Patent Abstract:
The invention is a device for increasing the ink supply to the inking unit of a printing machine. The device provides a means for changing an intermittently rotating doctor roller to a continuously rotating doctor roller without changing the adjustments required to operate as an intermittently rotating doctor roller thereby increasing the supply of ink to the inking unit.

Full Description:
The invention is an improved device for supplying ink to the inking unit of a printing machine and particularly an offset printing machine. The device provides a means for increasing the ink transferred to the inking system without necessity for changing the adjustment of the inking system. 
     BACKGROUND OF THE INVENTION 
     The inking system of a printing machine generally comprises a rotating doctor roller which picks up ink on its surface from a supply ink fountain. A uniform ink film is formed on the roller by means of an adjustable blade. The ink is transferred from the doctor roller to the ink feed roller and transferred into the inking roller system. 
     In the devices presently used, the doctor roller rotates continuously or intermittently. The amount of ink transferred to the ink feed roller from the continuously rotating doctor roller depends on the length of mutual rolling path of both rollers. In the devices having an intermittently rotating doctor roller, the amount of ink transferred to the ink feed roller depends on the angle of rotation and contact of the doctor roller which is generally adjustable. 
     In the devices which are provided with a continuously rotating doctor roller, the amount of ink supplied to the inking system is regulated by the length of rolling contact of the doctor roller with the ink feed roller which is controlled by a regulation element. The amount of ink supplied to the inking system cannot be changed without readjustment of the regulation element. 
     BRIEF DESCRIPTION OF THE INVENTION 
     The disadvantages of known devices are overcome by the device of the present invention which comprises a sprocket rotatingly mounted with clearance on the doctor roller shaft. The sprocket is provided with a sprocket hub, the front wall of which is provided with at least one recess which engages at least one carrying pin fixed on a knob hub. The sprocket is coupled fixedly with a pawl disk, the circumferential curve of which is formed by two different radii and against which bears a follower roller of a rocking bent lever which rocks on a lever shaft which is mounted with a clearance on the side wall of the printing machine. 
     A clamping lever is mounted on the lever shaft in addition to the rocking bent lever. The clamping lever is provided with a cut-out in which is located a pull rod fixed with its one end on the rocking bent lever arm. The clamping lever arm bears with a set over part against the rocking bent lever arm. The pull rod is fitted with a spring which bears with its one end against the clamping lever arm and with its opposite end against a regulation nut threadedly mounted at the end of the pull rod. An ink transfer roller is mounted on arms fixedly mounted on the lever shaft. 
     Near the end of the doctor roller shaft is mounted a pin. At the ends of said pin are mounted guide rollers which engage slots formed in a knob hub. A spring is mounted in a cavity in the knob hub. The spring bears with its one end against the end of the doctor roller shaft and with its opposite end against a spring bearing structure which can be the bottom of the cavity formed in the knob hub. The spring mounted in the knob hub cavity prevents engagement of the pins with the recesses unless pressure is applied to the knob. The knob can be rotatingly connected to said knob hub (not shown). 
     An advantage of the present invention is that by engaging at least one carrying pin with at least one recess in the sprocket hub by pressing on the knob, the doctor roller is caused to rotate continuously. Since the amount of ink being supplied to the inking roller system depends on the doctor roller rotation, the ink supply to the inking roller system is increased to its maximum. 
     After the carrying pins are disengaged from the sprocket hub recess, the originally adjusted rate of ink supply is renewed automatically. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1 is a side view in section of the doctor roller and gearing. 
     FIG. 2 is a view of the doctor roller and associated apparatus along plane A--A of FIG. 1. 
     FIG. 3 is a view of the pull rod from plane B--B of FIG. 2. 
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
     A preferred embodiment of the invention is depicted schematically in the attached drawings where FIG. 1 is a side view of the doctor roller in section. In FIG. 2, the device is illustrated including the inking rollers in a broken-out section passing through the plane A--A of FIG. 1. FIG. 3 is a broken-out section passing through the plane B--B of FIG. 2. 
     The device according to the invention comprises a doctor roller 1 which is rotatingly mounted on the side wall 31 of the printing machine. Axial movement of the doctor roller is prevented by insert 2. Insert 2 is fixed by means of the washer 30 and screws on the side wall 31 of the printing machine. On the stepped part of insert 2, the adjustable cam 4 is fitted with a clearance. Adjustable cam 4 is provided with teeth which engage the teeth of intermediate gear 23 which is mounted with clearance on the side wall 31 of the printing machine. On the insert 2, cam 5 is fixedly mounted by means of screws. On the shaft of the doctor roller 1 is fixedly mounted ratchet wheel 7 which engages pawl 6 provided with a pin 35 which is fitted with clearance in the pawl disk 8. The pawl 6 is forced by means of torsion spring 10 into contact with cam 5 or with the adjustable cam 4. The sprocket 9 is rotatably mounted with clearance on the shaft of doctor roller 1. The sprocket 9 is fixedly connected with sprocket hub 11. The sprocket 9 is fixedly coupled with pawl disk 8 which is rotatably mounted with clearance on the shaft of doctor roller 1. The circumference of pawl disk 8 is formed by two different radii as shown in FIG. 2. At the end of the shaft of doctor roller 1 is slidably mounted knob 17 and knob hub 15. Tapered recesses 3 are formed in the face of sprocket hub 11 of sprocket 9 to engage tapered carrying pins 12 mounted on knob hub 15 of knob 17. 
     A pin 13 is mounted near the end of the shaft of doctor roller 1. At the ends of pin 13 are mounted with clearance guide rollers 14 which engage the adjacent longitudinal walls of axially oriented slots 32 in the knob hub 15 of knob 17. A return spring 16 is mounted in the cavity of knob hub 15 and bears with its one end against the end of the shaft of doctor roller 1 and with its opposite end against the cavity bottom of knob hub 15 of knob 17, to bias the pins 12 away from the recesses 3. 
     Between the doctor roller 1 and the distributing roller 19 (FIG. 2) is located ink feed roller 18 mounted in arms 26 fixedly mounted on shaft 27 which is mounted with clearance on the side walls of the printing machine. The rocking bent lever 24 is rotatably mounted on shaft 27. At one end of rocking bent lever 24 is fixed pull rod 28 which passes through a cut-out clamping lever 25. At the opposite end of the rocking bent lever 24 is mounted a roller 21 which bears against the circumference of pawl disk 8. The clamping lever 25 is mounted on the shaft 27 near the rocking bent lever 24. A spring 29 is mounted on the pull rod 28. One end of the spring 29 bears against a pair of regulation nuts 36 fitted at the end of pull rod 28 and with its opposite end against the arm of clamping lever 25. 
     A clamping brake 20 and regulation lever 22 are mounted on the shaft 40 of gear 33 shaft 40 being mounted with clearance on the side wall 31 of the printing machine. The gear 33 meshes with the teeth of intermediate gear 23 which mesh with the teeth of adjustable cam 4. 
     The arm of clamping lever 25 bears with its set-over part against the arm of reversed rocking bent lever 24 (FIG. 3). 
     The device operates as follows. 
     The sprocket 9 is driven from the form cylinder (not shown) by means of a chain. The sprocket 9 rotates in the direction of rotation of the doctor roller 1 and carries with its sprocket hub 11, pawl disk 8 and pawl 6. Pawl 6 is forced into contact with cam 5 and adjustable cam 4 by means of torsion spring 10. On adjustable cam 4 and cam 5 are formed two circumferential radii one of which is smaller than the other. When pawl 6 contacts the larger circumferential radii of adjustable cam 4 or cam 5, the pawl does not engage the teeth of ratchet wheel 7, and doctor roller 1 does not rotate. When pawl 6 contacts the circumferential radii of adjustable cam 4 or cam 5, the pawl engages the teeth of ratchet wheel 7, causing doctor roller 1 to rotate. The ink feed roller 18 continually rocks between contact with doctor roller 1 and distributing roller 19 due to the different radii of disk 8. 
     Upon loosening lock screw 41 and rotating regulation lever 22 which rotates gear 33, the adjustable cam 4 is rotated by means of gear 33 and the intermediate gear 23. Rotation of cam 4 changes the relation between the small and large radii of cam 4 and cam 5 and causes contact of pawl 6 with the different circumferential relationship of cam 4 and cam 5. The pawl 6 engages the teeth of ratchet wheel 7 which rotates doctor roller 1. Adjustable cam 4 and cam 5 have circumferential curves of corresponding shape. In the case when adjustable cam 4 is rotated toward cam 5 so that their circumferences coincide, the pawl 6 rolls intermittently on the large and small circumferential radii of cam 4 and cam 5 so that the maximum rotation of doctor roller 1 takes place, which is equal to a half rotation of the sprocket 9. 
     Manual control of the rate of rotation of doctor roller 1 can be carried out by means of knob 17. The rate of rotation of doctor roller 1 is adjusted by means of regulation lever 22 which causes rotation of adjustable cam 4 by means of gear 33 through intermediate gear 23. When the carrying pins 12 are engaged with recesses 3 in sprocket hub 11 of sprocket 9 (by pressing and holding the knob 17 toward the doctor roller 1), the doctor roller 1 ceases to rotate at the rate which was set by means of the regulation lever 22 and the doctor roller rotates continuously and the ink feed roller 18 is able to feed the maximum ink quantity to the distributing roller 19. When the carrying pins 12 are disengaged from the recesses 3 of sprocket hub 11 of sprocket 9 (by releasing the knob 17), the adjusted regimen of the rotation of doctor roller 1 which was adjusted by means of the regulation lever 22 is automatically renewed. The position of the regulation lever 22 is locked by means of the clamping brake 20 and lock screw 41. 
     1 - doctor roller 
     2 - insert 
     3 - recess 
     4 - adjustable cam 
     5 - cam 
     6 - pawl 
     7 - ratchet wheel 
     8 - pawl disk 
     9 - sprocket 
     10 - torsion spring 
     11 - sprocket hub 
     12 - carrying pin 
     13 - pin 
     14 - guide roller 
     15 - knob hub 
     16 - spring 
     17 - knob 
     18 - ink feed roller 
     19 - distributing roller 
     20 - brake 
     21 - pulley 
     22 - regulation lever 
     23 - intermediate gear 
     24 - rocking bent lever 
     25 - clamping lever 
     27 - arm 
     27 - shaft 
     28 - pull rod 
     29 - spring 
     30 - washer 
     31 - side wall 
     32 - slot 
     33 - gear 
     40 - shaft 
     41 - lock screw

Technology Classification (CPC): 8