward the recording material post-processing apparatus;
  A relay unit having a second transport path for guiding an image-recorded recording material from an opening provided in the unit main body to the upper surface of the unit.   The first transport path is also used as a switchback transport path when transporting a recording material to a peripheral device disposed on the opposite side of the recording material post-processing device with respect to the relay unit,
  The relay unit according to claim 2, wherein the first conveying path is provided with a curvature correcting means for correcting the curvature of the recording material.   4. The relay unit according to claim 2, wherein the relay unit is configured to be attachable to the image recording apparatus as a peripheral device.   An image recording apparatus for recording an image on a recording material;
  A double-sided conveyance device for supplying the recorded recording material discharged from the image recording device to the image recording device again with the front and back reversed;
  A paper discharge unit for discharging the recorded recording material;
  A first pair used as a switchback conveyance path in which a pair of rollers capable of rotating in the forward and reverse directions or a combination of a belt and a roller is arranged and the recorded recording material discharged from the image recording apparatus is introduced into the double-sided conveyance apparatus. A transport path;
  A second transport path for transporting the recorded recording material discharged from the image recording apparatus toward the paper discharge unit;
  A conveyance path switching unit disposed upstream of the roller pair or the combination of the belt and the roller, and switching a conveyance path of the recorded recording material discharged from the image recording apparatus to the first or second conveyance path; An image recording system comprising:   6. The image recording system according to claim 5, wherein the double-sided conveyance device is configured to be attachable to the image forming apparatus as a peripheral device.

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