EP0595761B1 - Plate clamping device for offset press - Google Patents
Plate clamping device for offset press Download PDFInfo
- Publication number
- EP0595761B1 EP0595761B1 EP19930810356 EP93810356A EP0595761B1 EP 0595761 B1 EP0595761 B1 EP 0595761B1 EP 19930810356 EP19930810356 EP 19930810356 EP 93810356 A EP93810356 A EP 93810356A EP 0595761 B1 EP0595761 B1 EP 0595761B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- plate
- clamping
- cylinder
- clamp
- printing
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F27/00—Devices for attaching printing elements or formes to supports
- B41F27/12—Devices for attaching printing elements or formes to supports for attaching flexible printing formes
- B41F27/1206—Feeding to or removing from the forme cylinder
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F27/00—Devices for attaching printing elements or formes to supports
- B41F27/12—Devices for attaching printing elements or formes to supports for attaching flexible printing formes
- B41F27/1218—Devices for attaching printing elements or formes to supports for attaching flexible printing formes comprising printing plate tensioning devices
- B41F27/1225—Devices for attaching printing elements or formes to supports for attaching flexible printing formes comprising printing plate tensioning devices moving in the printing plate end substantially rectilinearly
- B41F27/1231—Devices for attaching printing elements or formes to supports for attaching flexible printing formes comprising printing plate tensioning devices moving in the printing plate end substantially rectilinearly by translatory motion substantially tangential to support surface
Definitions
- the present invention relates to a plate clamping device for use in an offset press according to the preamble of claim 1. More particularly, the present invention pertains to a device which is able to adequately clamp an end of a printing plate mounted on a plate cylinder.
- DE-B-2.213.614 discloses a device for fixing and adjusting of flexible printing plates on a printing cylinder.
- the printing plates are fixed on sliding rails of the printing cylinder.
- the printing cylinder includes locating faces that are arranged in an angle to each other.
- the sliding rails can be adjusted on the printing cylinder and in relation to the locating faces.
- EP-A-0431.575 describes a mounting apparatus for a printing press for winding a plate around the circumferential surface of a plate cylinder.
- the mounting apparatus includes no means for biasing a clamping mechanism for the printing plate along the axial direction of the plate cylinder.
- Fig. 25 shows a general mechanical composition of an offset press machine.
- the offset press includes a group of rollers, a plate cylinder 200, a blanket cylinder 210, and an impression cylinder 211.
- Ink and water are fed from a group of inking rollers 212 and moistening rollers 213, respectively.
- the ink and the water are mixed.
- the mixture of the ink and water is applied to a printing plate 204 mounted on the plate cylinder 200.
- the inked image is transferred to a blanket 214 mounted on the blanket cylinder 210 from the plate 204.
- the wet image over the blanket 214 is printed onto printing sheets Pa carried on the impression cylinder 211.
- the state of the printing plate is transferred to the sheets.
- the correct settings of the printing plate 204 on the plate cylinder 200 is a decisive factor of printing quality.
- a groove 201 extending perpendicularly to the drawing sheet is formed on the outer peripheral surface of the cylinder 200.
- a first and a second plate clamps 202, 203 are disposed in the groove 201 to clamp the top and bottom ends of the plate 204, respectively.
- the clamps 202, 203 are forcively moved in the radial direction in respect to the cylinder 200 for the opening motion.
- the holding portions of the clamps 202, 203 are moved in the peripheral direction of the plate cylinder 200 for the opening motion.
- the plate 204 is made of an aluminum thin plate the both ends of which are folded back. The folded ends of the plate 204 are adequately placed in the holding portions to be securely clamped by the clamps 202, 203.
- the plate 204 is held on the outer periphery of the cylinder 200.
- the first clamp 202 is fixed to the cylinder 200.
- a pair of torsion adjusting screws 208, 209 is disposed in the distal end of the second clamps 205, 206, so as to be advanced or retreated.
- the distal end of each torsion adjusting screw 208, 209 is in contact with the inner wall of the groove 201, respectively.
- the plate 204 mounted on the cylinder 200 is under the torsion as shown in the chain line in Fig. 23.
- a screw 207 is provided to adjust the distance between two second clamps 205, 206.
- a pair of screws 208, 209, for eliminating the torsion of the printing plate 204, is disposed in the distal end of the second clamps 205, 206 so as to be advanced or retreated. The distal end of each screw 208, 209 is in contact with the inner wall of the groove 201.
- the printing sheet Pa held on the impression roller 211 is under the printing pressure.
- the water being supplied from the moistening rollers 213 to the plate cylinder 200 moistens the sheets Pa.
- the pressure applied on the moistened sheets Pa cause to expand an end of each sheet Pa, as shown by chain line, when the multicolor printing is performed.
- This deformation is referred as "fanout" by the skill in the art.
- This fanout deformation is eliminated as the sheets Pa dries. Therefore, if further printing is made on these deformed sheets Pa, the printing image would shrink in the dried sheets Pa with the original size.
- the screws 208, 209 are advanced, the screw 207 is manipulated to widen the distance between the clamps 205, 206 and expand the end of the printing plate 204.
- the above object is achieved by the easy adjusting operation of the length of second clamp mechanism along the axial direction of the plate cylinder.
- the plate clamping device according to the invention is characterized by the features of the characterizing part of the independent claim 1.
- a connecting member is manipulated to change the distance between clamping modules.
- the length of the second clamping mechanism is expanded or shortened.
- the end of the second clamping mechanism is pressed to the inner wall of the groove by the force of a biasing member. Therefore, the length of the second clamping mechanism can be easily adjusted in the axial direction with respect to the plate cylinder.
- FIG. 1 A preferred embodiment of a plate clamping device according to the present invention will now be described referring to Figs. 1 through 21.
- Fig. 1 shows a three-color offset press 100.
- the offset press 100 includes a first-color printing unit 101, a second-color printing unit 102 and a third-color printing unit 103.
- a feeder 104 is disposed in the vicinity of the first-color printing unit 101 at the feeding side.
- a delivery unit 105 is disposed near the third-color printing unit 103 at the delivery side.
- ink is fed to a plate cylinder 1 via inking rollers 110.
- water is supplied to the plate cylinder 1 via moistening rollers 111.
- On the cylinder 1 is mounted a printing plate 3 (Figs. 7 and 11) on which the ink and the water are mixed with each other.
- the ink left on the plate 3 in the form of images is transferred to a blanket mounted on a blanket roller 114.
- Printing sheets Pa are fed from the feeder 104 to the first-color printing unit 101 via a delivery cylinder 112.
- the printing sheet Pa held on the outer periphery of an impression cylinder 113 comes to contact with the outer periphery of the blanket cylinder 114. While the printing sheet Pa is in contact with the outer periphery of the blanket cylinder 114, the inked images in the first color transferred to the blanket are printed on the sheet Pa. Printing is made all over the printing sheet Pa when the blanket cylinder 114 is rotated by the rotation of the impression cylinder 113. Then, the printing sheet Pa is fed to an impression cylinder 113 of the second-color printing unit 102 via a delivery cylinder 115.
- the sheet Pa held on the cylinder 113 comes to contact with the outer periphery of a blanket cylinder 114. Then, the inked images of the blanket are transferred to the sheet Pa in the same way as carried out in the first unit 101.
- the sheet Pa is fed to the third-color printing unit 103.
- the printed sheet Pa is fed to the delivery unit 105, and the printing procedure is completed.
- the plate cylinder 1 is rotatably supported between side walls 4a, 4b of the first-color printing unit 101.
- the cylinder 1 is designed to carry the printing plate 3 (Fig. 11) on its outer peripheral surface.
- the plate 3 is made of a thin and flat aluminum.
- a plate holding mechanism F is provided between the side walls 4a, 4b to hold the plate on the plate cylinder 1.
- a groove 2 extends in the longitudinal direction of the plate cylinder, i.e., in the axial direction of the plate cylinder 1.
- a first plate clamp A and a second plate clamp B are disposed in the groove 2.
- the clamps A, B extend in the longitudinal direction of the groove 2 so as to face each other.
- the first plate clamp A seizes the top end of the plate 3, while the second plate clamp B seizes the bottom end of the plate 3.
- the plate clamps A, B are spaced in the peripheral direction of the cylinder 1.
- the clamping portions of the first and second plate clamps A, B are moved in the radial direction of the cylinder 1 for the opening or closing motions.
- the second plate clamp B has at its each end an adjusting mechanism C for adjusting the torsion of the plate 3 with respect to the cylinder 1.
- a clamp activating mechanism D is disposed at the right end of the cylinder 1. The mechanism activates the first and second plate clamps A , B to seize the plate 3.
- a clamp moving mechanism E is disposed at the left end of the plate cylinder 1 to bring the second clamp B towards the first clamp A or away therefrom.
- the first clamp A is hereinafter described.
- a longitudinally extending clamping block 10 is disposed in the groove 2.
- a bearing 19 is fixed to the central portion of the clamping block 10.
- the clamping block 10 is rotatably attached to the cylinder 1 by a bolt 9. The bolt 9 is inserted through the clamping block 10 and the bearing 19, and screwed into the inner bottom of the groove 2.
- a pair of movable clamping plates 12 are disposed on the clamping block 10.
- the movable clamping plates 12 are attached to the respective clamping blocks 10 by means of a plurality of bolts 13 with an allowance for the upward or downward movement of the movable plate 12.
- the bolts 13 are screwed into the clamping blocks 10.
- a washer 14 is disposed between each movable clamping plate 12 and bolt 13.
- Each clamping block 10 has a cam way 10a at the top of its inner end.
- the cam way 10a extends longitudinally with respect to the block 10 .
- Each clamping plate 12 has a step 12a at the bottom of its inner end.
- the step 12a extends longitudinally with respect to the plate 12 so as to face the cam way 10a.
- a cam shaft S1 set in the cam way 10a opposes the step 12a.
- the cam shaft S1 extends along the first plate clamp A up to the vicinity of the side wall 2b of the groove.
- a cam face Sa is formed on the cam shaft S1.
- a plurality of spring housing holes 16 are provided with each clamping block 10.
- the holes 16 are disposed on the opposite side of the cam way 10a with respect to the bolt 13 so as to face the clamping plates 12.
- a compression coil spring 15 disposed in each hole 16 faces the clamping plate 12.
- the step 12a is continuously pressed against the cam shaft S1 by the force of each spring 15.
- the outer end of each clamping plate 12 is held open and faces the clamping block 10. Therefore, as shown in Fig. 9, when the cam face Sa is in contact with the chipped portion 12a, the outer end of each clamping plate 12 is kept open by the spring 15.
- the cam face Sa is not in contact with the chipped portion 12a, the outer end of the clamping plate 12 is kept close by the spring 15.
- a connecting shaft 18 rotatably supported by the side wall 2b is connected with the outer end of the cam shaft S1 by way of a cylindrical coupling 17.
- the second clamp B will be described hereinafter.
- a pair of clamping blocks 20 are spaced in the groove 2.
- Each clamping block 20 can be moveable between two positions shown by solid line in Figs. 11 and 13, respectively.
- a moveable clamping plate 21 is disposed on the top of each clamping block 20.
- the plates 21 are attached to the blocks 20 by means of bolts 22.
- the plate 21 are allowed to upward or downward movement.
- the bolt 22 is inserted through the plate 21, and screwed into the block 20.
- a washer 23 is placed between the plate 21 and the bolt 22.
- Each clamping block has a cam way 20a extending longitudinally at the top of the inner end of each block 20.
- a chipped portion 21a is formed at the bottom of the inner end of each plate 21.
- the chipped portion 21a extends longitudinally with respect to the plate 21 and faces the corresponding cam way 20a.
- a cam shaft S2 disposed in the cam way 20 faces the step 21a.
- the cam shaft S1 longitudinally extends along the second clamp B up to the vicinity of the side wall 2b of the groove.
- a cam face Sb is formed on the cam shaft S2.
- each block has a plurality of spring housing holes 25 facing the plates 21 at the opposite side of the cam way 20a with respect to the bolt 22.
- Each hole 25 accommodates a compression coil spring 24.
- the step 21a is continuously pressed against the cam shaft S2 by the force of each spring 24.
- the outer end of each clamping plate 21 is biassed in the opening direction with respect to the block 20.
- Each block 20 has an outer end protruding from the outer end of each clamping plate 21.
- a chamfer 20c is formed with the end corner of each block 20 in order to guide the plate 3 smoothly.
- a connecting shaft 27 is rotatably supported by the side wall 2b.
- the shaft 27 is connected with the outer end of the cam shaft S2 by way of a coupling 26.
- a pair of engaging grooves 26a, 26b are formed at the both ends of the coupling 26 to lie perpendicularly to each other.
- An engaging projection 28 formed on the cam shaft S2 and an engaging projection 27a formed on the connecting shaft 27 engage with each other in the grooves 26a, 26b. More specifically, two projections 27a, 28 are engaged one with another so as to be slidable in the radial direction of the coupling 26.
- the coupling 17 described above has the same structure as the coupling 26.
- the connecting shaft 18 and the cam shaft S1 are connected to the coupling 17 so as to be able to slide in the radial direction of the coupling 17.
- a plurality of spring housing holes 20b are provided with each blocks 20.
- a plurality of coil springs 29 is held between holes 20b and the inner surface of the groove 2.
- Each block 20 is biassed against the first clamp A by the force of each spring 29.
- the adjusting mechanism C will be hereinafter described.
- a connecting block 34 is disposed between clamping blocks 20.
- the connecting block 34 is slidable along the bottom of the groove 2.
- An elongate through hole 34a is provided with the connecting block 34.
- the hole 34a extends in the axial direction of the plate cylinder 1.
- a rod 30 is inserted in the block 34 by way of the hole 34a, and rotatably supported thereby so as to connect two clamping blocks 20.
- Male screw portions 30a, 30b are formed at the ends of the rod 30, respectively.
- the both portions 30a, 30b are threaded in the opposite directions such that the both portions 30a, 30b are driven forward or backward through female screw portions 31 formed at the end of each clamping block 20.
- a worm wheel 30c is formed at the central portion of the rod 30.
- an elongate through hole 34b is provided with the block 34.
- the hole extends perpendicularly and communicats with the hole 34a.
- a worm 32 engaged with the worm wheel 30c is rotatably held in the hole 34b for the simultaneous turning movement with the rod 30. This turning movement of the rod drives the screws 30a, 30b forward or backward to bring the clamping blocks 20 to or away from each other. In other words, the length of the second plate clamp B can be freely adjusted.
- an elongate through hole 34c is provided with the rod 34.
- the hole 34c extends in parallel with the hole 34a.
- a guide pin 33 is firmly fixed into the hole 34c.
- the guide pin 33 is slidably held in a hole 46 formed at the end of each clamping block 20.
- the guide pin 33 is for guiding the moving block 20 when the length of the clamp B is adjusted.
- a hole 36 is formed on the right side of the block 20.
- a plunger 37 with a coil spring 35.
- the plunger 37 is arranged to slide in the axial direction of the cylinder 1.
- a ball 37a rotatably supported at the outer end of the plunger 37 is in contact with the side wall 2b.
- the right end of the plunger 37 is biassed to the side wall 2b by the force of the spring 35.
- a female screw 38 is formed at the left end of the block 20.
- An adjusting bolt 39 is screwed into the screw 38.
- a ball 39a rotatably supported at the outer end of the adjusting bolt 39 is in contact with the wall 2c of groove 2.
- a nut 39b is firmly mounted on the adjusting bolt 39.
- the second plate clamp B can be moved in the axial direction of the plate cylinder 1 by adjusting the amount of the inserting length of the female screw 38 into the clamping block 20.
- the clamp activating mechanism D will be hereinafter described.
- the clamp activating mechanism D includes a first and a second clamp activating mechanic portion D1, D2.
- the mechanic portion D1 is designed to activate the first plate clamp A, while the second mechanic portion D2 is designed to activate the second plate clamp B.
- a plate clamping lever 40 is fixed to the shaft 18 which is connected to the cam shaft in Fig. 2.
- a plate clamping roller 41 is rotatably supported by a shaft 41a at the end portion of the lever 40.
- a plate releasing lever 43 is pivotally supported by a pivot 43a on the side wall 2b.
- An abutting portion 43b is integrally formed with the lever 43.
- the abutting portion 43b extends to contact the pivoting locus of the roller 41.
- a plate releasing roller 45 is rotatably supported by the shaft 45a.
- the second clamp activating mechanism D2 is hereinafter described.
- a lever 50 is fixed on the connecting shaft 27 connected to the cam shaft S2.
- a plate clamping roller 51 and a plate releasing roller 52 are rotatably supported by shafts 51a and 52a, respectively.
- the plate clamp moving mechanism E is hereinafter described.
- a plurality of block-shaped bases 60 are fixed to the inner surface of the groove 2 between the first and second clamps A, B.
- a guiding groove 60a extends in the peripheral direction of the cylinder 1.
- a rack 62 fixed to inner surface of each block 20 is slidably disposed inside the guiding groove 60a.
- a driving shaft S3 is rotatably disposed, by way of bearings, between the both side walls 2b, 2c of the groove 2 such that the shaft S3 extends in the axial direction of the cylinder 1.
- pinions 61 are formed around the shaft S3 in the conformity to the racks 62 so that each pinion 61 is arranged to engage with each rack 62.
- a spur gear 63 is fixed to the end of the shaft S3.
- a first lever 64 is pivotally supported by the shaft 64a on the wall 2c in the vicinity of the spur gear 63.
- a second lever 65 is pivotally supported by a shaft 65a on the wall 2c at the opposite side to the first lever 64 with respect to the shaft S3.
- External gears 64b, 65b are formed on the outer periphery of the base of the first and second levers 64, 65. The gears 64b, 65b are engaged with the spur gear 63.
- the tapered abutting portions 64c, 65c are integrally formed with the first and second levers 64, 65, respectively.
- the cylinder 1 is turned. Then, the portion 64c is moved to the position where the portion 64c can meet the end of the arm 66.
- the cylinder 1 is turned, and the portion 65c is moved to the position where the portion 65c meets the arm 66 and can contact the end thereof.
- the arm 66 reciprocates in the radial direction of the cylinder 1 with aid of an air cylinder (not illustrated).
- the block 20 returns from the solid line position to the chain line position shown in Fig. 13 according to the force of the spring 29. Then, the second clamp B can spread the plate 3 on the peripheral surface of the cylinder 1 without any slackness. Then, as shown in Fig. 15, the shaft S3 is turned clockwise. Resultingly, the first and second levers 64, 65 return to the solid line position shown in Fig. 14 before the plate 3 is clamped.
- a plate holding mechanism F is hereinafter explained.
- a U-type connection fitting 71 is connected to an end of a rod 70a of an air cylinder 70.
- a proximal end of a link 72 is rotatably connected to the fitting 71 by a pin 73.
- a distal end of the link 72 is fixed on the shaft 72.
- the shaft 74 is rotatably supported on the side walls 4a, 4b.
- a pair of links 75 is fixed on the shaft 74 between the side walls 4a, 4b.
- a roller shaft 76 is rotatably supported by the distal ends of the connecting links 75.
- a roller 79 is rotatably supported by the shaft 76 via bearings (not illustrated) such that the roller extends in the axial direction of the cylinder 1.
- the roller 79 is located in the waiting position.
- the roller 79 is located in the working position where the roller 79 forces the plate 3 against the cylinder 1.
- a swinging lever 78 has an end fixed to the right end of the shaft 76.
- a torsion coil spring 77 is loosely set on the shaft 76 between the link 75 and lever 78. The ends of the spring 77 are hooked on the link 75 and lever 78, respectively.
- a roller 80 is rotatably supported at the end of a shaft 81 connected to the lever 78.
- a pair of driven levers 82 is fixed to the shaft 76 between the side walls 4a, 4b. The levers 82 are arranged to swing together with the shaft 76 between the waiting position and the working position, shown in Figs. 18 and 19, respectively.
- a supporting rod 83 is fixed to the end of the driven levers 82 by means of machine screws 84 such that the rod 83 extends between the levers 82 in the axial direction of the roller 79.
- a pair of clamping plates 85 is fixed on an end of the rod 83 such that the plates 85 extend in the axial direction of the roller 79.
- a blade like member 86 made of the hard rubber is narrowly fixed between the plates 85 by means of screw or the equivalent. A first end of the blade 86 protrudes from the clamping plates 85. A second end of the blade 86 is formed slant.
- a plate holding cam 87 is fixed by means of a pair of machine screws 88 on the right side of the cylinder 1.
- An elongate hole 87a formed with the cam 87 adjusts the position thereof.
- the above printing unit is operated as follows.
- the position of the plate holding cam 87 is adjusted. As shown in Fig. 11, when the plate 12 of the first clamp A is opened, the top end of the plate 3 is guided between the block 10 and the plate 12. Then, when the operation switch (not illustrated) is manipulated, the arm 42 is moved by an air cylinder (not illustrated) in the axial direction (shown by the chain line) of the cylinder 1. After, the roller 41 is beaten by the arm 42 and the lever 40 is pivoted clockwise.
- the portion 43b pressed by the roller pivots the lever 43 counterclockwise.
- the arm 42 After beating the roller 41, the arm 42 returns to the original position so as to turns the cylinder 1 in the counterclockwise direction viewed in Fig. 12. Subsequently, as shown in Fig. 10, the cylinder 1 comes to stop at the position where the roller 51 meets the arm 42.
- the roller 51 is kept at the stopping position to meet the arm 42.
- the arm 66 is moved by the air cylinder (not illustrated) in the radial direction of the cylinder 1 (shown by the chain line arrow) when the operation switch (not illustrated) is manipulated in this state. Then, the portion 64c is beaten by the driving arm 64, resulting in the pivoting movement of the first and second levers 64, 65. Therefore, the shaft S3 is turned counterclockwise.
- each pinion 61 of the shaft S3 is turned counterclockwise in order for each rack 62 to move in the direction of the chain arrow against the force of the spring 29 together with the block 20.
- the bottom end of the plate 3 is precisely placed between the block 20 and the plate 21 while being sliding over the chamfer 20c of the block 20. At this time, the arm 66 remains in contact with the portion 64c.
- the arm 42 After beating the roller 51, the arm 42 returns to the original position.
- the cylinder 70 is activated to return the rod 70a to the contracted position.
- the roller 79 and the blade 86 separate from the cylinder 1 in the sequence reverse to the above.
- the plate 3 is mounted on the cylinder 1 with the top and bottom ends clamped by the first and second plate clamps A, B, respectively.
- the arm 66 is moved in the direction of chain line, resulting in the movement of the block 20 in accordance with the force of spring 29.
- the plate 3 is tightly mounted on the cylinder 1.
- the rack 62 is moved in the same direction as the block 20.
- the pinion 61 and the driving shaft S3 are turned clockwise in Fig. 15.
- the first and second levers 64, 65 are pivoted counterclockwise in Fig. 14, and return from the chain line position towards the solid line position.
- the cylinder 1 When the plate 3 is to be detached from the cylinder 1, the cylinder 1 is turned in the reverse direction by manipulating the operation switch (not illustrated). Then, the portion 65c is moved to the position where the portion 65c is beaten by the end of the arm 66. The spur gear 63 and the driving shaft S3 are turned by the arm 66 in the same direction as clamping the plate 3. The block 20 is moved in the direction as shown by the chain line arrow in Fig. 15. As a result, the tension of the plate 3 against the cylinder 1 is released. At this time, the end of the arm 60 remains in contact with the portion 65c.
- the arm 66 is returned to the original position.
- the clamping block 20 is also returned to the waiting position shown with the solid line in Figs. 11 and 12.
- the plate cylinder 1 is turned for releasing the roller 45 to move and meet the end of the arm 42.
- the end of the arm 42 is beaten by the roller 45.
- the roller 41 is beaten by the portion 43b, and turned in the releasing direction , i.e. counterclockwise viewed in Fig. 9.
- the connecting shaft 18, S1 are turned in the releasing direction.
- the cam face Sa comes to contact the step 12a.
- the clamping plate 12 is opened by the force of the spring 15.
- the top end of the plate 3 is released from the first clamp A.
- the arm 42 thus, returns to the original position after beating the roller 45.
- the nut 39b is turned to advance the bolt 39 in the protruding direction of the chain line arrow in Fig. 3.
- the spring 35 is compressed, as shown in Fig. 5, for moving the blocks 20 of the second clamp B in the direction of the chain line arrow against the force of the spring 35.
Landscapes
- Supply, Installation And Extraction Of Printed Sheets Or Plates (AREA)
Description
- The present invention relates to a plate clamping device for use in an offset press according to the preamble of
claim 1. More particularly, the present invention pertains to a device which is able to adequately clamp an end of a printing plate mounted on a plate cylinder. - DE-B-2.213.614 discloses a device for fixing and adjusting of flexible printing plates on a printing cylinder. The printing plates are fixed on sliding rails of the printing cylinder. The printing cylinder includes locating faces that are arranged in an angle to each other. The sliding rails can be adjusted on the printing cylinder and in relation to the locating faces.
- EP-A-0431.575 describes a mounting apparatus for a printing press for winding a plate around the circumferential surface of a plate cylinder. The mounting apparatus includes no means for biasing a clamping mechanism for the printing plate along the axial direction of the plate cylinder.
- Fig. 25 shows a general mechanical composition of an offset press machine. The offset press includes a group of rollers, a
plate cylinder 200, ablanket cylinder 210, and animpression cylinder 211. Ink and water are fed from a group of inkingrollers 212 andmoistening rollers 213, respectively. The ink and the water are mixed. The mixture of the ink and water is applied to aprinting plate 204 mounted on theplate cylinder 200. The inked image is transferred to ablanket 214 mounted on theblanket cylinder 210 from theplate 204. Subsequently, the wet image over theblanket 214 is printed onto printing sheets Pa carried on theimpression cylinder 211. Thus, the state of the printing plate is transferred to the sheets. - Therefore, the correct settings of the
printing plate 204 on theplate cylinder 200 is a decisive factor of printing quality. - As shown in Figs. 22 and 23, a
groove 201 extending perpendicularly to the drawing sheet is formed on the outer peripheral surface of thecylinder 200. A first and asecond plate clamps groove 201 to clamp the top and bottom ends of theplate 204, respectively. Theclamps cylinder 200 for the opening motion. The holding portions of theclamps plate cylinder 200 for the opening motion. Theplate 204 is made of an aluminum thin plate the both ends of which are folded back. The folded ends of theplate 204 are adequately placed in the holding portions to be securely clamped by theclamps plate 204 is held on the outer periphery of thecylinder 200. - As shown in Fig. 23, the
first clamp 202 is fixed to thecylinder 200. A pair oftorsion adjusting screws second clamps torsion adjusting screw groove 201, respectively. - The
plate 204 mounted on thecylinder 200 is under the torsion as shown in the chain line in Fig. 23. Ascrew 207 is provided to adjust the distance between twosecond clamps screws printing plate 204, is disposed in the distal end of thesecond clamps screw groove 201. - The printing sheet Pa held on the
impression roller 211 is under the printing pressure. The water being supplied from themoistening rollers 213 to theplate cylinder 200 moistens the sheets Pa. The pressure applied on the moistened sheets Pa cause to expand an end of each sheet Pa, as shown by chain line, when the multicolor printing is performed. This deformation is referred as "fanout" by the skill in the art. This fanout deformation is eliminated as the sheets Pa dries. Therefore, if further printing is made on these deformed sheets Pa, the printing image would shrink in the dried sheets Pa with the original size. To counter this fanout, thescrews screw 207 is manipulated to widen the distance between theclamps printing plate 204. - However, two
screws screw 207 disposed at the ends of and between theclamps printing plate 204. This troublesome adjusting operation causes the efficiency of the work to be lowered. - Therefore, it is an object of the present invention to provide a plate clamping device capable of readily countering the fanout deformation of printing sheets.
- The above object is achieved by the easy adjusting operation of the length of second clamp mechanism along the axial direction of the plate cylinder. And the plate clamping device according to the invention is characterized by the features of the characterizing part of the
independent claim 1. - When the length of the second clamping mechanism is to be adjusted, a connecting member is manipulated to change the distance between clamping modules. As a result, the length of the second clamping mechanism is expanded or shortened. At this time, the end of the second clamping mechanism is pressed to the inner wall of the groove by the force of a biasing member. Therefore, the length of the second clamping mechanism can be easily adjusted in the axial direction with respect to the plate cylinder.
- The invention may best be understood by reference to the following description of the presently preferred embodiments together with the accompanying drawings in which:
- Figure 1 is a schematic view showing of an offset press embodying according to the present invention;
- Figure 2 is a plan view showing a plate cylinder;
- Figure 3 is a plan view showing a first plate clamp and a second plate clamp;
- Figure 4 is a plan view showing the second plate clamp;
- Figure 5 is also a plan view showing the second plate clamp;
- Figure 6 is a plan view showing an adjusting mechanism;
- Figure 7 is a development of the plate cylinder;
- Figure 8 is a cross sectional view showing the adjusting mechanism;
- Figure 9 is a side view showing a first clamp adjusting mechanism;
- Figure 10 is a side view showing a second clamp adjusting mechanism;
- Figure 11 is a cross sectional view taken along line X-X of Figure 2, illustrating the state before a first plate clamp clamps a printing plate;
- Figure 12 is a cross sectional view taken along line X-X of Figure 2, illustrating the state after the first plate clamp clamps the printing plate;
- Figure 13 is a cross sectional view taken along line X-X of Figure 2, illustrating the state after a second plate clamp clamps the printing plate;
- Figure 14 is a side view showing a moving mechanism;
- Figure 15 is a cross sectional view taken along line Y-Y of Figure 2, illustrating the state after the movement of the second plate clamp by means of the moving mechanism;
- Figure 16 is a cross sectional view showing a central part of the first plate clamp;
- Figure 17 is a plan view showing the plate cylinder and a plate holding mechanism;
- Figure 18 is a plan view showing the plate holding mechanism;
- Figure 19 is a cross sectional view taken along line Z-Z of Fig. 17, illustrating the state after a roller of the plate holding mechanism is positioned in the waiting position;
- Figure 20 is a cross sectional view taken along line Z-Z of Fig. 17, illustrating the state after a roller of the plate holding mechanism is positioned in the working position;
- Figure 21 is a cross sectional view taken along line Z-Z of Fig. 17, illustrating the state after a blade of the plate holding mechanism holds the bottom end of the printing plate;
- Figure 22 is a diagrammatic cross sectional view showing the conventional plate cylinder;
- Figure 23 is a development of the conventional plate cylinder;
- Figure 24 is a descriptive schematic illustrating a printing sheet deformed by fanout; and
- Figure 25 is a schematic view showing a general type offset press.
- A preferred embodiment of a plate clamping device according to the present invention will now be described referring to Figs. 1 through 21.
- Fig. 1 shows a three-color offset
press 100. The offsetpress 100 includes a first-color printing unit 101, a second-color printing unit 102 and a third-color printing unit 103. Afeeder 104 is disposed in the vicinity of the first-color printing unit 101 at the feeding side. Adelivery unit 105 is disposed near the third-color printing unit 103 at the delivery side. In each of theprinting units plate cylinder 1 via inkingrollers 110. On the other hand, water is supplied to theplate cylinder 1 via moisteningrollers 111. On thecylinder 1 is mounted a printing plate 3 (Figs. 7 and 11) on which the ink and the water are mixed with each other. The ink left on theplate 3 in the form of images is transferred to a blanket mounted on ablanket roller 114. - Printing sheets Pa are fed from the
feeder 104 to the first-color printing unit 101 via adelivery cylinder 112. - The printing sheet Pa held on the outer periphery of an
impression cylinder 113 comes to contact with the outer periphery of theblanket cylinder 114. While the printing sheet Pa is in contact with the outer periphery of theblanket cylinder 114, the inked images in the first color transferred to the blanket are printed on the sheet Pa. Printing is made all over the printing sheet Pa when theblanket cylinder 114 is rotated by the rotation of theimpression cylinder 113. Then, the printing sheet Pa is fed to animpression cylinder 113 of the second-color printing unit 102 via adelivery cylinder 115. - In the
unit 102, the sheet Pa held on thecylinder 113 comes to contact with the outer periphery of ablanket cylinder 114. Then, the inked images of the blanket are transferred to the sheet Pa in the same way as carried out in thefirst unit 101. - Then, the sheet Pa is fed to the third-
color printing unit 103. After the third color printing operation, the printed sheet Pa is fed to thedelivery unit 105, and the printing procedure is completed. - Now, the plate clamping device employed in each of the
printing units first unit 101. - As shown in Fig. 17, the
plate cylinder 1 is rotatably supported betweenside walls 4a, 4b of the first-color printing unit 101. Thecylinder 1 is designed to carry the printing plate 3 (Fig. 11) on its outer peripheral surface. Theplate 3 is made of a thin and flat aluminum. A plate holding mechanism F is provided between theside walls 4a, 4b to hold the plate on theplate cylinder 1. - As shown in Fig. 2, a
groove 2 extends in the longitudinal direction of the plate cylinder, i.e., in the axial direction of theplate cylinder 1. A first plate clamp A and a second plate clamp B are disposed in thegroove 2. The clamps A, B extend in the longitudinal direction of thegroove 2 so as to face each other. The first plate clamp A seizes the top end of theplate 3, while the second plate clamp B seizes the bottom end of theplate 3. The plate clamps A, B are spaced in the peripheral direction of thecylinder 1. The clamping portions of the first and second plate clamps A, B are moved in the radial direction of thecylinder 1 for the opening or closing motions. - The second plate clamp B has at its each end an adjusting mechanism C for adjusting the torsion of the
plate 3 with respect to thecylinder 1. In Fig. 2, a clamp activating mechanism D is disposed at the right end of thecylinder 1. The mechanism activates the first and second plate clamps A , B to seize theplate 3. A clamp moving mechanism E is disposed at the left end of theplate cylinder 1 to bring the second clamp B towards the first clamp A or away therefrom. - The first clamp A is hereinafter described.
- As shown in Figs. 11 and 16, a longitudinally extending clamping
block 10 is disposed in thegroove 2. Abearing 19 is fixed to the central portion of the clampingblock 10. The clampingblock 10 is rotatably attached to thecylinder 1 by abolt 9. Thebolt 9 is inserted through the clampingblock 10 and thebearing 19, and screwed into the inner bottom of thegroove 2. - As shown in Fig. 2, a pair of
movable clamping plates 12 are disposed on the clampingblock 10. As shown in Figs. 11, 16, themovable clamping plates 12 are attached to the respective clamping blocks 10 by means of a plurality ofbolts 13 with an allowance for the upward or downward movement of themovable plate 12. Thebolts 13 are screwed into the clamping blocks 10. Awasher 14 is disposed between eachmovable clamping plate 12 andbolt 13. - Each clamping
block 10 has acam way 10a at the top of its inner end. Thecam way 10a extends longitudinally with respect to theblock 10 . Each clampingplate 12 has astep 12a at the bottom of its inner end. Thestep 12a extends longitudinally with respect to theplate 12 so as to face thecam way 10a. A cam shaft S1 set in thecam way 10a opposes thestep 12a. The cam shaft S1 extends along the first plate clamp A up to the vicinity of theside wall 2b of the groove. A cam face Sa is formed on the cam shaft S1. - As shown in Fig. 11, a plurality of
spring housing holes 16 are provided with each clampingblock 10. Theholes 16 are disposed on the opposite side of thecam way 10a with respect to thebolt 13 so as to face the clampingplates 12. Acompression coil spring 15 disposed in eachhole 16 faces the clampingplate 12. Thestep 12a is continuously pressed against the cam shaft S1 by the force of eachspring 15. The outer end of each clampingplate 12 is held open and faces the clampingblock 10. Therefore, as shown in Fig. 9, when the cam face Sa is in contact with the chippedportion 12a, the outer end of each clampingplate 12 is kept open by thespring 15. On the other hand, as shown in Fig. 10, when the cam face Sa is not in contact with the chippedportion 12a, the outer end of the clampingplate 12 is kept close by thespring 15. - As shown in Fig. 2, a connecting
shaft 18 rotatably supported by theside wall 2b is connected with the outer end of the cam shaft S1 by way of a cylindrical coupling 17. - The second clamp B will be described hereinafter.
- As shown in Figs. 2 and 11, a pair of clamping blocks 20 are spaced in the
groove 2. Each clampingblock 20 can be moveable between two positions shown by solid line in Figs. 11 and 13, respectively. - A
moveable clamping plate 21 is disposed on the top of each clampingblock 20. Theplates 21 are attached to theblocks 20 by means ofbolts 22. Theplate 21 are allowed to upward or downward movement. Thebolt 22 is inserted through theplate 21, and screwed into theblock 20. Awasher 23 is placed between theplate 21 and thebolt 22. Each clamping block has acam way 20a extending longitudinally at the top of the inner end of eachblock 20. A chippedportion 21a is formed at the bottom of the inner end of eachplate 21. The chippedportion 21a extends longitudinally with respect to theplate 21 and faces the correspondingcam way 20a. A cam shaft S2 disposed in thecam way 20 faces thestep 21a. The cam shaft S1 longitudinally extends along the second clamp B up to the vicinity of theside wall 2b of the groove. A cam face Sb is formed on the cam shaft S2. - As shown in Fig. 11, each block has a plurality of
spring housing holes 25 facing theplates 21 at the opposite side of thecam way 20a with respect to thebolt 22. Eachhole 25 accommodates acompression coil spring 24. Thestep 21a is continuously pressed against the cam shaft S2 by the force of eachspring 24. The outer end of each clampingplate 21 is biassed in the opening direction with respect to theblock 20. - Therefore, as shown in Fig. 9, when the cam face Sb is in contact with the
step 21a, the outer end of each clampingplate 21 is held open by the force of thespring 24. Furthermore, as shown in Fig. 11, when the cam face Sb is not in contact with thestep 21a, the outer end of eachplate 21 is kept in the closed position by thespring 24. - Each
block 20 has an outer end protruding from the outer end of each clampingplate 21. Achamfer 20c is formed with the end corner of eachblock 20 in order to guide theplate 3 smoothly. - As shown in Fig. 4, a connecting
shaft 27 is rotatably supported by theside wall 2b. Theshaft 27 is connected with the outer end of the cam shaft S2 by way of acoupling 26. A pair of engaginggrooves coupling 26 to lie perpendicularly to each other. An engagingprojection 28 formed on the cam shaft S2 and an engagingprojection 27a formed on the connectingshaft 27 engage with each other in thegrooves projections coupling 26. The coupling 17 described above has the same structure as thecoupling 26. The connectingshaft 18 and the cam shaft S1 are connected to the coupling 17 so as to be able to slide in the radial direction of the coupling 17. - As shown in Figs. 3 and 15, a plurality of
spring housing holes 20b are provided with each blocks 20. A plurality of coil springs 29 is held betweenholes 20b and the inner surface of thegroove 2. Eachblock 20 is biassed against the first clamp A by the force of eachspring 29. - The adjusting mechanism C will be hereinafter described.
- As shown in Figs. 6 and 8, a connecting
block 34 is disposed between clamping blocks 20. The connectingblock 34 is slidable along the bottom of thegroove 2. An elongate throughhole 34a is provided with the connectingblock 34. Thehole 34a extends in the axial direction of theplate cylinder 1. Arod 30 is inserted in theblock 34 by way of thehole 34a, and rotatably supported thereby so as to connect two clamping blocks 20.Male screw portions rod 30, respectively. The bothportions portions female screw portions 31 formed at the end of each clampingblock 20. Aworm wheel 30c is formed at the central portion of therod 30. - Likewise, an elongate through
hole 34b is provided with theblock 34. The hole extends perpendicularly and communicats with thehole 34a. Aworm 32 engaged with theworm wheel 30c is rotatably held in thehole 34b for the simultaneous turning movement with therod 30. This turning movement of the rod drives thescrews - Furthermore, an elongate through
hole 34c is provided with therod 34. Thehole 34c extends in parallel with thehole 34a. Aguide pin 33 is firmly fixed into thehole 34c. Theguide pin 33 is slidably held in ahole 46 formed at the end of each clampingblock 20. Theguide pin 33 is for guiding the movingblock 20 when the length of the clamp B is adjusted. - As shown in Fig. 5, a
hole 36 is formed on the right side of theblock 20. In thehole 36 is disposed aplunger 37 with acoil spring 35. Theplunger 37 is arranged to slide in the axial direction of thecylinder 1. Aball 37a rotatably supported at the outer end of theplunger 37 is in contact with theside wall 2b. The right end of theplunger 37 is biassed to theside wall 2b by the force of thespring 35. - As shown in Fig. 3, a
female screw 38 is formed at the left end of theblock 20. An adjustingbolt 39 is screwed into thescrew 38. Aball 39a rotatably supported at the outer end of the adjustingbolt 39 is in contact with thewall 2c ofgroove 2. Anut 39b is firmly mounted on the adjustingbolt 39. The second plate clamp B can be moved in the axial direction of theplate cylinder 1 by adjusting the amount of the inserting length of thefemale screw 38 into the clampingblock 20. - The clamp activating mechanism D will be hereinafter described.
- The clamp activating mechanism D includes a first and a second clamp activating mechanic portion D1, D2. The mechanic portion D1 is designed to activate the first plate clamp A, while the second mechanic portion D2 is designed to activate the second plate clamp B.
- As shown in Figs. 9, 11 and 12, a
plate clamping lever 40 is fixed to theshaft 18 which is connected to the cam shaft in Fig. 2. Aplate clamping roller 41 is rotatably supported by ashaft 41a at the end portion of thelever 40. When the first clamp A is to seize the top end of theplate 3, thecylinder 1 is rotated. Then, theroller 41 is moved to the position where theroller 41 can meet the end of the drivingarm 42. Thearm 42 flexibly reciprocates in the axial direction of thecylinder 1 by means of an air cylinder (not illustrated) which is actuated by the manipulation of an operation switch. - A
plate releasing lever 43 is pivotally supported by apivot 43a on theside wall 2b. Anabutting portion 43b is integrally formed with thelever 43. The abuttingportion 43b extends to contact the pivoting locus of theroller 41. On the other hand, aplate releasing roller 45 is rotatably supported by theshaft 45a. When the first clamp A is to release the top end of theplate 3, thecylinder 1 is turned, theroller 45 is moved to the position where theroller 45 can meet the end of thearm 42. - When the first clamp A is to seize the top end of the
printing plate 3, thearm 42 moves in the radial direction of thecylinder 1 and abuts theroller 41. Then, the clampinglever 40 is pivoted clockwise to a position shown by the chain line in Fig. 9, and thelever 43 is pivoted counterclockwise. Subsequently, as shown in Fig. 12, the cam shaft S1 is turned via the connectingshaft 18 in the same direction as that of thelever 43. Then, eachplate 12 is moved to the close position against the force of thespring 15. As a result, the top of theplate 3 is clamped by theplates 12. - On the contrary, when the first clamp A is to release the top of the
plate 3, thearm 42 moves in the radial direction of thecylinder 1 and abuts theroller 45. Then, thelevers 43 and theroller 41 are returned to the position shown by the solid line in Fig. 7. Subsequently, the cam shaft S1 is turned in the clamping direction when theplate 3 is to be seized. Then, each clampingplate 12 is opened by the force of thespring 15. As a result, the top of theplate 3 is released from the clampingplates 12. - The second clamp activating mechanism D2 is hereinafter described.
- As shown in Figs. 10 and 13, a
lever 50 is fixed on the connectingshaft 27 connected to the cam shaft S2. Aplate clamping roller 51 and aplate releasing roller 52 are rotatably supported byshafts plate 3, theplate cylinder 1 is turned. Then, theroller 51 is moved to the position where theroller 51 can meet the end of thearm 42. When the second clamp B is to release the bottom of theplate 3, thecylinder 1 is turned. Then, the releasingroller 52 is moved to the position where theroller 52 can meet the end of thearm 42. - When the second clamp B is to clamp the end of the
plate 3, thearm 42 beats theroller 51. Then, thelever 50 is turned counterclockwise to the position shown by a dotted line in Fig. 10. Then, as shown in Fig. 13, the cam shaft S2 is turned in the direction of pivoting operation of thelever 50. Then, theplate 21 is closed against the force of thespring 24. As a result, the bottom end of theplate 3 is clamped by theplate 21. - On the hand, when the second clamp B is to release the bottom end of the
plate 3, thearm 42 beats theroller 52. Then, thelever 50 is returned to the solid line position in Fig. 10. - Then, the cam shaft S2 is turned in the reverse direction reverse to the turning direction of the cam shaft S2 for clamping the
plate 3. Then, eachplate 21 is opened by the force of thespring 24. As a result, the bottom end of theplate 3 is released from theplate 21. - The plate clamp moving mechanism E is hereinafter described.
- As shown in Figs. 2 and 3, a plurality of block-shaped
bases 60 are fixed to the inner surface of thegroove 2 between the first and second clamps A, B. In each base 60, a guidinggroove 60a extends in the peripheral direction of thecylinder 1. As shown in Figs. 6 and 15, arack 62 fixed to inner surface of eachblock 20 is slidably disposed inside the guidinggroove 60a. - As shown in Fig. 2, a driving shaft S3 is rotatably disposed, by way of bearings, between the both
side walls groove 2 such that the shaft S3 extends in the axial direction of thecylinder 1. As shown in Fig. 3, pinions 61 are formed around the shaft S3 in the conformity to theracks 62 so that eachpinion 61 is arranged to engage with eachrack 62. - As shown in Figs. 14 and 15, a
spur gear 63 is fixed to the end of the shaft S3. Afirst lever 64 is pivotally supported by theshaft 64a on thewall 2c in the vicinity of thespur gear 63. On the other hand, asecond lever 65 is pivotally supported by ashaft 65a on thewall 2c at the opposite side to thefirst lever 64 with respect to the shaft S3. External gears 64b, 65b are formed on the outer periphery of the base of the first andsecond levers gears spur gear 63. - The tapered abutting
portions second levers plate 3, thecylinder 1 is turned. Then, theportion 64c is moved to the position where theportion 64c can meet the end of thearm 66. When the second clamp B releases the bottom end of theplate 3, thecylinder 1 is turned, and theportion 65c is moved to the position where theportion 65c meets thearm 66 and can contact the end thereof. Thearm 66 reciprocates in the radial direction of thecylinder 1 with aid of an air cylinder (not illustrated). - When the second clamp B is to clamp the bottom end of the
plate 3, thearm 66 beats theportion 64c. Then, thefirst lever 64 is pivoted clockwise to the chain line position in Fig. 14. Then, the shaft S3 is turned counterclockwise together with thespur gear 63. Therack 62 is slid in the guidinggroove 60a by thepinion 61, and eachblock 20 is moved against the force of thespring 29 from the waiting position of Fig. 12 to the clamping position of Fig. 15. - When the bottom end of the
plate 3 is clamped by the second clamp B and thearm 66 is moved away from theportion 64c, theblock 20 returns from the solid line position to the chain line position shown in Fig. 13 according to the force of thespring 29. Then, the second clamp B can spread theplate 3 on the peripheral surface of thecylinder 1 without any slackness. Then, as shown in Fig. 15, the shaft S3 is turned clockwise. Resultingly, the first andsecond levers plate 3 is clamped. - On the contrary, when the second plate clamp B is to release the bottom end of the
printing plate 3, the drivingarm 66 beats theportion 65c. Then, the second lever65 is pivoted clockwise to the position indicated by the chain line in Fig. 14. Therefore, the driving shaft S3 is turned counterclockwise together with thespur gear 63. Subsequently, each clampingblock 20 is moved from the chain line position to the solid line position both shown in Fig. 13 against the biasing force of thespring 29. As a result, the tension of theprinting plate 3 spread over the outer periphery of theplate cylinder 1 is released to allow theprinting plate 3 to be easily detached therefrom. - When the bottom end of the
plate 3 is released from the second clamp B and drivingarm 66 moves away from theportion 64c, theblock 20 is biased by the spring force and returned from the solid line portion to the chain line portion in Fig. 13. Therefore, the driving shaft S3 is turned clockwise viewed in Fig. 15. As a result, thefirst lever 64 and thesecond lever 65 return to the position shown by the solid line in Fig. 14. - A plate holding mechanism F is hereinafter explained.
- As shown in Figs. 17 and 19, a U-type connection fitting 71 is connected to an end of a
rod 70a of anair cylinder 70. A proximal end of alink 72 is rotatably connected to the fitting 71 by apin 73. A distal end of thelink 72 is fixed on theshaft 72. Theshaft 74 is rotatably supported on theside walls 4a, 4b. A pair oflinks 75 is fixed on theshaft 74 between theside walls 4a, 4b. - As shown in Figs. 18 and 19, a
roller shaft 76 is rotatably supported by the distal ends of the connectinglinks 75. Aroller 79 is rotatably supported by theshaft 76 via bearings (not illustrated) such that the roller extends in the axial direction of thecylinder 1. In this arrangement, when therod 70a is in the contracted state in Fig. 19, theroller 79 is located in the waiting position. When therod 70a is in the extended state in Fig. 20, theroller 79 is located in the working position where theroller 79 forces theplate 3 against thecylinder 1. - As shown in Fig. 18, a swinging
lever 78 has an end fixed to the right end of theshaft 76. Atorsion coil spring 77 is loosely set on theshaft 76 between thelink 75 andlever 78. The ends of thespring 77 are hooked on thelink 75 andlever 78, respectively. Aroller 80 is rotatably supported at the end of ashaft 81 connected to thelever 78. A pair of drivenlevers 82 is fixed to theshaft 76 between theside walls 4a, 4b. Thelevers 82 are arranged to swing together with theshaft 76 between the waiting position and the working position, shown in Figs. 18 and 19, respectively. A supportingrod 83 is fixed to the end of the drivenlevers 82 by means ofmachine screws 84 such that therod 83 extends between thelevers 82 in the axial direction of theroller 79. A pair of clampingplates 85 is fixed on an end of therod 83 such that theplates 85 extend in the axial direction of theroller 79. A blade likemember 86 made of the hard rubber is narrowly fixed between theplates 85 by means of screw or the equivalent. A first end of theblade 86 protrudes from the clampingplates 85. A second end of theblade 86 is formed slant. - As shown in Figs. 17, 20 and 21, a
plate holding cam 87 is fixed by means of a pair ofmachine screws 88 on the right side of thecylinder 1. Anelongate hole 87a formed with thecam 87 adjusts the position thereof. When thecylinder 1 is turned, theroller 80 is pressed against acam face 87b of thecam 87 by the force of thespring 77 for readily moving from a waiting face M1 to a working face M2. When theroller 80 moves to the working face M2 of thecam 87, thelevers blade 86 is activated to bias the bottom end of theplate 3 in the radial direction of thecylinder 1. - The above printing unit is operated as follows.
- Before the
printing plate 3 is set to theplate cylinder 1, the position of theplate holding cam 87 is adjusted. As shown in Fig. 11, when theplate 12 of the first clamp A is opened, the top end of theplate 3 is guided between theblock 10 and theplate 12. Then, when the operation switch (not illustrated) is manipulated, thearm 42 is moved by an air cylinder (not illustrated) in the axial direction (shown by the chain line) of thecylinder 1. After, theroller 41 is beaten by thearm 42 and thelever 40 is pivoted clockwise. - Subsequently, the cam shaft S1 is turned clockwise as shown in Fig. 14, and the
movable clamping plate 12 is closed against the force of thespring 15. Resultingly, the top end of theplate 3 is clamped by the first clamp A. - According to the movement of the
roller 41 shown in Fig. 9, theportion 43b pressed by the roller pivots thelever 43 counterclockwise. After beating theroller 41, thearm 42 returns to the original position so as to turns thecylinder 1 in the counterclockwise direction viewed in Fig. 12. Subsequently, as shown in Fig. 10, thecylinder 1 comes to stop at the position where theroller 51 meets thearm 42. - As shown in Fig. 20, when the
air cylinder 70 is activated and itsrod 70a is extended, thelink 75 is pivoted clockwise. Then, theroller 79 is brought to the contact with the outer surface of thecylinder 1. Then, thecylinder 1 is turned counterclockwise viewed in Figs. 12 and 20. As a result, theplate 3 is wound on thecylinder 1 while being pressed by theroller 79 against thecylinder 1. - As shown in Fig. 21, while the
roller 79 keeps pressing theplate 3 against thecylinder 1, theroller 80 rolls from the waiting face M1 to the working face M2 of thecam 87 against the force of the spring 77 (Fig. 18). Then, thelever 78 is pivoted from the waiting position to the working position and thelever 82 from the working portion to the waiting portion. Simultaneously, the end portion of theblade 86 enters thegroove 2 of thecylinder 1. Therefore, the bottom end of theplate 3 is held by the end of theblade 86. - As illustrated in Fig. 10, the
roller 51 is kept at the stopping position to meet thearm 42. As shown in Fig. 14, thearm 66 is moved by the air cylinder (not illustrated) in the radial direction of the cylinder 1 (shown by the chain line arrow) when the operation switch (not illustrated) is manipulated in this state. Then, theportion 64c is beaten by the drivingarm 64, resulting in the pivoting movement of the first andsecond levers - As shown in Fig. 15, each
pinion 61 of the shaft S3 is turned counterclockwise in order for eachrack 62 to move in the direction of the chain arrow against the force of thespring 29 together with theblock 20. The bottom end of theplate 3 is precisely placed between theblock 20 and theplate 21 while being sliding over thechamfer 20c of theblock 20. At this time, thearm 66 remains in contact with theportion 64c. - In this state, the
arm 42 is moved in the radial direction of thecylinder 1 as shown with the chain line arrow in Fig. 10. Then, when theroller 51 is beaten by the drivingarm 42, thelever 50 is pivoted counterclockwise. Simultaneously, as shown in Fig. 13, the cam shaft S2 is turned counterclockwise. Then, the clampingplate 21 is closed against the force ofspring 24. Resultingly, the bottom end of theplate 3 is clamped by the second clamp B. - After beating the
roller 51, thearm 42 returns to the original position. Thecylinder 70 is activated to return therod 70a to the contracted position. Theroller 79 and theblade 86 separate from thecylinder 1 in the sequence reverse to the above. - In more detail description, the
plate 3 is mounted on thecylinder 1 with the top and bottom ends clamped by the first and second plate clamps A, B, respectively. Thearm 66 is moved in the direction of chain line, resulting in the movement of theblock 20 in accordance with the force ofspring 29. Then, theplate 3 is tightly mounted on thecylinder 1. At this time, therack 62 is moved in the same direction as theblock 20. Then, thepinion 61 and the driving shaft S3 are turned clockwise in Fig. 15. As a result, the first andsecond levers - When the
plate 3 is to be detached from thecylinder 1, thecylinder 1 is turned in the reverse direction by manipulating the operation switch (not illustrated). Then, theportion 65c is moved to the position where theportion 65c is beaten by the end of thearm 66. Thespur gear 63 and the driving shaft S3 are turned by thearm 66 in the same direction as clamping theplate 3. Theblock 20 is moved in the direction as shown by the chain line arrow in Fig. 15. As a result, the tension of theplate 3 against thecylinder 1 is released. At this time, the end of thearm 60 remains in contact with theportion 65c. - In this state, when the
cylinder 1 is turned, theroller 52 is moved to meet the end of thearm 42. This end of thearm 42 is beaten by theroller 52 to rotate thelever 50 in the releasing direction, i.e. counterclockwise viewed in Fig. 10. The connectingshaft 27 and the cam shaft S2 are turned in the releasing direction so that the cam face Sb comes to contact thestep 21a. Therefore, the clampingplate 21 is opened by the force of thespring 24. As a result, the bottom end of theplate 3 is released from the second clamp B. - Subsequently, the
arm 66 is returned to the original position. The clampingblock 20 is also returned to the waiting position shown with the solid line in Figs. 11 and 12. Then, theplate cylinder 1 is turned for releasing theroller 45 to move and meet the end of thearm 42. Then, the end of thearm 42 is beaten by theroller 45. Simultaneously, theroller 41 is beaten by theportion 43b, and turned in the releasing direction , i.e. counterclockwise viewed in Fig. 9. The connectingshaft 18, S1 are turned in the releasing direction. The cam face Sa comes to contact thestep 12a. Then, the clampingplate 12 is opened by the force of thespring 15. As a result, the top end of theplate 3 is released from the first clamp A. Thearm 42, thus, returns to the original position after beating theroller 45. - After the
plate 3 is mounted on thecylinder 1, the width of theplate 3 is adjusted by moving the second clamp B in the axial direction of thecylinder 1. Now, the explanation will be given in connection with the total distortion case where the top and bottom ends of theplate 3 clamped by the first and second clamps A, B, respectively, are not conformal, as shown in Fig. 7. - The
nut 39b is turned to advance thebolt 39 in the protruding direction of the chain line arrow in Fig. 3. Thespring 35 is compressed, as shown in Fig. 5, for moving theblocks 20 of the second clamp B in the direction of the chain line arrow against the force of thespring 35. - Therefore, as shown in Fig. 7, when the second clamp B is moved rightwardly with respect to the
cylinder 1, the first clamp A is rotated about thebolt 9. The bottom end of theplate 3 is moved in the direction of the chain line arrow. The undesirable inconformity between the top and bottom ends of theplate 3 is, thus, corrected by the displacement of the bottom end accordingly. As a result, theplate 3 is squarely spread on thecylinder 1. - On the contrary, when the top end of the
plate 3 clamped by the first clamp A is displaced leftwardly while the bottom end seized by the second clamp B is moved rightwardly in Fig. 7, theentire plate 3 is twisted. In this case, thebolt 39 is turned so as to retreat into the second clamp B. Then, the bottom end of theplate 3 is moved leftwardly. As a result, the torsion of theplate 3 is eliminated. - The present examples and embodiment are to be considered as illustrative and no restrictive, and the invention is not limited to the details giving herein, but may be modified within the scope of the appended claims.
Claims (6)
- A plate clamping device for use in an offset press machine (100) including a plate cylinder (1) for carrying a printing plate (3), said printing plate (3) having a first and second ends, a first clamping mechanism (A) for clamping the first end of the printing plate (3), a second clamping mechanism (B; B1; B2) for clamping the second end of the printing plate (3), the second clamping mechanism including a plurality of clamping modules (B; B1; B2) juxtaposed in the axial direction of the plate cylinder (1), a groove (2) extending on the peripheral surface of the plate cylinder (3) in the axial direction thereof for accommodating the first (A) and second (B; B1; B2) clamping mechanisms and a connecting member (C) for connecting the clamping modules (B; B1) and change the distance of the adjacent modules (B; B1) in the predetermined manner upon a fanout deformation of a printing sheet (Pa), said device characterized by
a biasing member (38, 39) for biasing an end of the second clamping mechanism (B; B1; B2) along the axial direction of the plate cylinder (1) to the inner wall (2c) of the groove (2) to support the second clamping mechanism (B; B1; B2) in the groove (2). - A device according to claim 1, wherein each of the clamping mechanisms (A; B; B1; B2) includes a block (10; 20) and an openable member (12; 21) for clamping the end of the printing plate (3) in cooperation with the block (10; 20).
- A device according to claim 2, wherein the openable member (12, 21) is closed by a cam shaft (S1; S2), which is held between a groove (10a; 20a) extending on the block (10; 20) and a step (12a; 21a) formed with the openable member (12; 21), and opened by a biasing force of spring means (15; 25) disposed between the block (10; 20) and the openable member (12; 21).
- A device according to claims 1 to 3, wherein the second clamping mechanism (B; B1; B2) is movable in the axial direction of the plate cylinder (1).
- A device according to claim 4, wherein the biasing member includes a screw (38) mounted at an end of the second clamping mechanism (B; B1; B2), and a coil spring mounted at the other end of the second clamping mechanism (B; B1; B2) for pressing the screw (38) against the inner surface (2c) of the groove (2).
- A device according to claim 3, wherein each cam shaft (S1; S2) is connected to a clamp actuating mechanism (D), which actuates the corresponding clamping mechanism (12; 21).
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP291828/92 | 1992-10-29 | ||
JP4291828A JP2837324B2 (en) | 1992-10-29 | 1992-10-29 | Printing machine fan-out adjustment device |
Publications (2)
Publication Number | Publication Date |
---|---|
EP0595761A1 EP0595761A1 (en) | 1994-05-04 |
EP0595761B1 true EP0595761B1 (en) | 1997-08-20 |
Family
ID=17773946
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP19930810356 Expired - Lifetime EP0595761B1 (en) | 1992-10-29 | 1993-05-14 | Plate clamping device for offset press |
Country Status (3)
Country | Link |
---|---|
EP (1) | EP0595761B1 (en) |
JP (1) | JP2837324B2 (en) |
DE (1) | DE69313243T2 (en) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE10009667B4 (en) * | 1999-03-19 | 2004-06-03 | Heidelberger Druckmaschinen Ag | Clamping device for clamping printing forms |
JP2007112037A (en) * | 2005-10-21 | 2007-05-10 | Komori Corp | Plate vising device of printing machine |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3156184A (en) * | 1962-02-20 | 1964-11-10 | Harris Intertype Corp | Plate clamp |
DE69022822T2 (en) * | 1989-12-06 | 1996-05-23 | Komori Printing Mach | Plate loading device for printing presses. |
-
1992
- 1992-10-29 JP JP4291828A patent/JP2837324B2/en not_active Expired - Lifetime
-
1993
- 1993-05-14 DE DE1993613243 patent/DE69313243T2/en not_active Expired - Lifetime
- 1993-05-14 EP EP19930810356 patent/EP0595761B1/en not_active Expired - Lifetime
Also Published As
Publication number | Publication date |
---|---|
EP0595761A1 (en) | 1994-05-04 |
JPH06134963A (en) | 1994-05-17 |
DE69313243T2 (en) | 1998-03-12 |
JP2837324B2 (en) | 1998-12-16 |
DE69313243D1 (en) | 1997-09-25 |
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