JPH0425461A - Damping water feeder - Google Patents

Abstract

PURPOSE:To control the alcohol concentration of damping water accurately by detecting the alcohol concentration of damping water and adjusting the quantity of isopropyl alcohol fed to a storage tank on the basis of a voltage signal corresponding to concentration. CONSTITUTION:Clean water from a water source 1 is supplied to a storage vessel 7 at every fixed quantity through a piping 2 first while a pump 6 is driven and IPA is fed and mixed to the storage vessel 7 through a piping 5 from an alcohol source 4, and stored as damping water. Damping water is flowed into an agitating vessel 9 through a feed piping 8, and fed to a printer. When damping water is passed through an alcohol sensor 10, alcohol concentration is inspected, and output as a voltage signal. A controller 16 changes over and controls a switch changeover mechanism 18 in response to the detecting voltage V0, and the pump motor section 6B of the pump 6 is driven and controlled. Accordingly, the quantity of IPA fed to the storage vessel 7 is adjusted, thus regulating alcohol concentration.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a dampening water supply device for supplying dampening water to an offset printing press.

[Prior Art] Generally, in offset printing, oil-based printing ink is applied to a photographic metal flat plate whose surface has been chemically treated or to a rotary press, transferred to a rubber blanket roller, and then transferred onto paper for printing. At this time, on the surface of the photo metal flat plate or rotary press,
Ink is applied after entering the concave part so that the ink adheres only to the convex part, but since normal water has a large surface tension, it does not penetrate into the narrow concave part (to solve this problem, A surfactant is added to water.Isopropyl alcohol (hereinafter referred to as rIPAJ) is generally used as this surfactant.
A so-called dampening solution mixed with a concentration of 20% is applied to the recesses.

On the other hand, the dampening water supply device has a water source that supplies clean water, and an I
It is roughly composed of an alcohol source that supplies PA, and a storage tank that stores dampening water made of clean water from the water source and IPA from the alcohol source, and the dampening water is supplied from the storage tank to the printing machine via a supply pipe. It is now possible to do so.

Furthermore, the dampening water stored in the storage tank has a concentration of 5 to 20%.
However, maintenance and management of this concentration was carried out by sampling a portion of the dampening water, testing the alcohol concentration with a gas sensor, and adjusting the amounts of clean water and IPA supplied to the storage tank.

[Problem to be solved by the invention]

However, in the conventional dampening water supply device described above, the alcohol concentration is only controlled intermittently through sampling tests, which not only requires a great deal of time and effort to control the concentration. If the concentration is controlled in this way, the consumption of expensive IPA will be large (
The problem is that it ends up being wasted and wasted.

The present invention was made in view of the problems of the prior art, and it is an object of the present invention to provide a dampening water supply device that can accurately control the alcohol concentration of dampening water.

[Means for Solving the Problems] In order to achieve the above object, the present invention provides a water source that supplies clean water, an alcohol source that supplies isopropyl alcohol, and a water source that supplies clean water from the water source and isopropyl alcohol from the alcohol source. a storage tank for storing dampening water supplied and mixed with alcohol; a pump provided in a flow path between the alcohol source and the storage tank and capable of supplying isopropyl alcohol by being driven by a pump motor; A supply pipe that supplies the dampening water stored in a storage tank to the printing machine, and a supply system consisting of the storage tank and the supply pipe are provided in the middle of the supply system to detect the alcohol concentration of the dampening water and apply a voltage according to the alcohol concentration. Consisting of an alcohol concentration detection means that outputs a signal, and a pump motor control means that drives and controls the pump motor based on the voltage signal from the alcohol concentration detection means to maintain a constant alcohol concentration in the dampening water. .

[Function] With the above configuration, clean water is constantly supplied from the water source to the storage tank, and isopropyl alcohol is supplied from the alcohol source to the storage tank with its flow rate controlled by the pump and mixed with each other, and the water is poured into the storage tank as dampening water. and is supplied to the printing press via the supply piping. Further, an alcohol concentration detection means provided in the supply system detects the alcohol concentration of the dampening water and outputs a voltage signal corresponding to the alcohol concentration. Then, the pump motor control means drives and controls the pump motor based on this voltage signal, adjusts the amount of isopropyl alcohol supplied to the storage tank, and maintains the alcohol concentration in the dampening water within a certain range.

〔Example〕

Embodiments of the present invention will be described below with reference to FIGS. 1 to 6.

In the figure, 1 is a water source that supplies clean water such as distilled water,
A pipe 2 is connected to the water source 1, and clean water from the water source 1 is supplied via the pipe 2 to a storage tank 7, which will be described later. 3 is an on-off valve provided in the middle of the pipe 2, and the amount of clean water supplied from the water source 1 is adjusted by the on-off valve 3.

4 is isopropyl alcohol (hereinafter referred to as rIPAJ)
A pipe 5 is connected to the alcohol source 4, and IPA from the alcohol source 4 is supplied to a storage tank 7 via the pipe 5. A pump 6 is provided in the middle of the pipe 5 and supplies IPA from the alcohol source 4 to the storage tank 7. The pump 6 is connected to a pump section 6A provided directly on the pipe 5 and the pump section 6A.
The pump includes a pump motor section 6B that drives the pump section 6A, and is configured as a positive displacement pump such as a gear type.

On the other hand, 7 is a storage tank to which clean water from water source 1 and IPA from alcohol source 4 are supplied and stored as dampening water.
A pipe 2 from the water source 1 and a pipe 5 from the alcohol source 4 are respectively extended into the storage tank 7, so that the clean water and IPA supplied into the storage tank 7 are mixed with each other.

8 is a printing machine (not shown) that uses the dampening water stored in the storage tank 7.
A stirring tank 9 is provided in the middle of the supply pipe 8 to stir the dampening water flowing from the storage tank 7 with an agitator 9A, and a stirring tank 9 is provided downstream of the stirring tank 9 to stir the dampening water flowing from the storage tank 7. An alcohol sensor 10 is provided as alcohol concentration detection means for detecting the concentration of dampening water stirred in the tank 9.

Here, the alcohol sensor 10 is configured as follows. That is, a capacitance detector 11 consisting of a pair of parallel plate-shaped or coaxial co-cylindrical electrode plates provided in the supply pipe 8, and a detected capacitance C1 by the capacitance detector 11.
An oscillation circuit 12 that oscillates at an oscillation frequency f based on the oscillation frequency f, and a detection voltage ■ for the oscillation frequency f from the oscillation circuit 12. A frequency-voltage conversion circuit 13 (hereinafter referred to as "RF/V conversion circuit 13") for converting the frequency and voltage, a temperature-sensitive resistance element 14 (thermistor, posistor, etc.) for temperature correction provided in the supply piping 8, and The temperature correction circuit 15 includes a temperature-sensitive resistance element 14. And since the relationship between the alcohol concentration M and the dielectric constant ε of warm water has the characteristics shown in Figure 3,
The capacitance C8 detected by the capacitance detector 11 and the alcohol concentration M have the relationship shown in FIG. has a characteristic as shown in FIG. 5, and temperature correction is performed by the temperature correction circuit 15. Thereby, the alcohol sensor 10 outputs the detection voltage v0 according to the alcohol concentration as a voltage signal.

16 is electrically connected to the alcohol sensor 10 via a wiring 17, and detects the detected voltage from the alcohol sensor 10.
The control device 16 is a control device that drives and controls the pump motor section 6B based on the first and second counters 16A,
16B, and is equipped with the functions shown in FIG.

Reference numeral 18 denotes a switch switching mechanism that is provided in the middle of a connection wiring 20 that electrically connects the power supply 19 and the pump motor section 6B, and connects and disconnects this connection wiring 20. Detection voltage V. The control device 16 controls the switch changeover mechanism 18 in accordance with the above, and controls the pump motor section 6B to control the IP to the storage tank 7.
The supply amount of A is adjusted. The control device 16, switch switching mechanism 18, and power source 19 constitute a pump motor control means 21.

The dampening water supply device of this embodiment is constructed as described above, and its operation will be explained next.

First, the on-off valve 3 of the water source 1 is always open, and a fixed amount of clean water from the water source 1 is supplied to the storage tank 7 via the pipe 2. At the same time, the pump 6 is driven to supply IPA from the alcohol source 4 via the pipe 5 to the storage tank 7, where the clean water and IPA are mixed and stored in the storage tank 7 as dampening water. The dampening water in the storage tank 7 flows into the stirring tank 9 via the supply pipe 8, is stirred by the stirrer 9A in the stirring tank 9, passes through the alcohol sensor 10, and is supplied to the printing machine. Ru.

On the other hand, when the dampening water passes through the alcohol sensor 1o, the alcohol concentration of the dampening water is tested by the alcohol sensor 10. That is, the capacitance Cs of the capacitance detector 11 changes according to the alcohol concentration of the dampening water, the oscillation frequency f changes accordingly, and the f/V conversion circuit 13 generates a voltage according to the frequency f. is output, corrected by the temperature correction circuit 15, and detected voltage (■) as a voltage signal. is output.

And this detection voltage■. Accordingly, the control device 16 controls the switching mechanism 18 to drive and control the pump motor section 6B of the pump 6. As a result, the amount of IPA supplied to the storage tank 7 is adjusted, and as a result, the alcohol concentration is adjusted.

Next, specific control by the control device 16 will be explained based on FIG. 6.

First, in step], the count number I of the first counter 16A is
is reset, and in step 2, the count number J of the second counter 16B is reset. Next, in step 3, the detected voltage vo detected by the alcohol sensor 1o is read, and in step 4, the detected voltage vo is read. and a preset lower limit voltage (■1) are compared. Here, the set lower limit voltage ■ is the detection output from the alcohol sensor 10 at the lowest concentration when controlling the alcohol concentration of dampening water (for example, 5% when controlling in the range of 5 to 20%). Refers to voltage value.

And the detection voltage V. When it is determined that is smaller than the set lower limit voltage ■1, that is, when the alcohol concentration is less than 5%, the first counter 16A counts in step 5, and the count number ■ and the program cycle are set in step 6. Count math, and are compared. Here, the set count number 1 is set to a value that allows this IPA to reach the alcohol sensor 10 from the storage tank 7 via the supply pipe 8 when the pump 6 is driven to supply IPA. .

Then, when it is determined that the count is equal to or less than the set count, the pump motor section 6B of the pump 6 is driven in step 7, and IPA is pumped from the alcohol source 4 into the storage tank 7.
is supplied, and returns to step 3 again, and step 3 →
The cycle of 4→5→6-7→3 is repeated until it is determined in step 6 that the count number ■ is larger than the set count number.

On the other hand, in step 6, the count number ■ is the set count number ■,
When it is determined that it is larger than that, that is, the step 3→
The pump motor unit 6B was driven and controlled while repeating the cycle of 4 → 5 → 6-7 → 3, but finally the alcohol concentration reached the set lower limit voltage V (5%)
If the value cannot be exceeded, it is assumed that there is a malfunction such as an abnormality in the supply of clean water from the water source 1 or a failure of the pump 6, and a warning is issued by voice, lamp, etc. in step 8.

Also, in step 4, detect the voltage ■. When it is determined that the voltage is equal to or higher than the set lower limit voltage 71, the process moves to step 9.
The detection voltage is V. and the set upper limit voltage v2 are compared. Here, the set upper limit voltage v2 refers to the detected voltage value output from the alcohol sensor 10 at the highest alcohol concentration (for example, 20%) when controlling the alcohol concentration.

Then, when it is determined that the detected voltage ■o is larger than the set upper limit voltage V2, the second counter 16
B is counted, and in step 11 the second counter 16B
The count number J is compared with the set count number J. Here, the set count number J is set to the same value as the set count number 18.

If the count number J is equal to or less than the set count number J, the pump motor section 6B of the pump 6 is stopped in step 12, and the process returns to step 3.

Then, step 3 → 4 → 9-10 → 11 → 12 →
While repeating the cycle 3, the dampening water is diluted with clean water supplied from the water source 1, and is repeated until the alcohol concentration becomes equal to or lower than the alcohol concentration (20%) at the set upper limit voltage v2.

Then, when the count number J exceeds the set count number J in step 11, that is, the step 3-14→9→
While repeating the cycle of 10 → 11 → 12-3, the drive of the pump motor section 6B was stopped and only clean water from the water source 1 was supplied to the storage tank 7, but in the end, the alcohol concentration reached the alcohol fi?at the set upper limit voltage vI? If the water pressure cannot be lowered below this level, it is assumed that there is a malfunction such as an abnormality in the supply of clean water from the water source 1 or a failure of the pump 6, and a warning is issued by voice, lamp, etc. in step 13.

On the other hand, in step 9, the detection voltage is V. is smaller than the set upper limit voltage ■2, in step 14 the pump 6
The drive of the pump motor section 6B is stopped. In addition, when step 14 is reached through the cycle of steps 3→4→9→10→11-12-3, the pump motor section 6B is maintained in a drive stopped state. Then, the process returns to step 15.

Thus, according to this embodiment, the alcohol concentration of the dampening water supplied to the printing press via the supply pipe 8 can be maintained within a certain range (5 to 20%) without wasting time and effort. , consumption of expensive IPA can be suppressed, and running costs can be reduced.

Furthermore, by arbitrarily setting the set lower limit voltage (2) and the set upper limit voltage V2, the alcohol concentration can be continuously adjusted to an arbitrary value.

Furthermore, if the alcohol concentration in the dampening solution becomes abnormally high or low, a warning will be issued to the operator.
Problems caused by abnormal alcohol concentration can be reliably prevented, and the reliability of the dampening water supply device is improved.

In the above embodiment, the alcohol sensor 10 is configured as a capacitance-type alcohol sensor using the capacitance detector 11, but the invention is not limited to this. Other types of sensors may be used, such as an alcohol sensor or an optical alcohol sensor that utilizes a change in refractive index.

〔Effect of the invention〕

The dampening water supply device according to the present invention is as described in detail above, and detects the alcohol concentration of the dampening water in the supply system consisting of a storage tank and supply piping, and outputs a voltage signal corresponding to the alcohol concentration. further provided is a pump motor control means for driving and controlling the pump motor based on the voltage signal from the alcohol concentration detection means; Since the dampening water is controlled and configured to adjust the alcohol concentration of the dampening water, it is possible to save the trouble of sampling the dampening water at regular intervals and determining the concentration using a gas sensor as in the conventional technology. It becomes easier to manage the concentration of IPA, and the consumption of expensive IPA can be reduced, leading to a reduction in running costs.

Further, by arbitrarily setting the control reference voltage for driving the pump motor, the alcohol concentration can be adjusted continuously and arbitrarily.

Furthermore, if the alcohol concentration in the dampening water becomes abnormally high (or abnormally low), it is possible to warn the operator, making it possible to reliably prevent problems caused by abnormal alcohol concentration. The reliability of the dampening water supply device is improved.

[Brief explanation of drawings]

1 to 6 relate to embodiments of the present invention, in which FIG. 1 is an overall configuration diagram showing the dampening water supply device, FIG. 2 is a block diagram showing the circuit configuration of the alcohol sensor, and FIG. 3 is a dampening water supply device. Characteristic diagram showing the relationship between the alcohol concentration of water and the dielectric constant, No. 4
The figure is a characteristic diagram showing the relationship between the alcohol concentration of the dampening solution and the capacitance of the capacitance detector. Figure 5 is the characteristic diagram showing the relationship between the alcohol concentration of the dampening solution and the detection voltage from the alcohol sensor. FIG. 6 is a flowchart showing the pump motor control process in the control device. l... Water source, 4... Alcohol source, 6... Pump, 6A... Pump section, 6B... Pump motor section, 7
...Storage tank, 8. Supply piping, 10. Alcohol sensor, 16. Control device, 18. Switch switching mechanism. Patent Applicant Japan Electronics Co., Ltd. Agent Patent Attorney Kazuhiko Hirose

Claims (1)

[Claims] a water source for supplying clean water; an alcohol source for supplying isopropyl alcohol; a storage tank for storing dampening water obtained by supplying and mixing the clean water from the water source and the isopropyl alcohol from the alcohol source; and the alcohol source. a pump that is provided in a flow path between the storage tank and can supply isopropyl alcohol by being driven by a pump motor; a supply pipe that supplies dampening water stored in the storage tank to the printing press; It is installed in the middle of the supply system consisting of supply piping, and detects the alcohol concentration of the dampening water.
Alcohol concentration detection means that outputs a voltage signal according to the alcohol concentration; and a pump motor that drives and controls the pump motor based on the voltage signal from the alcohol concentration detection means to maintain a constant alcohol concentration in the dampening water. A dampening water supply device comprising a control means.