Apparatus and method for controlling temperature of printing plate on cylinder in rotary press

In a rotary press, temperature of a printing plate is sensed by an infrared temperature sensor mounted in close proximity to a cylinder carrying the printing plate. Sensor output is used to control a closed loop of a water circulating system which includes one or more water-carrying rollers in an ink train. A water cooler and a water heater are provided in the closed loop and are controlled in response to the sensor output to maintain the printing plate at a temperature which allows proper inking thereof.

BACKGROUND OF THE INVENTION 
1. Field of the Invention 
The present invention pertains to rotary printing presses and, more 
particularly, to the control of the temperature of the plate on a cylinder 
in such presses. 
2. Description of the Related Art 
The temperature of the plate on a cylinder of a rotary printing press is 
important in maintaining printing quality as the ability to achieve proper 
inking of the plate is related to temperature. If the plate temperature is 
too high, the ink viscosity drops. Thus, the ink breaks down and tends to 
adhere to the nonimage bearing areas of the plate. Improper inking may 
also occur when the plate temperature is too low. 
U.S. Pat. No. 2,971,460 issued to Shindle in 1961 and discloses a system 
for controlling ink roller temperature in a printing press by means of 
water circulating through the hollow interior of the rollers. This system 
is primarily concerned with heating of the rollers with heat extracted 
from web cooling rollers. When cooling of the inking rollers is necessary, 
the system relies on the use of cold water from an external source with 
the subsequent discharge of the water to a drain. However, such an open 
circulation system is wasteful of water. 
Temperature control in the Shindle system is by way of thermostatic valves 
which are responsive to the water temperature which is, effectively, only 
an indirect measurement of the inking roller temperature. 
Modern rotary presses and the inks used therewith are such that cooling, 
rather than heating, of the inking train and printing plate has primary 
importance. It is, accordingly, a primary object of the present invention 
to provide a system for effecting such cooling in an efficient, 
water-conserving manner. 
In the printing process, the critical temperature for proper inking is that 
of the printing plate itself. It is also a principal object of the present 
invention to provide a temperature control system which is directly 
responsive to the plate temperature. 
A further object of the invention is the provision of such a temperature 
control system which is capable of either cooling or heating the printing 
plate. 
SUMMARY OF THE INVENTION 
The above and other objects of the invention will become apparent 
hereinafter and are achieved by the provision of a plate temperature 
control system for a rotary printing press. This system includes a closed 
loop water circulating system including one or more, preferably three, 
hollow, water-carrying rollers in the ink train of the press, a water 
heater, a water cooler, a controlled mixing valve, and a circulating pump; 
an electrical control system for the water heater, water cooler, mixing 
valve and pump; and an infrared temperature sensor being mounted in close 
proximity to the plate cylinder of the press to detect its temperature. 
The sensor also provides input to the control system. 
For a more complete understanding of the invention and the objects thereof, 
reference should be made to the accompanying drawing and the following 
detailed description wherein a preferred embodiment of the invention is 
illustrated and described.

DESCRIPTION OF THE PREFERRED EMBODIMENT 
Generally, a rotary offset printing press 10, with the exception of the 
temperature control system of the present invention, has a conventional 
design and construction. Such a press 10 includes a plate cylinder 12 
which carries, on the circumferential face thereof, a printing plate 14. 
Ink is furnished to the plate 14 from a fountain 16 by way of an ink train 
18 consisting of a plurality of inking rollers 30. As is well known, the 
plate 14 is etched so as to be ink receptive only in those areas which are 
to be printed. From the plate 14, the ink is transferred to a blanket 
cylinder 20 and then to a sheet or web 22 of paper or the like brought 
into contact therewith by an impression cylinder 24. 
As was discussed above, proper inking of the plate 14, so as to provide 
quality printing, is dependent, in part, on the ink temperature as it is 
applied to the plate 14. Excessive temperature causes a lowering of ink 
viscosity and a break down of the ink with smearing of the ink onto the 
nonprinting regions of the plate 14. Improper inking of the plate 14 may 
also occur when the ink temperature is too low, as may be the case during 
start-up or after the press 10 has been shutdown for a long period of 
time. 
In accordance with the present invention, a closed loop water circulating 
system responsive to the temperature of the printing plate 14 is provided 
to maintain the desired plate temperature and, accordingly, the 
temperature of the ink applied thereto. In this system, one or more, 
preferably three, of the rollers 30 of the ink train 18 are hollow and are 
provided with rotary water inlet and outlet connections 32 and 34, 
respectively, whereby water is circulated within the rollers 30 in heat 
exchange therewith. The details of such rollers 30 and rotary connections 
32 and 34 are well known and need not be further described herein. 
Supply and return conduits 36 and 38, respectively, connect the rollers 30 
to a water circulating and cooling/heating unit 40. Water entering the 
unit 40 from conduit 38 flows first through a water heater 42 which is, 
preferably, a flow-through electric heater, to a pipe 44 leading to an 
inlet chamber 46 of a dual chamber reservoir 48. A water chiller 50 has 
its inlet connected to the inlet chamber 46 by a pipe 52, a first 
circulating pump 54, and a pipe 56. The water chiller 50 has its outlet 
connected to an outlet chamber 58 of the reservoir 48 by a pipe 60. The 
chiller 50 is connected to a refrigeration system including a compressor 
62 and a condenser 64 via refrigerant lines 66 and 68, respectively. A 
controllable mixing valve 70 has its first inlet connected by piping 72 to 
the outlet chamber 58 of the reservoir 48 and its second inlet connected 
to a pipe 74 which branches from the pipe 44. The outlet of the valve 70 
is connected by piping 76 to a second circulating pump 78 which, in turn, 
has its outlet connected to the supply conduit 36. 
The cooling/heating unit 40 is capable of circulating either cooled or 
heated water through the rollers 30 of the ink train 18 in order to 
maintain the ink at the desired temperature for proper inking of the plate 
14. Operation of the unit 40 is regulated by an electrical control unit 82 
in accordance with the temperature of the printing plate 14. A plate 
temperature sensor 84 provides an input to the control unit 82. In the 
preferred embodiment, this sensor 84 is an infrared sensor mounted in 
close proximity to the periphery of the printing plate 14 of the cylinder 
12, preferably midway between the ends thereof. It will be appreciated, 
however, that other types of sensors for detecting the temperature of the 
printing plate 14 may be employed. The control unit 82 is provided with an 
appropriate input device 86 by which the desired plate temperature is 
supplied manually by an operator of the printing press 10. 
The operation of the invention will now be described. When the press 10 is 
initially started, the cylinders 12 and the rollers 30 may be such that 
the plate temperature is lower than desired. Under these circumstances, 
the control unit 82 activates the second circulating pump 78 and the water 
heater 42. The unit 82 also energizes the mixing valve 70 so that water is 
circulated through the heater 42, the pipe 44, the branch pipe 74, and the 
pipe 76 to the second circulating pump 78 to supply heated water to the 
conduit 36 for circulation through the hollow ink rollers 30. 
As the plate temperature rises due both to heat supplied by the unit 40 and 
also due to frictionally generated heat occurring during operation of the 
press 10, cooling of the printing plate 14 becomes necessary to maintain 
the desired inking temperature. In the cooling mode of the unit 40, the 
heater 42 is turned off while the chiller 50 is activated to maintain a 
supply of cooled water in the outlet chamber 58. The mixing valve 70, 
under control of the control unit 82, regulates the temperature of the 
water supplied to the inking rollers 30 through the conduit 36 by 
proportioning the amount of cooled water from the chamber 58 with the 
amount of warm water returning from the rollers 30 through the conduit 38 
and the branch pipe 74. By way of example, if a plate temperature of 
60.degree. F. is desired, the temperature of the water supplied is about 
48.degree. F. as will be apparent to those skilled in the art, the 
temperatures are dependent on several factors, including the speed of the 
operating press 10 and the amount of ink coverage. 
While, in the illustrated embodiment, the cooling/heating unit 40 is an 
integrated unit, it may be preferable to have the reservoir 48 and the 
water chiller 50 located separately from the remainder of the unit 40. The 
space available for installation, as well as other factors, determine the 
particular configuration. 
As these and other changes may be made in the described embodiment of the 
invention without departing from the spirit thereof, reference should be 
had to the appended claims in determining the true scope of the invention.