JPH05105319A - After treatment system for paper sheet - Google Patents

Abstract

PURPOSE:To allow each sheet after treatment device to automatically recognize the hole system in the case of connecting sheet after treatment devices in multiple stages. CONSTITUTION:A controller (UART), a receiver, a driver and an optical fiber module connected to a pre-stage device are formed in such a way as to be capable of detecting whether the pre-stage device is a skewing part or an after treatment device. A controller (UART) 907, a receiver 916, a driver 917 and an optical fiber module 918 connected to a after-stage after treatment device are packaged onto a small printed board separate from the other circuit so as to be moduled. This module 920 is not mounted on the after-stage after treatment device in the case of not connecting this after treatment device. A CPU 900 recognizes its own stage by the upstream connected state and the downstream connected state.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sheet post-processing device in which a sheet post-processing device for sorting, collating, or stapling the sheets on which images are recorded by an image forming apparatus such as a copying machine is connected in multiple stages. Regarding processing system.

[0002]

2. Description of the Related Art Generally, a sheet post-processing device such as a sorter is
It has a plurality of bins for sorting sheets, and is configured to perform post-processing by binding a bundle of sheets sorted in each bin with a stapler. However, in such a sheet post-processing apparatus, the number of sheet bundles that can be sorted is limited to the number of bins. Therefore, in recent years, in order to increase the number of sheet bundles that can be sorted, this sheet post-processing apparatus is used. Systems connected in multiple stages are known.

Conventionally, in this type of paper post-processing system,
Each sheet post-processing device is provided with, for example, a DIP switch,
By operating this DIP switch, it is configured to set whether the device is a master side device or a slave side device and control the entire system. When the connection state of each sheet post-processing device is abnormal, the sheet post-processing devices are configured to inquire whether the sheet post-processing device is a master side device or a slave side device.

[0004]

However, in the above-mentioned conventional sheet post-processing system, since the master side device or the slave side device is set by operating the DIP switch, the operation is troublesome. There is also a problem that if an operation is mistaken, it takes a long time to detect an error in the connection state, and it takes a long time to send information to the image processing apparatus or the sheet post-processing apparatus in the first stage. ..

In view of the above conventional problems, the present invention provides a sheet post-processing system in which each sheet post-processing apparatus can automatically recognize the entire system when the sheet post-processing apparatuses are connected in multiple stages. The purpose is to

[0006]

In order to achieve the above object, the first means is to provide a sheet post-processing system in which a sheet post-processing device for post-processing a sheet on which an image is recorded by an image forming apparatus is connected in multiple stages. The sheet post-processing apparatus is characterized by having a recognition means for recognizing its own stage based on the upstream side connection state and the downstream side connection state.

In the second means, each post-processing apparatus of the first means transmits a status request signal requesting information indicating the stage to the downstream sheet post-processing apparatus, and the downstream sheet post-processing apparatus It is characterized in that information is transmitted to each upstream sheet post-processing device after initializing information indicating its own stage, after receiving the status request signal, or after receiving a change notification of information indicating the stage from the downstream side. And

The third means transmits the information of the sheet post-processing apparatus of each stage to the image forming apparatus by the sheet post-processing apparatus of the second means sequentially transmitting the information indicating the stage from the downstream to the upstream. However, the image forming apparatus is characterized by recognizing the sheet post-processing apparatuses of the respective stages.

[0009]

In the first means, with the above configuration, the stage of each sheet post-processing device is recognized by the connection state on the upstream side and the connection state on the downstream side, so that each sheet post-processing device automatically recognizes the entire system. can do.

In the second means, since the information indicating its own stage is transmitted after initial, after receiving the status request signal or after receiving the change notification of the information indicating the stage from the downstream side, each stage is transmitted. Even if the rise time of the sheet post-processing apparatus is different, each sheet post-processing apparatus can automatically recognize the entire system.

In the third means, the information of the sheet post-processing devices of each stage is transmitted to the image forming apparatus, so that the most upstream image forming apparatus can automatically recognize the entire system.

[0012]

Embodiments of the present invention will be described below with reference to the drawings. 1 is a block diagram showing a control system of an embodiment of a post-processing apparatus according to the present invention, FIG. 2 is a block diagram showing a post-processing system including the post-processing apparatus of FIG. 1, and FIG. 3 is a post-processing of FIG. FIG. 4 is an explanatory diagram showing another method of detecting the connection of the system, and FIG. 4 is a flowchart for explaining the operation of the post-processing device in FIG.

In FIG. 1, this control system is mainly composed of a CPU (central processing unit) 900, a ROM (read only memory) 901, and a RAM (random access memory) 9
02, I / O (input / output) ports 903 and 904, a clock timer controller (CTC) 905, and a universal asynchronous receiver controller (UAR).
T) A microcomputer control system composed of 906, 907 and the like.

The CPU 900 uses the RAM 902 as a work area according to a program written in advance in the ROM 901 and I / O signals from the sensor and switch groups.
It takes in through the O port 903 and outputs the control signal of each load to the driver 908 and 909 of the transistor group through the I / O port 904, and the constant voltage driver group 910 and the constant current through the phase generation IC group 912. Driver group 911
By performing the output to, the post-processing control of the paper is performed. The CPU 900 receives a pulse via the I / O port 903 and a timer value via a clock timer controller (CTC) 905 to control the paper conveyance timing, jam detection, and each load control. Anomaly detection is performed.

The controller (UART) 906 is connected to the main body of the copying machine and the post-processing device in the preceding stage through a receiver 913 for performing photoelectric conversion, a driver 914, and an optical fiber module 915, and this control system is in the preceding stage. The communication of instruction signals and statuses with other devices is performed by serial communication. Similarly, the controller (UART) 90
7 is connected via a receiver 916, a driver 917, and an optical fiber module 918 for performing photoelectric conversion to a post-processing device of a subsequent stage, and this control system exchanges an instruction signal and a status with the device of the subsequent stage. Use serial communication.

Here, a controller (UART) 906, a receiver 913, and a driver 9 which are connected to the preceding apparatus.
14. The optical fiber module 915 is configured so as to be able to detect whether the device at the preceding stage is the oblique portion 100 or the post-processing device. Also, a controller (UART) 90 connected to the post-processing device in the subsequent stage.
7, the receiver 916, the driver 917, and the optical fiber module 918 are mounted on a small printed circuit board different from other circuits and modularized.
If the post-treatment device of the subsequent stage is not connected, the post-treatment device is not attached to this post-treatment device. Therefore, it is possible to prevent wasteful cost, malfunction due to ambient light, fiber connection error, and the like.

Referring to FIG. 2, in this post-processing system,
A skewed portion 100 for skewing the sheets ejected by the image forming apparatus 1 for centering and forcing the sheets to a predetermined position in order from the image forming apparatus 1 at the frontmost stage, and the post-processing for parent processing of this embodiment. 800a, child post-treatment 800b, and grandchild post-treatment 800c are connected. Post-treatment measures 800a-8
Reference numerals 00c denote switching claws 801a, 801b, 801c for selectively guiding the sheets from the preceding stage device toward the own bin or toward the succeeding post-processing device.
And the connecting units 802a, 8 for discharging the paper from the switching claws 801a to 801c to the post-processing device in the subsequent stage.
02b, 802c and connecting units 802a-80
Although not shown in the drawing, the switching claws 2c are not shown.
It has a solenoid unit for operating 01a to 801c, the module 920, and a fiber.

Oblique section 100 and post-treatment measures 800a-80
The physical relationship among the paper carry-in position, the paper discharge position, the connector, and the like at 0c is the same, and therefore, the post-treatment procedure 8
00a to 800c have the same configuration regardless of the relationship between parents, children, and grandchildren. Further, when the oblique portion 100 and the post-treatments 800a to 800c are electrically connected via the module 920, they are detected via the I / O port 903.

The connecting units 802a to 802c
Is driven by the main motor of the downstream post-treatment device in principle, and the inclined portion 100 is driven by the main motor of the parent post-treatment treatment 800a. That is, the child post-treatment treatment 800b and the grandchild post-treatment treatment 800c on the downstream side are the oblique portions 10.
Since it is not necessary to drive 0, the post-treatment measures 800a-8
The load of each main motor 00c is averaged regardless of the position of the main motors. Therefore, it is not necessary to change each main motor according to the system configuration or unify the main motors with large power.

Here, the main body 1 and the post-treatment measures 800a-8
00c has a power source, and the rising times of the main body 1 and the post-treatments 800a to 800c after the power source is turned on are different, and the order is also indeterminate. Therefore, in this embodiment,
The main body 1 and the post-processing treatments 800a to 800c are configured so that the main body 1 can recognize the configuration of the entire system in any order, which will be described in detail below.

First, the post-treatment procedures 800a to 800c are as follows.
For example, by detecting whether or not the device is connected via a fiber harness, it is detected whether the preceding device is the oblique portion 100 or the post-processing device. Further, the parent post-treatment treatment 800a and the child post-treatment treatment 800b detect that the post-treatment device is connected downstream by detecting that the module 920 is connected to the main control board via a pin. To detect.

Accordingly, when the upstream oblique portion 100 is detected and the downstream post-processing device is detected, the self is the parent post-processing treatment 800a, and the upstream oblique portion 100 is detected and the downstream post-processing is performed. If it does not detect the device, only itself is connected to the system and it does not detect the upstream bevel 100,
When the downstream post-treatment device is detected, the self is the middle child post-treatment treatment 800b, and when the upstream oblique portion 100 is not detected and the downstream post-treatment device is not detected, the self is the lowest. Can be detected as being the grandchild post-treatment treatment 800c.

As shown in FIG. 3, the child post-treatment procedure 8
00b, the grandchild post-treatment 800c, a current flows in a direction opposite to that when the parent post-treatment 800a and the child post-treatment 800b are connected to the upstream oblique portion 100. You may connect with a pin like this.

When the own hardware is recognized by the above hardware, the I / F signal is transmitted and received by the following software. First, the main body 1, for example, sets itself in a state in which it can receive itself at the time of initializing, and the lower parent post-processing procedure 8 is performed.
A status request signal is transmitted to 00a, and parent post-processing action 8
00a and child post-treatment 800b perform recognition by the above connection detection after initializing, set themselves in a receivable state, and send status request signals to lower child post-treatment 800b and grandchild post-treatment 800c, respectively. To do.

The lower parent post-treatment procedure 800a, the child post-treatment procedure 800b, and the grandchild post-treatment procedure 800c detect the connection after initializing, after receiving the status request signal, or on-line model code from the lower order. After receiving the change notification of, the online model code is transmitted to the main body 1, the parent post-processing procedure 800a, and the child post-processing procedure 800b, respectively. Therefore, each part of the system 1,
800a to 800c can recognize this system regardless of the order in which they stand up.

Next, the operation of the CPU 900 will be described with reference to FIG. First, it is checked whether or not a post-processing treatment is connected downstream (step S1), and if not connected, it is checked whether or not an online model code from a lower order is received (step S8). If the online model code is received, a connection failure or the like of the downstream connector may be considered, so a connection abnormality signal is transmitted upstream (step S7).

On the other hand, when the post-treatment is connected downstream in step S1, a status request signal is transmitted downstream at the time of rising (step S2). Next, it is checked whether or not the online model code is received from the downstream (step S3), and if it is not received within a fixed time (step S6), the power supply failure on the downstream side, the control board abnormality, the fiber harness Since a defect is considered, a connection abnormality signal is transmitted upstream (step S7).

In step S3, when the online model code from the downstream is received within a certain period of time, the currently recognized online model code is compared with the received online model code (step S4). Sends this new online model code upstream (step S5). It should be noted that such a process can be prevented, for example, from being performed while the sheets are being sorted, but not during sorting, so as to prevent a problem due to a change in connection recognition during sorting.

[0029]

As described above, according to the first aspect of the present invention, in the sheet post-processing system in which the apparatus for post-processing the sheet on which the image is recorded by the image forming apparatus is connected in multiple stages, each sheet post-processing is performed. Since the apparatus has a recognition means for recognizing its own stage based on the upstream side connection state and the downstream side connection state, each sheet post-processing apparatus can automatically recognize the entire system.

According to a second aspect of the present invention, each post-processing apparatus according to the first aspect sends a status request signal requesting information indicating the stage to the downstream sheet post-processing apparatus, and the downstream sheet post-processing apparatus. Since the apparatus sends information to each upstream sheet post-processing apparatus after initializing information indicating its own step, after receiving the status request signal, or after receiving a change notification of information indicating the step from the downstream side, it is transmitted. Even if the rise time of the sheet post-processing devices of the respective stages is different, each sheet post-processing device can automatically recognize the entire system.

According to a third aspect of the present invention, each sheet post-processing apparatus according to the second aspect sequentially transmits information indicating a stage from the downstream to the upstream side, so that the information of the sheet post-processing apparatus in each stage is transmitted to the image forming apparatus. And the image forming apparatus recognizes the sheet post-processing apparatus of each stage, so that the most upstream image forming apparatus can automatically recognize the entire system.

[Brief description of drawings]

FIG. 1 is a block diagram showing a control system of an embodiment of a post-processing apparatus according to the present invention.

2 is a configuration diagram showing a post-processing system including the post-processing device in FIG. 1. FIG.

FIG. 3 is an explanatory diagram showing another method of detecting the connection of the post-processing system of FIG.

FIG. 4 is a flowchart for explaining the operation of the post-processing device in FIG.

[Explanation of symbols]

 1 image forming apparatus 800a, 800b, 800c post-processing apparatus 900 CPU 920 module

─────────────────────────────────────────────────── ───

[Procedure amendment]

[Submission date] November 4, 1992

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be amended] Detailed explanation of the invention

[Correction method] Change

[Correction content]

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sheet post-processing device in which a sheet post-processing device for sorting, collating, or stapling the sheets on which images are recorded by an image forming apparatus such as a copying machine is connected in multiple stages. Regarding processing system.

[0002]

2. Description of the Related Art Generally, a sheet post-processing device such as a sorter is
It has a plurality of bins for sorting sheets, and is configured to perform post-processing by binding a bundle of sheets sorted in each bin with a stapler. However, in such a sheet post-processing apparatus, the number of sheet bundles that can be sorted is limited to the number of bins. Therefore, in recent years, in order to increase the number of sheet bundles that can be sorted, this sheet post-processing apparatus is used. Systems connected in multiple stages are known.

Conventionally, in this type of paper post-processing system,
Each sheet post-processing device is provided with, for example, a DIP switch,
By operating this DIP switch, it is configured to set whether the device is a master side device or a slave side device and control the entire system. When the connection state of each sheet post-processing device is abnormal, the sheet post-processing devices are configured to inquire whether the sheet post-processing device is a master side device or a slave side device.

[0004]

However, in the above-mentioned conventional sheet post-processing system, since the master side device or the slave side device is set by operating the DIP switch, the operation is troublesome. There is also a problem that if an operation is mistaken, it takes a long time to detect an error in the connection state, and it takes a long time to send information to the image processing device or the paper post-processing device at the front stage. ..

In view of the above conventional problems, the present invention provides a sheet post-processing system in which each sheet post-processing apparatus can automatically recognize the entire system when the sheet post-processing apparatuses are connected in multiple stages. The purpose is to

[0006]

In order to achieve the above object, the first means is to provide a sheet post-processing system in which a sheet post-processing device for post-processing a sheet on which an image is recorded by an image forming apparatus is connected in multiple stages. The sheet post-processing apparatus is characterized by having a recognition means for recognizing its own stage based on the upstream side connection state and the downstream side connection state.

In the second means, each post-processing apparatus of the first means transmits a status request signal requesting information indicating the stage to the downstream sheet post-processing apparatus, and the downstream sheet post-processing apparatus It is characterized in that information is transmitted to each upstream sheet post-processing device after initializing information indicating its own stage, after receiving the status request signal, or after receiving a change notification of information indicating the stage from the downstream side. And

The third means transmits the information of the sheet post-processing apparatus of each stage to the image forming apparatus by the sheet post-processing apparatus of the second means sequentially transmitting the information indicating the stage from the downstream to the upstream. However, the image forming apparatus is characterized by recognizing the sheet post-processing apparatuses of the respective stages.

[0009]

In the first means, with the above configuration, the stage of each sheet post-processing device is recognized by the connection state on the upstream side and the connection state on the downstream side, so that each sheet post-processing device automatically recognizes the entire system. can do.

In the second means, since the information indicating its own stage is transmitted after initial, after receiving the status request signal or after receiving the change notification of the information indicating the stage from the downstream side, each stage is transmitted. Even if the rise time of the sheet post-processing apparatus is different, each sheet post-processing apparatus can automatically recognize the entire system.

In the third means, the information of the sheet post-processing devices of each stage is transmitted to the image forming apparatus, so that the most upstream image forming apparatus can automatically recognize the entire system.

[0012]

Embodiments of the present invention will be described below with reference to the drawings. 1 and 2 are block diagrams showing a control system of an embodiment of a post-processing apparatus according to the present invention, and FIG. 3 is FIG. 1 and FIG.
FIG. 4 is a configuration diagram showing a post-processing system including the post-processing device, FIG. 4 is an explanatory diagram showing another method of detecting connection of the post-processing system of FIG. 3, and FIG. 5 is an operation of the post-processing device of FIGS. 1 and 2. 3 is a flowchart for explaining the above.

In FIG. 1 and FIG. 2, this control system is C
A PU (Central Processing Unit) 900 as a center, a ROM (Read Only Memory) 901, a RAM (Random Access Memory) 902, and I / O (Input / Output) ports 903, 9
04 and a clock timer controller (CTC) 905
And a universal asynchronous receiver controller (UART) 906, 907 and the like.

The CPU 900 uses the RAM 902 as a work area according to a program written in advance in the ROM 901 and I / O signals from the sensor and switch groups.
It takes in through the O port 903 and outputs the control signal of each load to the driver 908 and 909 of the transistor group through the I / O port 904, and the constant voltage driver group 910 and the constant current through the phase generation IC group 912. Driver group 911
By performing the output to, the post-processing control of the paper is performed. The CPU 900 receives a pulse via the I / O port 903 and a timer value via a clock timer controller (CTC) 905 to control the paper conveyance timing, jam detection, and each load control. Anomaly detection is performed.

The controller (UART) 906 is connected to the main body of the copying machine and the post-processing device in the preceding stage through a receiver 913 for performing photoelectric conversion, a driver 914, and an optical fiber module 915, and this control system is in the preceding stage. The communication of instruction signals and statuses with other devices is performed by serial communication. Similarly, the controller (UART) 90
7 is connected via a receiver 916, a driver 917, and an optical fiber module 918 for performing photoelectric conversion to a post-processing device in the subsequent stage, and this control system exchanges an instruction signal and a status with the device in the subsequent stage. Use serial communication.

Here, a controller (UART) 906, a receiver 913, and a driver 9 which are connected to the preceding apparatus.
14. The optical fiber module 915 is configured so as to be able to detect whether the device at the preceding stage is the oblique portion 100 or the post-processing device. Also, a controller (UART) 90 connected to the post-processing device in the subsequent stage.
7, the receiver 916, the driver 917, and the optical fiber module 918 are mounted on a small printed circuit board different from other circuits and modularized.
If the post-treatment device of the subsequent stage is not connected, the post-treatment device is not attached to this post-treatment device. Therefore, it is possible to prevent wasteful cost, malfunction due to ambient light, fiber connection error, and the like.

In FIG. 3, in this post-processing system,
A skewed portion 100 for skewing the sheets ejected by the image forming apparatus 1 in a centered manner in order from the image forming apparatus 1 at the frontmost stage to move the sheets to a predetermined position, and the post-processing of the parent and child in this embodiment. 800a, child post-treatment 800b, and grandchild post-treatment 800c are connected. Post-treatment measures 800a-8
Reference numerals 00c denote switching claws 801a, 801b, 801c for selectively guiding the sheets from the preceding stage device toward the own bin or toward the succeeding post-processing device.
And the connecting units 802a, 8 for discharging the paper from the switching claws 801a to 801c to the post-processing device in the subsequent stage.
02b, 802c and connecting units 802a-80
Although not shown in the drawing, the switching claws 2c are not shown.
It has a solenoid unit for operating 01a to 801c, the module 920, and a fiber.

Oblique section 100 and post-treatment measures 800a-80
The physical relationship among the paper carry-in position, the paper discharge position, the connector, and the like at 0c is the same, and therefore, the post-treatment procedure 8
00a to 800c have the same configuration regardless of the relationship between parents, children, and grandchildren. Further, when the oblique portion 100 and the post-treatments 800a to 800c are electrically connected via the module 920, they are detected via the I / O port 903.

The connecting units 802a to 802c
Is driven by the main motor of the downstream post-treatment device in principle, and the inclined portion 100 is driven by the main motor of the parent post-treatment treatment 800a. That is, the child post-treatment treatment 800b and the grandchild post-treatment treatment 800c on the downstream side are the oblique portions 10.
Since it is not necessary to drive 0, the post-treatment measures 800a-8
The load of each main motor of 00c is averaged regardless of the position of the main motor. Therefore, it is not necessary to change each main motor according to the system configuration or unify it with a large power.

Here, the main body 1 and the post-treatment measures 800a-8
00c has a power source, and the rising times of the main body 1 and the post-treatments 800a to 800c after the power source is turned on are different, and the order is also indeterminate. Therefore, in this embodiment,
The main body 1 and the post-processing treatments 800a to 800c are configured so that the main body 1 can recognize the configuration of the entire system in any order, which will be described in detail below.

First, the post-treatment procedures 800a to 800c are as follows.
For example, by detecting whether or not the device is connected via a fiber harness, it is detected whether the preceding device is the oblique portion 100 or the post-processing device. Further, the parent post-treatment treatment 800a and the child post-treatment treatment 800b detect that the post-treatment device is connected downstream by detecting that the module 920 is connected to the main control board via a pin. To detect.

Accordingly, when the upstream oblique portion 100 is detected and the downstream post-processing device is detected, the self is the parent post-processing treatment 800a, and the upstream oblique portion 100 is detected and the downstream post-processing is performed. If it does not detect the device, only itself is connected to the system and it does not detect the upstream bevel 100,
When the downstream post-treatment device is detected, the self is the middle child post-treatment treatment 800b, and when the upstream oblique portion 100 is not detected and the downstream post-treatment device is not detected, the self is the lowest. Can be detected as being the grandchild post-treatment treatment 800c.

As shown in FIG. 4, the child post-treatment procedure 8
00b, the grandchild post-treatment 800c, a current flows in a direction opposite to that when the parent post-treatment 800a and the child post-treatment 800b are connected to the upstream oblique portion 100. You may connect with a pin like this.

When the own hardware is recognized by the above hardware, the I / F signal is transmitted and received by the following software. First, the main body 1, for example, sets itself in a state in which it can receive itself at the time of initializing, and the lower parent post-processing procedure 8 is performed.
A status request signal is transmitted to 00a, and parent post-processing action 8
00a and child post-processing treatment 800b perform recognition by the above connection detection after initializing, set themselves in a receivable state, and send status request signals to the lower child post-processing treatment 800b and grandchild post-treatment processing 800c, respectively. To do.

The lower parent post-treatment procedure 800a, the child post-treatment procedure 800b, and the grandchild post-treatment procedure 800c detect the connection after initializing, after receiving the status request signal, or on-line model code from the lower order. After receiving the change notification of, the online model code is transmitted to the main body 1, the parent post-processing procedure 800a, and the child post-processing procedure 800b, respectively. Therefore, each part of the system 1,
800a to 800c can recognize this system regardless of the order in which they stand up.

Next, the operation of the CPU 900 will be described with reference to FIG. First, it is checked whether or not a post-processing treatment is connected downstream (step S1), and if not connected, it is checked whether or not an online model code from a lower order is received (step S8). If the online model code is received, a connection failure or the like of the downstream connector may be considered, so a connection abnormality signal is transmitted upstream (step S7).

On the other hand, when the post-treatment is connected downstream in step S1, a status request signal is transmitted downstream at the time of rising (step S2). Next, it is checked whether or not the online model code is received from the downstream (step S3), and if it is not received within a fixed time (step S6), the power supply failure on the downstream side, the control board abnormality, the fiber harness Since a defect is considered, a connection abnormality signal is transmitted upstream (step S7).

In step S3, when the online model code from the downstream is received within a certain period of time, the currently recognized online model code is compared with the received online model code (step S4). Sends this new online model code upstream (step S5). It should be noted that such a process can be prevented, for example, from being performed while the sheets are being sorted, but not during sorting, so as to prevent a problem due to a change in connection recognition during sorting.

[0029]

As described above, according to the first aspect of the present invention, in the sheet post-processing system in which the apparatus for post-processing the sheet on which the image is recorded by the image forming apparatus is connected in multiple stages, each sheet post-processing is performed. Since the apparatus has a recognition means for recognizing its own stage based on the upstream side connection state and the downstream side connection state, each sheet post-processing apparatus can automatically recognize the entire system.

According to a second aspect of the present invention, each post-processing apparatus according to the first aspect sends a status request signal requesting information indicating the stage to the downstream sheet post-processing apparatus, and the downstream sheet post-processing apparatus. Since the apparatus sends information to each upstream sheet post-processing apparatus after initializing information indicating its own step, after receiving the status request signal, or after receiving a change notification of information indicating the step from the downstream side, it is transmitted. Even if the rise time of the sheet post-processing devices of the respective stages is different, each sheet post-processing device can automatically recognize the entire system.

According to a third aspect of the present invention, each sheet post-processing apparatus according to the second aspect sequentially transmits information indicating a stage from the downstream to the upstream side, so that the information of the sheet post-processing apparatus in each stage is transmitted to the image forming apparatus. And the image forming apparatus recognizes the sheet post-processing apparatus of each stage, so that the most upstream image forming apparatus can automatically recognize the entire system. ─────────────────────────────────────────────────── ───

[Procedure amendment]

[Submission date] November 4, 1992

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be corrected] Brief description of the drawing

[Correction method] Change

[Correction content]

[Brief description of drawings]

FIG. 1 is a block diagram showing a part of a control system of an embodiment of a post-processing device according to the present invention.

FIG. 2 is a block diagram showing another part of the control system of the embodiment of the post-processing apparatus according to the present invention.

FIG. 3 is a configuration diagram showing a post-processing system including the post-processing devices of FIGS. 1 and 2.

FIG. 4 is an explanatory diagram showing another method of detecting the connection of the post-processing system of FIG.

5 is a flow chart for explaining the operation of the post-processing device of FIGS. 1 and 2. FIG.

[Description of Reference Signs] 1 image forming apparatus 800a, 800b, 800c post-processing apparatus 900 CPU 920 module

[Procedure Amendment 2]

[Document name to be corrected] Drawing

[Correction target item name] All drawings

[Correction method] Change

[Correction content]

[Figure 1]

[Fig. 2]

[Figure 3]

[Figure 4]

[Figure 5]

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Nobuyoshi Seki 2-28-24 Izumi, Higashi-ku, Nagoya, Aichi Prefecture, Yokota Building, Ricoh Elemex Co., Ltd. (72) Inventor Tetsuji Watanabe 2-28, Izumi, Higashi-ku, Nagoya, Aichi Prefecture -24 In Yokota Building Ricoh Electrics Co., Ltd. (72) Inventor Keiji Maeda 2-28-24 Izumi Higashi-ku, Nagoya-shi, Aichi (72) Inventor Nobuyuki Morii Izumi 2 Higashi-ku, Nagoya-shi, Aichi −28−24 Inside YOKOTA BUILDING Ricoh Elemex Co., Ltd. (72) Inventor Masashi Shimada 2-28-24 Izumi, Higashi-ku, Nagoya, Aichi Prefecture

Claims (3)

[Claims] 1. A paper post-processing system in which devices for post-processing paper on which an image is recorded by an image forming apparatus are connected in multiple stages, wherein each paper post-processing device has an upstream connection state and a downstream connection state. A sheet post-processing system having a recognition means for recognizing its own stage. 2. The sheet post-processing apparatus transmits a status request signal requesting information indicating the stage to the downstream sheet post-processing apparatus, and the downstream sheet post-processing apparatus sets the upstream sheet post-processing apparatus. The information is transmitted after initializing information indicating its own stage, after receiving the status request signal, or after receiving a change notification of information indicating the stage from a downstream side. Paper post-processing system. 3. The sheet post-processing device sequentially transmits information indicating a stage from the downstream to the upstream, thereby transmitting the information of the sheet post-processing device of each stage to the image forming apparatus, and the image forming apparatus transmits the information to each stage. 3. The sheet post-processing system according to claim 2, wherein the sheet post-processing device is recognized.