Home positon storage unit and home position storage method for use with printing press

Abstract

A home position sensor, which constitutes a portion of a home position storage unit, stores a home position by means of previously detecting the position of a printing cylinder cam. Accordingly, a printing cylinder comes to a stop at a plate replacement position at the time of replacement of a plate even when the printing cylinder cam does not pass by the home position sensor.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an exemplary schematic side cross-sectional view of a sheet-fed offset printing press according to an embodiment of the present invention;

FIG. 2 is an enlarged view of the principal section of the sheet-fed offset printing press shown in FIG. 1;

FIG. 3 is an exemplary schematic block diagram of a home position storage unit; and

FIG. 4 is an exemplary flowchart achieved when operation for storing a home position is performed.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

A printing press of an embodiment of the present invention will be described by reference to FIGS. 1 through 4. As can be seen from an exemplary schematic view shown in FIG. 1, a sheet-fed offset printing press of the present embodiment includes a first unit 1, a second unit 2, a third unit 3, a fourth unit 4, a fifth unit 5, and a sixth unit 6 which serve as printing sections. A sheet fed from a sheet-feeding section 7 is printed by these respective units 1 to 6, and the printed sheet is discharged to a sheet discharge section 8. Reference numeral 16 denotes a driving device for driving the printing press.

Each of the printing units 1 through 6 has an ink roller group 10 including a plurality of ink rollers, a printing cylinder 11, a blanket cylinder 12, and an impression cylinder 13. In the ink roller group 10, respective ink rollers rotate and make a slidable contact with each other in order to feed ink stored in an ink reservoir 10a to the printing cylinder 11. Reference numeral 14 denotes bridge cylinders that are interposed between the respective impression cylinders 13 of the units 1 through 16 and which have the function of passing to the next impression cylinder 13 a sheet printed between the blanket cylinder 12 and the impression cylinder 13.

As shown in FIG. 2, each of the units 1 through 6 has a cover 15. The cover 15 covers the ink roller group 10, the printing cylinder 11, and the like. The printing cylinder is configured to be capable of replacing a plate 20 on which an image for printing purpose is formed. The printing cylinder 11 has a printing cylinder cam 11a. The printing cylinder cam 11a is disposed at a position displaced in an axial direction so as to avoid interference with the ink roller group 10. A home position sensor 18 is provided in each of the printing units. The home position sensor 18 is configured so as to output a detection signal showing detection of the position of the printing cylinder cam 11a when the printing cylinder cam 11a that rotates in conjunction with rotation of the printing cylinder 11 has approached the home position sensor 18 most closely. A proximity sensor is used as the home position sensor 18. The home position sensor 18 is connected to a controller 19 to be described later.

FIG. 3 shows an exemplary schematic block diagram of a mechanism for storing the home position of the printing cylinder according to the embodiment of the present invention. The mechanism includes a driving device 16 for driving the printing press, a position sensor 17 that detects a pulse from an encoder (not shown), which generates a pulse in synchronism with rotation of the driving device 16, in synchronism with rotation of the driving device 16 and generates position information including an amount of rotation of the driving device 16, the home position sensors 18 provided in the respective printing units, and control unit 19. The control unit 19 is configured by use of a microprocessor 19a that performs arithmetic operation or the like, ROM 19b that stores data and a predetermined program (a computing equation, a table, and the like), RAM 19c that stores various pieces of information about the number of rotations of a machine or the like, an interface 19d that mediates exchange of various signals between the microprocessor 19a and a device disposed outside of the control unit 19, and the like.

FIG. 4 is an exemplary flowchart employed at the time of performance of operation for storing the home position of the printing cylinder according to the embodiment of the present invention. Operation for storing the home position of a printing cylinder of the present embodiment will be described hereunder.

In step S101, a check is made as to whether or not the home position is stored. When the home position is stored (step S101: YES), processing proceeds to step S106 (described later). When the home position is not stored (step S101: NO), a check is made as to whether or not the printing press is in idle state (step S102). The word “idle state” means the state of trial run achieved before actual printing operation or the state of driving achieved before stoppage of the printing press after printing operation. For example, in the case of a printing press having the capability of printing 15000 sheets per hour during printing operation, the printing cylinder remaining idle achieves a rotational speed of about 3000 to 5000 per hour. When the printing process is not in idle state (step S102: NO), a check is made as to whether or not a plate is in the process of being automatically replaced (step S103). When the plate is not in the process of being automatically replaced (step S103: NO), processing proceeds to step S106 to be described later. When the plate is in the process of being automatically replaced (step S103: YES), processing proceeds to step S104 as in the case where step S102 is YES.

In step S104, a check is made as to whether or not the printing cylinder 11a provided on the printing cylinder 11 has passed by the home position sensor 18. Namely, in step S104, a check is made as to whether or not the home position sensor 18 has detected the printing cylinder 11a. When the printing cylinder 11a has passed by the home position sensor 18, namely, when the home position sensor 18 has detected the printing cylinder 11a (S104: YES), the home position is stored in step S105. When the printing cylinder 11a has not passed by the home position sensor 18, namely, when the home position sensor 18 has not detected the printing cylinder 11a (S104: NO), processing proceeds to step S106 to be described later. In relation to detection of the printing cylinder cam 11a performed by this home position sensor 18, the printing cylinder cam 11a is determined to have passed by the home position sensor 18 in the present embodiment when at least three position information, each of which is generated by the position sensor 17 at a point when the home position sensor 18 has detected the position of the printing cam 11a, are continuously identical. The reason for this is that, since only the home position achieved after issuance of the command for automatic replacement of a plate, namely, since only the home position achieved in the circumstance where the rotation of the printing cylinder is very slow during automatic replacement of a plate, is available under the conventional method, once storage of the home position is sufficient. However, the rotational speed of the printing cylinder achieved in an idle state is about 3000 to 5000 per hour and pretty fast, as previously mentioned. Thus, single detection of the home position may not be sufficient to ensure accuracy. Hence, the home position is ascertained a plurality of times as mentioned above. The number of coincidences can also be set to four times or more arbitrarily. However, test ascertainment conducted by the present inventors shows that sufficiently-accurate detection can be performed by means of three coincidences.

Next, a check is made in step S106 as to whether or not the position of the printing cylinder 11a has been changed. As previously mentioned, as a result of fine adjustment of the top-and-bottom direction of the printing cylinder 11, a relative position between the printing cylinder cam 11a and the home position sensor 18 may be changed before and after fine adjustment, and the printing cylinder 11 may not stop at the appropriate plate replacement position. Accordingly, a change in the position of the printing cylinder cam 11a is ascertained. Specifically, a sensor such as a proximity sensor (not shown) is disposed in the vicinity of the printing cylinder 11. When the printing cylinder 11 is subjected to fine adjustment, the sensor detects a change in the position of the printing cylinder 11 and outputs a signal to the controller 19, whereby the change in the position of the printing cylinder cam 11a is ascertained. In addition, a signal is output to the controller 19 even if the proximity sensor (not shown) located in the vicinity of the home position sensor 18 has detected a change in the position of the home position sensor 18, such as a case where the operator has opened the covers of the respective printing units and the operator's hand has erroneously touched the home position sensor 18, thereby having changed the position of the home position sensor 18. When the position of this printing cylinder cam 11a remains unchanged, a series of routines are completed. Memory of the home position is deleted in step S107, so long as the change has been made to the home position, and a home position is stored anew.

In the present embodiment, description has been given of a case where the printing press has the automatic plate replacement function of automatically performing a round of plate replacement operations as disclosed in Japanese Patent No. 2704558. However, the printing press may also be a printing press of type which enables manual replacement of a plate. In this case, before the printing cylinder 11 is stopped for replacing a plate, the home position of the printing cylinder 11 is stored.

The home position storage unit of the printing press of the present invention is not limited to the previously-described embodiment and is susceptible to various alterations or modifications within the scope of the appended claims. For instance, in the present embodiment, the printing press is the sheet-fed offset printing press. However, the present invention is not limited to this type of printing press. Any printing press is available, so long as the machine has a printing cylinder. For instance, a web (a roll of paper) offset printing press or a photogravure printing press may also be available.

The home position storage unit and the home position storage method for use with a printing press of the present invention are considerably useful for a printing press having a printing cylinder.

According to the present invention, the home position storage unit previously stores the home position before replacement of a plate. During replacement of the plate, the printing cylinder can be brought into a stop at the plate replacement position without detecting the position of the home position sensor anew. A time for replacement of a plate is shortened correspondingly, and a printing press which enables shortening of a preparation time for printing can be provided.

Further, according to the present invention, detection information detected by the position sensor at a point in time when the home position sensor has detected the position of the printing cylinder is extracted a plurality of times. A home position is stored only when a coincidence exists in the plurality of results of extraction. Therefore, storage of an erroneous home position, which would otherwise be caused in accordance with erroneous detection information when the printing cylinder is rotating at high speed, is prevented. Accordingly, a printing press capable of storing an accurate home position can be provided.

Still further, according to the present invention, the home position is stored in the course of the printing press is in idle state. The home position can be stored by use of a time achieved before or after printing operation. Accordingly, a printing press capable of efficiently storing a home position can be provided.

Still further, according to the present invention, a home position is stored in advance before operation for replacement of a plate. Hence, the printing cylinder can be brought into a stop at the plate replacement position without causing the home position sensor to detect a home position again during replacement of a plate. Accordingly, the time for replacement of a plate is shortened correspondingly, and a print preparation time can be shortened.

Claims

1. A printing press comprising: a printing unit including a printing cylinder that is capable of replacing a plate;a driving device that drives the printing unit;a position sensor that detects a signal output in synchronism with rotation of the driving device and generates position information including an amount of rotation of the driving device;a home position sensor provided on the printing unit to detect a position of the printing cylinder in a rotating direction of the printing cylinder; anda home position storage unit that stores a home position of the printing cylinder by means of extracting position information generated by the position sensor at a point when the home position sensor has detected the position of the printing cylinder,wherein the home position storage unit stores the home position before an issuance of a command for replacement of a plate.

2. The printing press according to claim 1, wherein the position information at a point when the home position sensor has detected the position of the printing cylinder is extracted a plural number of times, andwherein the home position storage unit stores the home position when the plural number of extracted position information are identical.

3. The printing press according to claim 2, wherein the home position storage unit stores the home position when the plural number of extracted position information are continuously identical.

4. The printing press according to claim 2, wherein the home position storage unit stores the home position when at least three extracted position information are identical.

5. The printing press according to claim 1, wherein the home position storage unit stores the home position when the printing press is in idle state.

6. A home position storing method for use with a printing press, wherein the printing press comprising: a printing unit including a printing cylinder that is capable of replacing a plate;a driving device that drives the printing unit;a position sensor that detects a signal output in synchronism with rotation of the driving device and generates position information including an amount of rotation of the driving device; anda home position sensor provided on the printing unit to detect the position of the printing cylinder in a rotating direction of the printing cylinder,wherein the method comprises:storing a home position of the printing cylinder by means of extracting position information generated by the position sensor at a point when the home position sensor has detected the position of the printing cylinder, the home position being stored before an issuance of a command for replacement of a plate.

7. The home position storing method according to claim 6, wherein the storing the home position comprises: extracting the position information at a point when the home position sensor has detected the position of the printing cylinder a plural number of times; andstoring the home position when the plural number of extracted position information are identical.

8. The home position storing method according to claim 7, wherein the home position is stored when the plural number of extracted position information are continuously identical.

9. The home position storing method according to claim 7, wherein the home position is stored when at least three extracted data are identical.