Source: https://patents.google.com/patent/JP4727134B2/en
Timestamp: 2020-08-11 08:02:51
Document Index: 738496535

Matched Legal Cases: ['art 26', 'arts 27', 'art 23', 'art 24', 'art 25', 'art 26', 'art 30']

JP4727134B2 - Bookbinding machine - Google Patents
JP4727134B2
JP4727134B2 JP2003136819A JP2003136819A JP4727134B2 JP 4727134 B2 JP4727134 B2 JP 4727134B2 JP 2003136819 A JP2003136819 A JP 2003136819A JP 2003136819 A JP2003136819 A JP 2003136819A JP 4727134 B2 JP4727134 B2 JP 4727134B2
JP2003136819A
JP2003326870A (en
JP2003326870A5 (en
エンゲルト ホルゲル
ガルリクス ユールゲン
コルブス ゲーエムベーハー ウント ツェーオー カーゲーＫｏｌｂｕｓ ＧｍｂＨ ＆ Ｃｏ．ＫＧ
2002-05-15 Priority to DE10221542.1 priority Critical
2002-05-15 Priority to DE2002121542 priority patent/DE10221542A1/en
2003-05-15 Application filed by コルブス ゲーエムベーハー ウント ツェーオー カーゲーＫｏｌｂｕｓ ＧｍｂＨ ＆ Ｃｏ．ＫＧ filed Critical コルブス ゲーエムベーハー ウント ツェーオー カーゲーＫｏｌｂｕｓ ＧｍｂＨ ＆ Ｃｏ．ＫＧ
2003-11-19 Publication of JP2003326870A publication Critical patent/JP2003326870A/en
2006-06-22 Publication of JP2003326870A5 publication Critical patent/JP2003326870A5/ja
2011-07-20 Publication of JP4727134B2 publication Critical patent/JP4727134B2/en
238000004026 adhesive bonding Methods 0.000 claims description 20
The present invention relates to a bookbinding machine as described in the premise of claim 1.
A bookbinding machine of the type described above is described in, for example, Patent Document 1, and is also referred to as a perfect binding machine having a clamp mechanism. Each book block is pinched by a book block clamp in a state where the book block is stood down, and is conveyed through various stations in this state. Stations, stiffener pieces or gauze pieces that apply glue on the back and / or near the back, alongside the back of the book block, such as cutting, engraving, roughing and brushing A station for attaching a cover and a station for attaching a cover are provided. Furthermore, a station for drying and pressing and a station for carrying in and out of the product are provided. Various stations are provided in the binding machine depending on the product to be manufactured. There are, of course, limitations to providing a station due to the available space determined by the number of book block clamps.
A transport mechanism including a book block clamp has a plurality of book block clamps that can be moved by horizontal and vertical rollers in upper and lower guide rails forming a closed circulation path. The book block clamps are linked at equal intervals to an endless roller chain driven through a sprocket wheel in a known manner. Furthermore, the sprocket wheel is driven via a drive mechanism including a motor, a transmission gear, and a miter gear, and via a drive shaft that connects various components. For example, Patent Document 2 discloses a transport mechanism having a book block clamp. In this case, the book block to be sandwiched is brought into contact with the trailing edge stopper of the book block clamp when being transferred to the book block clamp.
In order to perform processing at an accurate periodic interval, a station for that purpose is connected to a driving mechanism of a book block clamp conveying mechanism directly mechanically connected via a so-called main shaft. Each connection of the drive is adjusted with reference to the trailing edge stopper of the book block clamp. Furthermore, a plurality of operation units that are operated in an air-operated manner or an electromechanical manner are provided in the perfect binding machine. In this case, the operation of these operation units is controlled by using a signal of a rotational position measuring mechanism arranged on the main shaft in order to detect an absolute rotational motion of the main shaft in the drive line of the main shaft of the binding machine. . The theoretical position of the book block clamp is evaluated by the respective angular position of this spindle.
German Patent No. 198464525 Application Specification [Patent Document 2]
German Patent No. 2458543 Invention Specification [Patent Document 3]
German Patent No. 3139656 Invention specification
However, the exact position of the individual book block clamps at a given point in time is not determined by this indirect measurement mechanism. This is because the vibration of the drive mechanism that affects the movement of the chain, the unevenly stretched part of the roller chain and the play in the drive link are not taken into account when determining the position of the book block clamp. is there. Processing operations depending on these are accordingly performed inaccurately. Also in a mechanically connected station, the chain elongation, ie the actual spacing in the chain pitch, can only be taken into account by adjusting the drive connection taking into account all book block clamps. Therefore, the same can be said, and in this case, the inaccuracy due to play and vibration of the synchronization operation becomes large because the drive connection portion extends spatially. However, particularly when attaching a cover, it is required to supply the cover accurately in accordance with the conveyance of the book block prepared for attaching the cover. Patent application title: Covering station in which a circulating alignment member for a cover moves between two book block clamps and is elastically braked and aligned by abutting against the book block clamp or the trailing edge of the book block 3 is known.
Accordingly, it is an object of the present invention to provide an apparatus of the kind described at the beginning, which can perform an accurate positioning operation at a work station with a simple configuration.
This object is achieved according to the invention by the features of claim 1. The idea of the present invention is to stop the mechanical connection of the drive unit of the work station with the drive unit of the transport mechanism of the book block clamp and drive them independently of each other. A measurement mechanism is provided for detecting the position of the book block clamp or book block in the vicinity of the work station for control to take place. Other adjacent work stations can also be controlled in response to this position detection. Work stations that are not mechanically coupled are driven by motor drive, hydraulic actuation, pneumatic actuation, or electromechanical. The drive mechanism is separated and divided into small partial mechanisms that are relatively hard to vibrate. Various tasks are performed very accurately. In the system according to the invention, the drive connection is not adjusted with reference to the trailing edge of the transported book block, so that the work station can be easily replaced or added. The advantage of the bookbinding machine according to the invention is that the work steps depending on the position of the book block, such as side binding, punching, gluing, reinforcement, cover-up, etc. are very simple. This is particularly characterized by a relatively small assembly space.
Preferred embodiments of the bookbinding machine according to the invention are described in the dependent claims. A preferred embodiment is obtained according to claims 2 to 7 when all the work stations conventionally mechanically coupled are driven independently from the drive of the transport mechanism of the book block clamp. Thereby, the main shaft can be omitted. However, for example, when the work station is used in a bookbinding machine having a different structure of the central drive mechanism, an advantage can be obtained by partially disengaging the mechanical connection.
A preferred embodiment is shown in claim 8. The bookbinding machine is equipped with a monitor station that performs optical quality control operations on the work performed, and this monitor station is controlled according to the detected exact position of the book block clamp or book block. Is done.
It is effective to attach a position control unit that synchronizes independent drive units to each other during operation and / or after operation interruption. Various control mechanisms can be incorporated. The work station arranged in the vicinity of the guide sprocket wheel of the traction means of the transport mechanism is advantageously controlled by a position signal of a rotational position measuring mechanism attached to the guide sprocket wheel. Thereby, the position of the book block clamp in this region is detected very accurately. According to claim 15, the position detection is preferably performed by a linear distance measuring mechanism. In this case, it is effective to use a plurality of detection heads in the area of each work station. Various tasks are basically performed more accurately. That is, the system according to the invention is automatically adapted to the changing circumstances of the transport mechanism of the book block clamp.
Work stations that are not mechanically connected are advantageously configured for various periodic intervals of the binding machine. These work stations are pre-selected and adjusted to this cycle interval when the book block clamp transport mechanism is used in a bookbinding machine having a fixed cycle interval. It is not necessary to use a different configuration depending on the cycle interval. Furthermore, the production, storage and preparation of this work station is very simple. In this case, according to claim 19, the work station is advantageously electronically adjustable with respect to the position of the book block or the height of the paper size.
The bookbinding machine 1 includes a transport mechanism 5 having a plurality of book block clamps 6 linked to an endless roller chain 7 that can continuously move in a closed circulation path, and back processing stations 30a, 30b, 30c and 30d, and back gluing stations 32a and 32b which are work stations that perform processing at an accurate position, side binding station 35, side gluing station 37, reinforcing station 40, cover attaching station 43, and pressing station 46. Yes. A book block 2 collated in pieces is bound in the bookbinding machine 1, and a temporary binding book 4 is produced by attaching a cover 3 in other processing. The book block 2 reaches the bookbinding machine 1 through the carry-in portion 24 while standing with its back, where it is brought into contact with the trailing edge stopper 12 and aligned and passed to the book block clamp 6. 6 starts from the open position 6a and sandwiches each book block 2 across the side surface by the inner jaw 10 and the outer jaw 11 closed with respect to the inner jaw 10, and at this time, a predetermined hanging portion is a book for processing. Projecting downward from the block clamp 6.
The book block clamp 6 can be moved in the transport direction F by the horizontal roller 13 and the vertical roller 14 in the upper and lower guide rails 15a and 15b forming a closed circulation path, and the book block clamp 6 is pivoted at the same pitch interval T. It is linked to the roller chain 7 via a pin 16. The roller chain 7 is driven via a drive sprocket wheel 8 and is turned back by a guide sprocket wheel 9 so as to form an oval circulation path. The drive sprocket wheel 8 is connected to a drive unit 22 including a motor 22a and a control unit 22b via a transmission unit 23. The drive unit 22 is monitored and controlled by a central position control unit 20 that communicates with peripheral control units 33, 36, 38, 41, 44, 47, and 50 via the signal line 21. The exact position of the drive unit 22 is transmitted to the position control unit 20 via the resolver feedback unit 55. The carry-in unit 25 that takes out the temporary binding book 4 from the book block clamp 6 opened by itself at the open position 6a is also mechanically coupled directly at the drive connection unit 26 and driven by the drive unit 22, In this case, the drive connection part 26 includes transmission parts 27 and 28. In the embodiment shown here, the other stations are not connected to the drive unit 22. Therefore, this drive mechanism is compact and has a simple structure.
Various stations are arranged along the straight path section of the transport mechanism 5, in which case the back of the book block is first cut sequentially by the back processing stations 30a, 30b, 30c, 30d, Engraved, roughened, brushed. The back processing stations 30a, 30b, 30c, and 30d are driven by the drive unit 31, respectively. Processing with reference to the periodic interval or position is not performed. Therefore, the drive unit 31 is simply turned on / off by the central position control unit 20.
After the spine has been processed, the back and the side surface near the back are then glued. In the present embodiment, the paste is taken out from the glue storage unit by a rotationally driven glue roller and transferred to the back, and at this time, two back glue stations 32a and 32b whose application thickness can be adjusted by a doctor are provided. Furthermore, the doctor is at the zero point position and can be controlled to apply glue to the exact position of the book block 2. The gluing roller is connected to a drive unit 34 which is configured by a frequency control type motor 34a and a control unit 34b and which is controlled by a host control unit 33. In this case, the air-driven or electromechanically driven doctor is also controlled by the control unit 33, and a signal from the resolver feedback unit 55 is referred to via the position control unit 20. A side gluing station 37 for gluing with a coating head 39 and a nozzle attached thereto is provided for gluing the side surface close to the back. The control unit 38 operates the valve of the coating head 39 attached thereto, and at this time, the signal of the position detector arranged just before the coating head 39 is referred to.
This position detector is placed in place by a measuring body 17 fixed on the book block clamp 6 with a measuring belt 18 with a periodic measuring scale protected by a cover belt 17a and a stop 53. This is a linear distance measuring mechanism having detection heads 52, 52a, 52b, and 52c. As the book block clamp 6 moves, an incremental signal and a distance-encoded reference signal obtained by the reference track 18a parallel to the measurement scale and indicating the absolute position of each book block clamp 6 is detected head 52. Is sent via the signal line 54. The exact position of the book block clamp 6 is detected by the detection head 52b for the side gluing station 37. Based on this, the control unit 38 considers the current operating speed of the bookbinding machine 1, the idle time of various actuators, and other influence amounts, and starts or ends the coating process according to a preset position. Determine the time.
A side binding station 35 is arranged in front of the side gluing station 37 for driving the binding wire through the book block 2 from the side of the region close to the back or driven into the book block 2 by a pneumatically operated binding head. Has been. The side binding station 35 operates in the same manner as the side gluing station 37. At this time, the attached control unit 36 receives a position signal from the detection head 52a. By arbitrarily monitoring the gluing and / or binding using a type of monitor station such as a monitor station 49 described later, the position is particularly examined and the deviation from the target position is calculated. The idle time of these actuators, which are fundamental to the various stations, namely the back gluing stations 32a, 32b, the side binding station 35, and the side gluing station 37, are suitably determined in the associated controls 33, 36 and 38. be changed. Adjustments are made for changing conditions.
The following stations 40, 43 and 46 are arranged in the area of the guide sprocket wheel 9. The position of the book block clamp 6 in this region can be calculated fairly accurately by the absolute angular position of the guide sprocket wheel 9, so that a measuring mechanism with a rotational position measuring device 51 is provided here. The position control unit 20 takes in the position signal generated here and passes control signals related thereto to the stations 40, 43, and 46 arranged there. These stations 40, 43, 46 are, in detail, a reinforcing station 40, a cover attaching station 43, and a pressing station 46. These stations 40, 43, 46 are respectively attached with driving units 42, 45, or 48 including servo motors 42 a, 45 a, or 48 a and servo control units 42 b, 45 b, or 48 b. Connected to the position control unit 20 and controls an operation unit in the reinforcement station 40, the cover attaching station 43, or the pressing station 46 that is not connected to the driving units 42, 45, or 48 of these stations, that is, is not operated by them. The other control units 41, 44, or 47 are arranged above the drive units 42, 45, or 48. The operations performed by positioning at the reinforcing station 40, the cover attaching station 43, and the pressing station 46, that is, the application of the reinforcing material stripe, the cover attaching, and the pressing of the cover to the back are performed by the reinforcing station 40, the cover covering. By detecting the position in the vicinity of the attaching station 43 and the pressing station 46, the position detection is performed more accurately than when the position detection by the resolver feedback unit 55 is referred to.
A monitoring station 49 for performing optical quality control operations is provided after the pressing station 46. For example, the position of the cover 3 in the book block 2 is checked. To this end, it is important to properly associate the appropriate signal of the optical passage sensor with the fully specified position of the book block clamp 6. The exact position of the book block clamp 6 is measured by a linear distance measuring mechanism, i.e. by a detection head 52c arranged in the monitor station 49. As already described above, a monitor station that performs quality control by image processing may be provided after the gluing unit. The glued back image of the book block, which is evaluated by this quality control, must be acquired by specifying the position of the book block clamp 6, and this position is determined by a linear distance measuring mechanism.
FIG. 1 is a plan view schematically showing a bookbinding machine including a block diagram of a drive unit and a control unit.
FIG. 2 is a perspective view showing a back side of a book block clamp.
1 bookbinding machine 2 book block 3 cover 4 temporary binding 5 transport mechanism 6 book block clamp 7 roller chain 8 drive sprocket wheel 9 guide sprocket wheel 10 inner jaw 11 outer jaw 12 trailing edge stopper 13 horizontal roller 14 vertical rollers 15a, 15b guide Rail 16 Axis pin 17 Measuring body 17a Cover belt 18 Measuring belt 18a Reference track 20 Position control section 21, 54 Signal line 22, 31, 34, 42, 45, 48 Driving section 22a, 34a Motor 22b, 33, 34b, 36 , 38, 41.44, 47, 50 Control part 23, 27, 28 Transmission part 24 Carry-in part 25 Carry-out part 26 Drive connection part 30a, 30b, 30c, 30d Back treatment station 32a, 32b Back gluing station 35 Side binding station 37 Side gluing station 3 9 Coating head 40 Reinforcement stations 42a, 45a, 48a Servo motors 42b, 45b, 48b Servo controller 43 Covering station 46 Press station 49 Monitor station 51 Rotating position measuring device 52, 52a, 52b, 52c Detection head 53 Stopper 55 Resolver Formula feedback section
A bookbinding machine (1) for processing a book block (2),
A plurality of book block clamps (6) linked to the circulating traction means (7) and capable of continuously moving in a closed circulation path are provided, and the book block clamps (6) align the book blocks (2). A transport mechanism (5) having a trailing edge stopper (12);
Back processing stations (30a, 30b, 30c, 30d) disposed in the region of the linear path section of the circulation path;
It is arranged in the region of the linear path section of the circulation path, and is glued at an accurate position, affixing a reinforcing material piece or a gauze piece, attaching a cover, binding with a binding wire, forming a perforation for cutting and cutting, Other work stations (32a, 32b, 35, 37, 40, 43, 46, ...);
In the bookbinding machine (1) provided with driving units (22, 34, 42, 45, 48, ...) for the transport mechanism and the work station of the book block clamp,
The transport mechanism (5) of the book block clamp (6) and at least one of the work stations (32a, 32b, 35, 37, 40, 43, 46, etc.) can each be driven independently. The plurality of independent drive units (22, 34, 42, 45, 48, 36, 38, 50) are operated in synchronization with each other by the position control unit (20) during operation and / or after operation interruption. In the vicinity of the work station, there is a measuring mechanism (51, 52, or 55) for detecting the position of the book block clamp (6) or the book block (2) in order to perform a positioning operation. A bookbinding machine provided for controlling a work station.
A cover attaching station (43) for accurately attaching the cover (3) to the drive unit (22) of the transport mechanism (5) of the book block clamp (6). The bookbinding machine according to claim 1, comprising a cover attaching station (43).
A gluing station (32a, 32b) for applying glue to a precise position on the back and / or side near the back of the book block (2), comprising a gluing roller that is driven to rotate, and a controlled doctor. Gluing stations (32a, 32b) capable of performing a unique drive operation and a unique control for the drive unit (22) of the transport mechanism (5) of the book block clamp (6). The bookbinding machine according to claim 1 or 2, wherein
An application head (39) for applying glue to a precise position on the back and / or side surface close to the back of the book block (2) using a nozzle, and the transport mechanism (5) of the book block clamp (6) The bookbinding machine according to any one of claims 1 to 3, further comprising a gluing station (37) capable of independent control of the drive unit (22).
Reinforcement station (40) for attaching a reinforcing material piece or a gauze piece to an accurate position, and it is possible to perform a unique driving operation with respect to the drive portion (22) of the transport mechanism of the book block clamp (6). The bookbinding machine according to any one of claims 1 to 4, comprising a reinforcement station (40).
At least one side binding station (35) for binding the book block (2) at an accurate position using a binding wire driven from the side, and the transport mechanism (5) of the book block clamp (6) The bookbinding machine according to any one of claims 1 to 5, comprising at least one side-binding station (35) capable of a unique drive operation with respect to the drive unit (22).
The book block clamp (6) has at least one pressing station (46) capable of performing a unique driving operation with respect to the driving unit (22) of the transport mechanism (5). The bookbinding machine according to claim 1, which is arranged after
Bookbinding according to any one of the preceding claims, wherein at least one work station is configured as an optical monitoring station (49) and the position of the cover (3) relative to the book block (2) is examined. Machine.
All the said drive parts are bookbinding machines of any one of Claim 1 to 8 comprised as a servo drive device.
The rotational position measuring mechanism (51) disposed on the guide wheel (9) for the pulling means (7) of the transport mechanism (5) has the book block clamp in the area of the station (43) where the cover is attached. Is connected to the position control unit (20), and the work station (40, 43, 46) in the vicinity of the guide wheel, at least the station (43) for attaching the cover, is connected to the position control unit (20). The bookbinding machine according to any one of claims 1 to 9 , which is controlled in accordance with position detection.
A measuring body (17) provided with a measuring belt (18), fixed to the book block clamp (6), and at least one detection head (52) arranged stationary in the area of the one work station; Is connected to the position control unit to accurately detect the position of the book block clamp (6), and at least the work station in the vicinity of the detection head (52), appropriate work station itself, are controlled in response to the position detection, binding machine according to any one of 0 claims 1 1.
Other detection head (52, 52a, 52 b, 52c) is provided in the region of the respective working stations, binding machine of claim 1 1.
A reference that is grasped, that is, detected when the book block clamp (6) is moving, is attached to the linear distance measuring mechanism that measures the absolute position of the book block clamp (6). The reference section can be detected by an optical passage sensor, as an edge of the book block clamp (6), as an edge of the book block (2) itself, or in a reference track (18a) in the measuring body (17) ) is formed as a bookbinding machine according to claim 1 1 or 1 2.
The plurality of work stations (32a, 32b, 35, 37, 40, 43, 46,...) That are independently driven with respect to the drive unit (22) of the transport mechanism (5) include the book block clamp ( 6) is arranged at various partial intervals of the transport mechanism (5), and when used in a specific bookbinding machine (1), it can be selected and adjusted in advance to the periodic interval of the bookbinding machine (1). possible, bookbinding machine according to any one of claims 1 1 3.
One or more positions of work performed on the book block (2 ) at the work stations (32a, 32b, 35, 37, 40, 43, 46,...) Via the servo drive device. The bookbinding machine of claim 9 , wherein the bookbinding machine is electronically adjustable.
JP2003136819A 2002-05-15 2003-05-15 Bookbinding machine Expired - Fee Related JP4727134B2 (en)
DE10221542.1 2002-05-15
DE2002121542 DE10221542A1 (en) 2002-05-15 2002-05-15 Bookbinding machine
JP2003326870A JP2003326870A (en) 2003-11-19
JP2003326870A5 JP2003326870A5 (en) 2006-06-22
JP4727134B2 true JP4727134B2 (en) 2011-07-20
ID=29285415
JP2003136819A Expired - Fee Related JP4727134B2 (en) 2002-05-15 2003-05-15 Bookbinding machine
US (1) US7210887B2 (en)
JP (1) JP4727134B2 (en)
CH (1) CH696492A5 (en)
DE (1) DE10221542A1 (en)
IT (1) ITMI20030957A1 (en)
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2003-05-07 CH CH7992003A patent/CH696492A5/en not_active IP Right Cessation
2003-05-13 IT ITMI20030957 patent/ITMI20030957A1/en unknown
2003-05-14 US US10/437,847 patent/US7210887B2/en not_active Expired - Fee Related
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ITMI20030957A1 (en) 2003-11-16
DE10221542A1 (en) 2003-11-27
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