EP0374482B1 - Apparatus for preventing undesired fluid flow past a flow control location - Google Patents
Apparatus for preventing undesired fluid flow past a flow control location Download PDFInfo
- Publication number
- EP0374482B1 EP0374482B1 EP89121273A EP89121273A EP0374482B1 EP 0374482 B1 EP0374482 B1 EP 0374482B1 EP 89121273 A EP89121273 A EP 89121273A EP 89121273 A EP89121273 A EP 89121273A EP 0374482 B1 EP0374482 B1 EP 0374482B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- roller
- nip
- fluid
- rollers
- pan
- 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
- B41F7/00—Rotary lithographic machines
- B41F7/20—Details
- B41F7/24—Damping devices
- B41F7/26—Damping devices using transfer rollers
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F33/00—Indicating, counting, warning, control or safety devices
- B41F33/0054—Devices for controlling dampening
Definitions
- the present invention relates to controlling fluid flow at a flow control location, and is particularly directed to an apparatus for use in applying a dampening fluid to a printing plate which receives ink and dampening fluid according to the preamble of claim 1.
- a dampening system for a printing press typically includes a plurality of rollers for transferring dampening fluid to a printing plate during operation of the printing press.
- the printing plate is secured to a plate cylinder of the printing press.
- One of the plurality of rollers is a pan roller rotatable about its longitudinal central axis.
- Another one of the plurality of rollers is a slip roller rotatable about its longitudinal central axis and located adjacent to the pan roller.
- a nip is formed between the two rollers along the axial extent of the two rollers. The nip has a fluid entrance side at which fluid enters the nip and a fluid exit side from which fluid flows from the nip.
- the pan roller rotates about its longitudinal central axis in one direction while the slip roller rotates about its longitudinal central axis in the opposite direction.
- the pan and slip rollers rotate in the same direction.
- the pan roller is partially immersed in a supply of dampening fluid, and the dampening fluid adheres to the outer surface of the pan roller as the pan roller rotates.
- the fluid is carried on the outer surface of the pan roller to the entrance side of the nip.
- the fluid enters the nip between the two rollers.
- One way to control the amount of fluid transferred to the printing plate is to control the rotational speed of the pan roller and the rotational speed of the slip roller. An increase in the speed of each of the rollers increases the amount of fluid transferred to the printing plate. Likewise, a decrease in speed of each of the rollers decreases the amount of fluid transferred to the printing plate. Another way to control the amount of fluid transferred to the printing plate is to skew one of the two rollers along the axial extent of the two rollers. Still another way is to increase or decrease the pressure between the two rollers at the nip. Thus, the nip is a flow control location in the dampening system.
- the Document US-A-2 275 514 discloses a structure for applying ink in which a ring is arranged at an end of a roller and extends into a recess located in another roller.
- the ring acts to (1) seal the ends of the rollers against leaking of ink at the point where the rollers meet, (2) obstruct the lateral spreading of ink adjacent the end of the roller, and (3) carry the lateral spread ink around to a location where it is scraped from the ring.
- Scraper members are used to remove the ink off the ring. The ink scraped off the ring is directed into an ink-well.
- the present invention provides an apparatus for controlling fluid flow at a flow control location between two rollers.
- the apparatus includes means connected at the opposite axial ends of one of the rollers for preventing undesired fluid flow past the flow control location.
- the apparatus of the present invention is particularly suitable for use in a dampening system of a printing press.
- the apparatus includes a pan roller having a collar fixedly connected at each of the opposite axial ends of the pan roller.
- the pan roller is partially immersed in a fluid pan filled with dampening fluid.
- the pan roller is disposed adjacent to a slip roller to form a nip between the pan roller and the slip roller.
- the nip has an entrance side and an exit side and extends along the axial direction of the pan and slip rollers.
- the slip roller is disposed adjacent to a vibrator roller which, in turn, is disposed adjacent to a form roller.
- the form roller is disposed adjacent to a printing plate secured to a plate cylinder of a printing press.
- the rollers are rotatable about their longitudinal central axes.
- the pan roller is rotated about its longitudinal central axis to carry fluid on its outer surface from the fluid pan to the entrance side of the nip.
- the fluid at the nip is either transferred onto the outer surface of the slip roller or remains adhered to the outer surface of the pan roller.
- the fluid on the outer surface of the pan roller is carried back into the fluid pan.
- the fluid transferred onto the outer surface of the slip roller is subsequently transferred to the printing plate.
- the excess fluid tends to flow to the opposite axial ends of the nip.
- some of this fluid drips back into the fluid pan due to gravity.
- some of the excess fluid is prevented from flowing around the opposite axial ends of the nip onto the slip roller by the collars at the opposite axial ends of the pan roller.
- the two collars rotate with the pan roller about the longitudinal central axis of the pan roller.
- the two collars pick up excess fluid at the opposite axial ends of the nip and move the excess fluid away from the slip roller.
- This fluid is transferred back into the fluid pan by rotation of the collars with the pan roller.
- the present invention relates to a fluid flow control apparatus for preventing undesired transfer of a fluid past a flow control location.
- the application and construction of the apparatus of the present invention may vary.
- the apparatus of the present invention is particularly suitable for use in a dampening system of a printing press and will be described herein as applied thereto.
- a dampening system for use in a printing press, constructed in accordance with the present invention, is illustrated in Fig. 1.
- the dampening system 10 includes a pan roller 12 partially immersed in a fluid pan 14 filled with a dampening solution.
- a typical dampening solution includes water, alcohol, and gum arabic.
- the pan roller 12 is rotatable about its longitudinal central axis 25 and has a cylindrical outer surface.
- the longitudinal central axis 25 of the pan roller 12 lies on a vertical line 19.
- the outer surface of the pan roller 12 as is conventional is made of a chrome material.
- the pan roller 12 is located adjacent to a slip roller 16.
- the slip roller 16 is rotatable about its longitudinal central axis 27 and has a cylindrical outer surface.
- a line 21 extends through the longitudinal central axis 27 of the slip roller 16 and the longitudinal central axis 25 of the pan roller 12.
- the position of the slip roller 16 relative to the position of the pan roller 12 is such that the lines 19 and 21 intersect to form a predetermined angle therebetween.
- the outer surface of the slip roller 16 as is conventional is made of a rubber material.
- a nip 18 is formed between the pan roller 12 and the slip roller 16 along the axial extent of the two rollers 12, 16.
- the nip 18 has a fluid entrance side 11 and a fluid exit side 13.
- the entrance side 11 of the nip 18 and the exit side 13 of the nip 18 are located on opposite sides of the line 21.
- One side of the line 21 is at a higher elevation than the other side of the line 21.
- the entrance side 11 of the nip 18 is on the side of the line 21 at the higher elevation.
- the exit side 13 of the nip is on the side of the line 21 at the lower elevation.
- the slip roller 16 is located adjacent to a vibrator roller 20.
- the vibrator roller 20, in turn, is located adjacent to a form roller 22.
- the vibrator roller 20 and the form roller 22 have cylindrical outer surfaces and are rotatable about their respective longitudinal central axes.
- the form roller 22 is disposed adjacent to a printing plate 23 secured to a printing plate cylinder 24 of the printing press.
- the pan roller 12 rotates about its longitudinal central axis 25 in one direction, while the slip roller 16 rotates about its longitudinal central axis 27 in the opposite direction.
- the pan roller 12 is rotating in the clockwise direction and the slip roller 16 is rotating in the counterclockwise direction.
- the pan and slip rollers 12, 16 rotate in the same direction at the nip 18 between the pan roller 12 and the slip roller 16. Since the pan roller 12 is partially immersed in the fluid pan 14, the dampening fluid in the fluid pan 14 adheres to the outer surface of the pan roller 12 as the pan roller 12 rotates about its longitudinal central axis 25. The fluid adheres to the outer surface of the pan roller 12 because of the affinity between the fluid and the chrome outer surface of the pan roller 12.
- the fluid is carried on the outer surface of the pan roller 12 from the fluid pan 14 to the entrance side 11 of the nip 18 between the pan roller 12 and the slip roller 16.
- the fluid at the entrance side 11 of the nip 18 moves through the nip 18 to the exit side 13 of the nip 18 as the two rollers 12, 16 continue to rotate about their longitudinal central axes 25, 27. Since the entrance side 11 of the nip 18 is at a higher elevation than the exit side 13 of the nip 18, gravity assists in the movement of the fluid through the nip 18.
- the slip roller 16 continues to rotate about its longitudinal central axis 27, the fluid carried on the outer surface of the slip roller 16 is transferred onto the outer surface of the vibrator roller 20.
- the vibrator roller 20 transfers the fluid on its outer surface to the outer surface of the form roller 22.
- the fluid carried on the outer surface of the form roller 22 is transferred onto the outer surface of the printing plate 23.
- the pan roller 12, the slip roller 16, the vibrator roller 20, and the form roller 22 of the dampening system 10 cooperate together to transfer fluid from the fluid pan 14 to the outer surface of the printing plate 23 secured to the plate cylinder 24 of the printing press.
- the amount of fluid transferred from the fluid pan 14 to the printing plate 23 can be varied.
- One way to vary the amount of fluid transferred from the fluid pan 14 to the printing plate 23 is to change the rotational speed of either the pan roller 12 or the slip roller 16.
- a speed control mechanism 38 as known in the art, for varying the rotational speed of either the pan roller 12 or the slip roller 16 is operatively connected to the two rollers 12, 16 as schematically illustrated in Fig. 1.
- the speed control mechanism 38 can be one of a multitude of conventional designs. Thus, details of its construction will not be discussed.
- An increase in the speed of either of the two rollers 12, 16 increases the amount of fluid transferred to the printing plate 23.
- a decrease in the speed of either of the two rollers 12, 16 decreases the amount of fluid transferred to the printing plate 23.
- Another way to control the amount of fluid transferred from the fluid pan 14 to the printing plate 23 is to skew the pan roller 12 relative to the slip roller 16 along the axial extent of the two rollers 12, 16.
- the contact pressure between the two rollers 12, 16 changes.
- An increase in the contact pressure between the two rollers 12, 16 decreases the amount of fluid transferred from the fluid pan 14 to the printing plate 23.
- a decrease in the contact pressure, up to a certain point, increases the amount of fluid transferred from the fluid pan 14 to the printing plate 23.
- the amount of fluid transferred from the fluid pan 14 to the printing plate 23 can also be controlled by varying the size of the nip 18 between the pan roller 12 and the slip roller 16.
- the contact pressure between the two rollers 12, 16 varies as a function of the size of the nip 18 between the two rollers 12, 16.
- the amount of fluid transferred from the pan roller 12 to the slip roller 16 varies as a function of the contact pressure between the two rollers 12, 16 in the manner as described hereinabove.
- An adjustment mechanism 40 as known in the art, for adjusting the size of the contact area between the pan roller 12 and the slip roller 16 is operatively connected to the two rollers 12, 16 as schematically illustrated in Fig. 1.
- the adjustment mechanism 40 can be one of a multitude of conventional designs. Thus, details of its construction will not be discussed.
- the fluid in the nip 18 is either transferred onto the outer surface of the slip roller 16 or remains adhered to the outer surface of the pan roller 12 as the two rollers 12, 16 continue to rotate about their longitudinal central axes 25, 27.
- the amount of fluid flowing out of the nip 18 at the exit side 13 of the nip 18 is the sum of the amount of fluid on the outer surface of the pan roller 12 and the amount of fluid on the outer surface of the slip roller 16.
- a buildup of excess fluid at the entrance side 11 of the nip 18 occurs if the amount of fluid transferred from the fluid pan 14 to the entrance side 11 of the nip 18 exceeds the amount of fluid flowing out of the nip 18 at the exit side 13 of the nip 18.
- the excess fluid which builds up at the entrance side 11 of the nip 18 tends to flow to the opposite axial ends of the nip 18. Most of the excess fluid flowing to the opposite axial ends of the nip 18 eventually flows off the opposite axial ends of the pan roller 12 back into the fluid pan 14. Some of the excess fluid at the opposite axial ends of the nip 18 tends to flow around the opposite axial ends of the nip 18 onto the slip roller 16. This tendency occurs because of the greater affinity between the fluid and rubber outer surface of the slip roller 16 relative to the affinity between the fluid and chrome outer surface of the pan roller 12, and the flow characteristics of the dampening solution.
- a collar 30 is secured to the pan roller 12 at one axial end 15 of the pan roller 12.
- the collar 30 is made of a brass material.
- the brass collar 30 has a shape like a ring with an outer diameter greater than the outer diameter of the pan roller 12.
- the brass collar 30 is made of two separate pieces. Each piece has a semi-circular shape and forms one-half of the brass collar 30. The two pieces are held together by suitable fasteners. When the fasteners are tightened to hold the two pieces together, the brass collar 30 is fixedly secured to the pan roller 12.
- a brass collar 35 identical to the brass collar 30 is fixedly secured to the pan roller 12 at the other axial end 17 of the pan roller 12.
- the two brass collars 30, 35 located at the two opposite axial ends 15, 17, respectively, of the pan roller 12 are used to pick up the excess fluid at the opposite axial ends of the nip 18. Since the function of each of the brass collars 30, 35 is identical to the other collar, only the brass collar 30 at the one axial end 15 of the pan roller 12 will be described in detail.
- the affinity between the fluid and the brass collar 30 located at the axial end 15 of the pan roller 12 is greater than the affinity between the fluid and the rubber outer surface of the slip roller 16. This greater affinity between the fluid and the brass collar 30 tends to pick up the excess fluid at the axial end of the nip 18 as the brass collar 30 rotates with the pan roller 12.
- the preferred embodiment described hereinbefore includes the pair of collars 30, 35 in which the collars are disposed at the opposite axial ends 15, 17 of the pan roller 12.
- the two collars 30, 35 could instead be disposed at the opposite axial ends of the slip roller 16.
- only one collar be used instead of two collars.
- the collar would be disposed at one axial end of either the pan roller 12 or the slip roller 16.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Rotary Presses (AREA)
- Registering, Tensioning, Guiding Webs, And Rollers Therefor (AREA)
Description
- Generally, the present invention relates to controlling fluid flow at a flow control location, and is particularly directed to an apparatus for use in applying a dampening fluid to a printing plate which receives ink and dampening fluid according to the preamble of claim 1.
- A dampening system for a printing press typically includes a plurality of rollers for transferring dampening fluid to a printing plate during operation of the printing press. The printing plate is secured to a plate cylinder of the printing press. One of the plurality of rollers is a pan roller rotatable about its longitudinal central axis. Another one of the plurality of rollers is a slip roller rotatable about its longitudinal central axis and located adjacent to the pan roller. A nip is formed between the two rollers along the axial extent of the two rollers. The nip has a fluid entrance side at which fluid enters the nip and a fluid exit side from which fluid flows from the nip.
- During operation of the printing press, the pan roller rotates about its longitudinal central axis in one direction while the slip roller rotates about its longitudinal central axis in the opposite direction. Thus, at the nip between the two rollers, the pan and slip rollers rotate in the same direction. The pan roller is partially immersed in a supply of dampening fluid, and the dampening fluid adheres to the outer surface of the pan roller as the pan roller rotates. The fluid is carried on the outer surface of the pan roller to the entrance side of the nip. Thus, the fluid enters the nip between the two rollers.
- When the dampening fluid carried on the outer surface of the pan roller enters the nip between the two rollers, some of the fluid is transferred onto the outer surface of the slip roller. The fluid not transferred onto the outer surface of the slip roller remains adhered to the outer surface of the pan roller. The fluid adhering to the outer surface of the slip roller is subsequently transferred by other rollers onto the outer surface of the printing plate. The fluid which remains adhered to the outer surface of the pan roller is carried back to the supply of dampening fluid.
- As known in the art, it is desirable to control the amount of fluid transferred to the outer surface of the printing plate. One way to control the amount of fluid transferred to the printing plate is to control the rotational speed of the pan roller and the rotational speed of the slip roller. An increase in the speed of each of the rollers increases the amount of fluid transferred to the printing plate. Likewise, a decrease in speed of each of the rollers decreases the amount of fluid transferred to the printing plate. Another way to control the amount of fluid transferred to the printing plate is to skew one of the two rollers along the axial extent of the two rollers. Still another way is to increase or decrease the pressure between the two rollers at the nip. Thus, the nip is a flow control location in the dampening system.
- If the amount of fluid carried on the outer surface of the pan roller to the entrance side of the nip exceeds the amount of fluid flowing out of the nip at the exit side of the nip, a buildup of excess fluid at the entrance side of the nip occurs. The excess fluid at the entrance side of the nip tends to flow to the opposite axial ends of the nip. Although some of the excess fluid drips from the opposite axial ends of the pan roller back into the fluid pan due to gravity, some of the excess fluid may flow around the opposite axial ends of the nip (the flow control location) and onto the slip roller. Some of the fluid transferred onto the slip roller in this manner is subsequently transferred to the printing plate. This fluid flow around the opposite axial ends of the nip onto the slip roller is undesirable because such flow is uncontrolled and unintended.
- Document FR-A-2 196 249 discloses an apparatus according to the preamble of the claim 1. However, in this document, there is no teaching of using only a collar for carrying dampening fluid directly back to the source of dampening fluid.
- The Document US-A-2 275 514 discloses a structure for applying ink in which a ring is arranged at an end of a roller and extends into a recess located in another roller. The ring acts to (1) seal the ends of the rollers against leaking of ink at the point where the rollers meet, (2) obstruct the lateral spreading of ink adjacent the end of the roller, and (3) carry the lateral spread ink around to a location where it is scraped from the ring. Scraper members are used to remove the ink off the ring. The ink scraped off the ring is directed into an ink-well.
- The present invention provides an apparatus for controlling fluid flow at a flow control location between two rollers. The apparatus includes means connected at the opposite axial ends of one of the rollers for preventing undesired fluid flow past the flow control location. The apparatus of the present invention is particularly suitable for use in a dampening system of a printing press.
- The apparatus includes a pan roller having a collar fixedly connected at each of the opposite axial ends of the pan roller. The pan roller is partially immersed in a fluid pan filled with dampening fluid. The pan roller is disposed adjacent to a slip roller to form a nip between the pan roller and the slip roller. The nip has an entrance side and an exit side and extends along the axial direction of the pan and slip rollers. The slip roller is disposed adjacent to a vibrator roller which, in turn, is disposed adjacent to a form roller. The form roller is disposed adjacent to a printing plate secured to a plate cylinder of a printing press. The rollers are rotatable about their longitudinal central axes.
- The pan roller is rotated about its longitudinal central axis to carry fluid on its outer surface from the fluid pan to the entrance side of the nip. The fluid at the nip is either transferred onto the outer surface of the slip roller or remains adhered to the outer surface of the pan roller. The fluid on the outer surface of the pan roller is carried back into the fluid pan. The fluid transferred onto the outer surface of the slip roller is subsequently transferred to the printing plate.
- In the event of an excess fluid condition at the entrance side of the nip, the excess fluid tends to flow to the opposite axial ends of the nip. When the excess fluid reaches the ends of the nip, some of this fluid drips back into the fluid pan due to gravity. In accordance with the present invention, some of the excess fluid is prevented from flowing around the opposite axial ends of the nip onto the slip roller by the collars at the opposite axial ends of the pan roller. The two collars rotate with the pan roller about the longitudinal central axis of the pan roller. Thus, the two collars pick up excess fluid at the opposite axial ends of the nip and move the excess fluid away from the slip roller. This fluid is transferred back into the fluid pan by rotation of the collars with the pan roller. By preventing the excess fluid at the entrance of the nip from flowing around the opposite axial ends of the nip onto the slip roller, accurate control of the amount of fluid transferred to the printing plate is maintained.
- Further features of the present invention will become apparent to those skilled in the art to which the present invention relates from reading the following specification with reference to the accompanying drawings, in which:
- Fig. 1 is a schematic illustration of a dampening system for a printing press and constructed in accordance with the present invention;
- Fig. 2 is a schematic perspective view of a portion of the dampening system shown in Fig. 1 illustrating the relationship between two rollers and a flow control location between the two rollers;
- Fig. 3 is an enlarged, partial schematic illustration of Fig. 2 taken approximately along line 3-3 of Fig. 2 illustrating the manner in which dampening fluid is transferred from one roller to the other roller; and
- Fig. 4 is an enlarged, side view of Fig. 2 taken approximately along line 4-4 of Fig. 2 further illustrating the relationship between the two rollers and the flow control location between the two rollers.
- The present invention relates to a fluid flow control apparatus for preventing undesired transfer of a fluid past a flow control location. The application and construction of the apparatus of the present invention may vary. The apparatus of the present invention is particularly suitable for use in a dampening system of a printing press and will be described herein as applied thereto.
- A dampening system for use in a printing press, constructed in accordance with the present invention, is illustrated in Fig. 1. The dampening
system 10 includes apan roller 12 partially immersed in afluid pan 14 filled with a dampening solution. A typical dampening solution includes water, alcohol, and gum arabic. - Referring to Figs. 1 through 4, the
pan roller 12 is rotatable about its longitudinalcentral axis 25 and has a cylindrical outer surface. The longitudinalcentral axis 25 of thepan roller 12 lies on avertical line 19. The outer surface of thepan roller 12 as is conventional is made of a chrome material. Thepan roller 12 is located adjacent to aslip roller 16. Theslip roller 16 is rotatable about its longitudinal central axis 27 and has a cylindrical outer surface. Aline 21 extends through the longitudinal central axis 27 of theslip roller 16 and the longitudinalcentral axis 25 of thepan roller 12. The position of theslip roller 16 relative to the position of thepan roller 12 is such that thelines slip roller 16 as is conventional is made of a rubber material. - A
nip 18 is formed between thepan roller 12 and theslip roller 16 along the axial extent of the tworollers nip 18 has afluid entrance side 11 and afluid exit side 13. Theentrance side 11 of thenip 18 and theexit side 13 of thenip 18 are located on opposite sides of theline 21. One side of theline 21 is at a higher elevation than the other side of theline 21. Theentrance side 11 of thenip 18 is on the side of theline 21 at the higher elevation. Theexit side 13 of the nip is on the side of theline 21 at the lower elevation. - The
slip roller 16 is located adjacent to avibrator roller 20. Thevibrator roller 20, in turn, is located adjacent to aform roller 22. Thevibrator roller 20 and theform roller 22 have cylindrical outer surfaces and are rotatable about their respective longitudinal central axes. Theform roller 22 is disposed adjacent to aprinting plate 23 secured to aprinting plate cylinder 24 of the printing press. - During operation of the printing press, the
pan roller 12 rotates about its longitudinalcentral axis 25 in one direction, while theslip roller 16 rotates about its longitudinal central axis 27 in the opposite direction. As shown in Figs. 1, 2 and 3, thepan roller 12 is rotating in the clockwise direction and theslip roller 16 is rotating in the counterclockwise direction. Thus, the pan and sliprollers nip 18 between thepan roller 12 and theslip roller 16. Since thepan roller 12 is partially immersed in thefluid pan 14, the dampening fluid in thefluid pan 14 adheres to the outer surface of thepan roller 12 as thepan roller 12 rotates about its longitudinalcentral axis 25. The fluid adheres to the outer surface of thepan roller 12 because of the affinity between the fluid and the chrome outer surface of thepan roller 12. - Referring to Figs. 3 and 4, the fluid is carried on the outer surface of the
pan roller 12 from thefluid pan 14 to theentrance side 11 of thenip 18 between thepan roller 12 and theslip roller 16. The fluid at theentrance side 11 of thenip 18 moves through thenip 18 to theexit side 13 of thenip 18 as the tworollers central axes 25, 27. Since theentrance side 11 of thenip 18 is at a higher elevation than theexit side 13 of thenip 18, gravity assists in the movement of the fluid through thenip 18. - As the fluid moves through the
nip 18 to theexit side 13 of thenip 18, some of the fluid is transferred from the outer surface of thepan roller 12 onto the outer surface of theslip roller 16. This transfer occurs because the affinity between the fluid and the rubber outer surface of theslip roller 16 is greater than the affinity between the fluid and the chrome outer surface of thepan roller 12. The fluid not transferred onto the outer surface of theslip roller 16 remains adhered to the outer surface of thepan roller 12. The fluid which remains adhered to the outer surface of thepan roller 12 is carried back to thefluid pan 14. - Referring to Figs. 1 and 4, as the
slip roller 16 continues to rotate about its longitudinal central axis 27, the fluid carried on the outer surface of theslip roller 16 is transferred onto the outer surface of thevibrator roller 20. Thevibrator roller 20, in turn, transfers the fluid on its outer surface to the outer surface of theform roller 22. In the same manner, the fluid carried on the outer surface of theform roller 22 is transferred onto the outer surface of theprinting plate 23. Thus, thepan roller 12, theslip roller 16, thevibrator roller 20, and theform roller 22 of the dampeningsystem 10 cooperate together to transfer fluid from thefluid pan 14 to the outer surface of theprinting plate 23 secured to theplate cylinder 24 of the printing press. - The amount of fluid transferred from the
fluid pan 14 to theprinting plate 23 can be varied. One way to vary the amount of fluid transferred from thefluid pan 14 to theprinting plate 23 is to change the rotational speed of either thepan roller 12 or theslip roller 16. Aspeed control mechanism 38, as known in the art, for varying the rotational speed of either thepan roller 12 or theslip roller 16 is operatively connected to the tworollers speed control mechanism 38 can be one of a multitude of conventional designs. Thus, details of its construction will not be discussed. An increase in the speed of either of the tworollers printing plate 23. A decrease in the speed of either of the tworollers printing plate 23. - Another way to control the amount of fluid transferred from the
fluid pan 14 to theprinting plate 23 is to skew thepan roller 12 relative to theslip roller 16 along the axial extent of the tworollers rollers rollers rollers fluid pan 14 to theprinting plate 23. A decrease in the contact pressure, up to a certain point, increases the amount of fluid transferred from thefluid pan 14 to theprinting plate 23. - The amount of fluid transferred from the
fluid pan 14 to theprinting plate 23 can also be controlled by varying the size of thenip 18 between thepan roller 12 and theslip roller 16. The contact pressure between the tworollers nip 18 between the tworollers pan roller 12 to theslip roller 16 varies as a function of the contact pressure between the tworollers adjustment mechanism 40, as known in the art, for adjusting the size of the contact area between thepan roller 12 and theslip roller 16 is operatively connected to the tworollers adjustment mechanism 40 can be one of a multitude of conventional designs. Thus, details of its construction will not be discussed. - The fluid in the
nip 18 is either transferred onto the outer surface of theslip roller 16 or remains adhered to the outer surface of thepan roller 12 as the tworollers central axes 25, 27. The amount of fluid flowing out of thenip 18 at theexit side 13 of thenip 18 is the sum of the amount of fluid on the outer surface of thepan roller 12 and the amount of fluid on the outer surface of theslip roller 16. A buildup of excess fluid at theentrance side 11 of thenip 18 occurs if the amount of fluid transferred from thefluid pan 14 to theentrance side 11 of thenip 18 exceeds the amount of fluid flowing out of thenip 18 at theexit side 13 of thenip 18. - If an excess fluid condition occurs, the excess fluid which builds up at the
entrance side 11 of thenip 18 tends to flow to the opposite axial ends of thenip 18. Most of the excess fluid flowing to the opposite axial ends of thenip 18 eventually flows off the opposite axial ends of thepan roller 12 back into thefluid pan 14. Some of the excess fluid at the opposite axial ends of thenip 18 tends to flow around the opposite axial ends of thenip 18 onto theslip roller 16. This tendency occurs because of the greater affinity between the fluid and rubber outer surface of theslip roller 16 relative to the affinity between the fluid and chrome outer surface of thepan roller 12, and the flow characteristics of the dampening solution. - The flow of excess fluid at the
entrance side 11 of thenip 18 around the opposite axial ends of thenip 18 onto theslip roller 16 is undesirable. Such flow is undesirable because of its uncontrolled nature and its adverse effect on the accurate control of the amount of fluid transferred to theprinting plate 23. One way to prevent this undesirable flow is to pick up the excess fluid at the opposite axial ends of thenip 18 and move the excess fluid away from theslip roller 16. - Referring to Figs. 2, 3 and 4, a
collar 30 is secured to thepan roller 12 at oneaxial end 15 of thepan roller 12. Thecollar 30 is made of a brass material. Thebrass collar 30 has a shape like a ring with an outer diameter greater than the outer diameter of thepan roller 12. Thebrass collar 30 is made of two separate pieces. Each piece has a semi-circular shape and forms one-half of thebrass collar 30. The two pieces are held together by suitable fasteners. When the fasteners are tightened to hold the two pieces together, thebrass collar 30 is fixedly secured to thepan roller 12. As shown in Fig. 2, abrass collar 35 identical to thebrass collar 30 is fixedly secured to thepan roller 12 at the otheraxial end 17 of thepan roller 12. - The two
brass collars pan roller 12 are used to pick up the excess fluid at the opposite axial ends of thenip 18. Since the function of each of thebrass collars brass collar 30 at the oneaxial end 15 of thepan roller 12 will be described in detail. The affinity between the fluid and thebrass collar 30 located at theaxial end 15 of thepan roller 12 is greater than the affinity between the fluid and the rubber outer surface of theslip roller 16. This greater affinity between the fluid and thebrass collar 30 tends to pick up the excess fluid at the axial end of thenip 18 as thebrass collar 30 rotates with thepan roller 12. As thebrass collar 30 continues to rotate with thepan roller 12, the fluid picked up by thebrass collar 30 moves away from theslip roller 16 and back to thefluid pan 14. Thus, the excess fluid at the axial end of thenip 18 is picked up and moved away from theslip roller 16. By preventing the excess fluid at the axial end of thenip 18 from flowing onto theslip roller 16 in this manner, accurate control of the amount of fluid transferred to theprinting plate 23 is maintained. - The preferred embodiment described hereinbefore includes the pair of
collars pan roller 12. However, it is contemplated that the twocollars slip roller 16. Furthermore, it is conceivable that only one collar be used instead of two collars. Thus, if one collar is used, the collar would be disposed at one axial end of either thepan roller 12 or theslip roller 16.
Claims (10)
- An apparatus for use in applying a dampening fluid to a printing plate (23) which receives ink and dampening fluid comprising, a source (14) of dampening fluid, a first roller (12) rotatable about its longitudinal central axis (25) and having an outer cylindrical surface for receiving dampening fluid from said source (14), a second roller (16) rotatable about its longitudinal central axis (27) and having an outer cylindrical surface, the outer surface of said second roller (16) and the outer surface of said first roller (12) defining a nip (18) between said first and second rollers, dampening fluid being transferable at said nip (18) from the outer surface of said first roller (12) to the outer surface of said second roller (16), said nip (18) having an entrance side (11) at which said first roller (12) carries dampening fluid to said nip (18) and an exit side (13) at which said first and second rollers (12, 16) carry dampening fluid away from said nip (18), an excess fluid condition being formed at the entrance side (11) of said nip (18) if the amount of dampening fluid carried to said nip (18) exceeds the amount of dampening fluid said first and second rollers (12, 16) carry away from said nip (18), and means for preventing fluid flow of the excess dampening fluid at the entrance side (11) of said nip (18) around the one axial end of said nip (18) to the exit side (13) of said nip (18), characterized in that said means consist only of one or two collars (30, 35) disposed at one axial end or both axial ends, respectively, of said nip (18) on said first roller (12) and rotatable therewith for transferring excess dampening fluid from the entrance side (11) of said nip (18) directly back to said source (14).
- The apparatus of claim 1 further including means (38) operatively connected with said first and second rollers (12, 16) for controlling the rotational speed of said first roller about its longitudinal central axis (25) and the rotational speed of said second roller about its longitudinal central axis (27).
- The apparatus of claim 1 further including means (40) operatively connected with said first and second rollers (12, 16) for adjusting the contact pressure at the nip (18) between said first and second rollers.
- The apparatus of claim 1 wherein a first axis (19) extends vertically and perpendicularly through the longitudinal central axis (25) of said first roller (12) and a second axis (21) extends perpendicularly through the longitudinal central axis of said first roller and the longitudinal central axis (27) of said second roller (16), the first and second axes intersecting to form a predetermined angle therebetween, the entrance and exit sides (11, 13) of said nip (18) being disposed on opposite sides of the second axis, the entrance side (11) of said nip (18) being at a higher vertical elevation than the exit side (13) of said nip (18).
- The apparatus of claim 1 wherein said collar (30) has a cylindrical ring shape.
- The apparatus of claim 1 wherein the outer diameter of said collar (30) is greater than the outer diameter of said first roller (12) on which said collar is disposed.
- The apparatus of claim 1 wherein said collar (30) is made of a brass material.
- The apparatus of claim 1 further including another collar (35) disposed at the other axial end of said nip (18) and on said first roller (12), each of said collars (30, 35) having a cylindrical ring shape.
- The apparatus of claim 8 wherein the outer diameter of each of said collars (30, 35) is greater than the outer diameter of said first roller (12).
- The apparatus of claim 8 wherein each of said collars (30, 35) is made of a brass material.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US28961288A | 1988-12-23 | 1988-12-23 | |
US289612 | 1988-12-23 |
Publications (3)
Publication Number | Publication Date |
---|---|
EP0374482A2 EP0374482A2 (en) | 1990-06-27 |
EP0374482A3 EP0374482A3 (en) | 1991-01-16 |
EP0374482B1 true EP0374482B1 (en) | 1994-07-20 |
Family
ID=23112288
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP89121273A Expired - Lifetime EP0374482B1 (en) | 1988-12-23 | 1989-11-17 | Apparatus for preventing undesired fluid flow past a flow control location |
Country Status (3)
Country | Link |
---|---|
EP (1) | EP0374482B1 (en) |
JP (1) | JP2573703B2 (en) |
DE (1) | DE68916922T2 (en) |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE102016007574A1 (en) | 2016-06-21 | 2017-12-21 | Fresenius Medical Care Deutschland Gmbh | Two-component drip edge |
Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2275514A (en) * | 1939-05-08 | 1942-03-10 | Miehle Printing Press & Mfg | Ink fountain structure |
Family Cites Families (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
BE472509A (en) * | ||||
GB293157A (en) * | 1927-05-10 | 1928-07-05 | Percy Gotch Robinson | Improvements in or relating to inking apparatus for printing machines |
FR1374410A (en) * | 1963-07-16 | 1964-10-09 | Method and apparatus for wetting plates for offset lithographic printing | |
BR7302384D0 (en) * | 1972-04-04 | 1974-06-27 | Dick Co Ab | IMPROVEMENTS IN OR RELATING TO CLEANING ROLLS OF A PERFECTING IN OR RELATING TO CLEANING ROLLS OF A DUPLICATOR MACHINE AS INK ROLLERS DUPLICATOR MACHINE AS INK ROLLERS |
CA1011995A (en) * | 1972-08-14 | 1977-06-14 | Dahlgren Manufacturing Company | Liquid applicator for lithographic systems |
JPS57123060A (en) * | 1981-01-22 | 1982-07-31 | Komori Printing Mach Co Ltd | Damping device for press |
JPS61290053A (en) * | 1985-06-17 | 1986-12-20 | Toshiba Mach Co Ltd | Excess dampening water removing mechanism of offset press |
-
1989
- 1989-11-17 DE DE1989616922 patent/DE68916922T2/en not_active Expired - Fee Related
- 1989-11-17 EP EP89121273A patent/EP0374482B1/en not_active Expired - Lifetime
- 1989-12-22 JP JP1334634A patent/JP2573703B2/en not_active Expired - Lifetime
Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2275514A (en) * | 1939-05-08 | 1942-03-10 | Miehle Printing Press & Mfg | Ink fountain structure |
Also Published As
Publication number | Publication date |
---|---|
EP0374482A2 (en) | 1990-06-27 |
JPH02215531A (en) | 1990-08-28 |
DE68916922D1 (en) | 1994-08-25 |
DE68916922T2 (en) | 1994-11-03 |
EP0374482A3 (en) | 1991-01-16 |
JP2573703B2 (en) | 1997-01-22 |
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