JPH01141744A - Ink circulating apparatus - Google Patents

Abstract

PURPOSE:To prevent stain and scattering of ink in a transparent container of an ink detector, by a method wherein an ink chamber is formed on the outlet side of a filter in a filter apparatus, and a dipping pipe for feeding to the ink detector is established after pressurizing ink in the chamber by a pressurized air layer. CONSTITUTION:Ink from an ink circulating pump 21 is stored in an ink chamber 13b on the outlet side of a filter after filtration with the filter 14 of an filter apparatus 12. Herein, the ink in the ink chamber 13b is pressurized to a specific pressure by a pressurized air layer 16a. Therefore, pulsation caused with an ink circulating pump 21 is absorbed and is made smooth. The ink of which pressure is made smooth is supplied to a nozzle 10 of an ink detector 7 via a dipping pipe 8. Consequently, ink stain and ink scattering in a transparent container 7a of the ink detector 7 are prevented, and ink run out is certainly detected. At the same time, an amount of ink in the transparent container 7a can be visually easily confirmed.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application J] The present invention relates to an ink ring device used in a flexo printing machine.

[Prior Art] An ink circulation device used in a flexographic printing machine continuously supplies ink from an ink circulation pump to an anilox roller of the flexographic printing machine via a filter device, and excess ink is collected in a tank and circulated again. Ru. An ink detection device is provided between the anix roller and the filter device for observing ink running out. This ink detection device includes a cylindrical transparent container, and allows the amount of ink inside the container to be visually confirmed. Further, this container is provided with a nozzle for ejecting ink from the filter device and a sensor capable of electrically detecting the ink ejected from the nozzle.

[Problems to be Solved by the Invention] However, in the conventional ink circulation device, since the pressure from the ink circulation pump pulsates, the ink ejected from the nozzle of the ink detection device also pulsates. For this reason,
Ink scatters within the transparent container of the ink detection device, making it difficult to visually confirm the amount of ink, and the sensor may malfunction due to ink scattering from the nozzle.

The present invention was made in order to eliminate the conventional drawbacks,
It is an object of the present invention to provide an ink circulation device equipped with an ink detection device that can reliably detect ink shortage and easily visually confirm the amount of ink in a transparent container [Means for solving the problem] The ink circulation device according to the present invention includes an ink circulation pump,
A filter device containing a filter element that filters the ink from the circulation pump, a transparent container that is disposed between the filter device and the printing machine and holds the ink to be supplied to the printing press, and an ink container that contains the ink inside the transparent container. An ink circulation device comprising: an ink detection device having an ink detection device having a nozzle that ejects an ink, an ink chamber formed on the outlet side of the filter in the filter device; It is characterized by comprising an air layer and a dip pipe whose one end projects into the ink contained in the ink chamber and whose other end communicates with the ink detection device.

[Function] According to this ink device, the ink filtered by the filter element is stored in the ink chamber, and this ink is pressurized to a predetermined pressure by the pressurized air layer. Therefore, the pulsation caused by the ink circulation pump is smoothed, and the ink whose pressure is smoothed is supplied to the nozzle of the ink detection device.

[Example] FIG. 1 shows an ink circulation device according to an example of the present invention,
FIG. 2 shows a flexo printing machine using this ink circulation system.

As shown in FIG. 2, when printing, for example, on cardboard 1 with this printing machine, the cardboard 1 is inserted through the press r142 and the printing cylinder 31il. Ink is applied to this printing cylinder 3 by an anilox roller 4. A doctor roller 5 is arranged adjacent to the anilox roller 4, and ink is supplied to the boundary between the anilox roller 4 and the doctor roller 5 from an ink detection device 7 in an ink circulation system. Excess ink is collected via the ink receiver 6 and circulated again.

As shown in FIG. 1, the ink circulation device includes an ink detection device 7 that supplies ink to the flexo printing machine, and an ink circulation pump 21 that pumps ink from an ink tank 20 via a filter device t12. This ink circulation pump 21 is formed by a diaphragm pump. Note that the conduit 23 is a conduit for cleaning.

Ink detection device! 7 is a transparent container 7 formed into a substantially cylindrical shape.
a, and the upper lid portion of the transparent container 7a has a through hole 7b for adjusting the pressure inside the transparent container to control the pressure of ink supplied to the flexo printing machine, and a filter device via a conduit 8. A nozzle 10 communicating with 12 is provided. Inside this nozzle 10, as shown in FIG. 3, ink flow rectifying plates 11 arranged in a cross shape are provided. This rectifier plate 11 prevents the ink flowing out from the nozzle 10 from scattering, and furthermore, even when the ink flow rate is low, the ink continuously flows out from approximately the center of the nozzle, thereby preventing malfunction of the ink sensor 9 described later. .

The transparent container 7a also detects the ink flow ejected from the nozzle 10! For example, an electric ink sensor 9 is provided, and this sensor 9 has a detection piece 9a that contacts the ink flow flowing out from the nozzle 10 and electrically detects the presence or absence of the ink flow, and the detection signal is not shown. Sent to control device. If it is detected that no ink is ejected from the nozzle 10 for a predetermined period of time 2!7, the printing press is stopped.

The filter device 12 includes a cylindrical main body 13 with an open top,
A lid member 16 that closes the upper opening is provided. Main body 1
A filter element 14 is installed inside the main body 13, and the filter element 14 divides the interior of the main body 13 into an inlet chamber 13a and an ink chamber 13b that accommodates ink filtered by the filter element 14.

This inlet chamber 13a communicates with an inlet boat 19 formed in the main body 13, and this inlet boat 19 communicates with the outlet side of the ink circulation pump 21 via a conduit 22. Further, a communication passage 17 extends through the lid member 16, and this communication passage 17 communicates with a nozzle 10 of the ink detection device via a conduit 8.

One end of a dipping vibrator 15 extending from the lid member 16 projects into the ink housed in the ink chamber 13b, and the other end of this dipping vibrator 15 communicates with the guide passage 17.

Furthermore, air 1 is placed above the ink chamber 13b.
16a is arranged. This air layer 16a pressurizes the ink contained in the ink chamber 13b, and the ink is passed from one end of the immersion vibrator 15 through the guide passage 17 and the conduit 8 to the ink detection device. 17 nozzles 10. This air layer 16a may be pressurized directly as shown in the figure, as long as the ink can be pressurized, or it may be pressurized via an H film member such as a diaphragm. In the case of using a thin film member, the ink chamber can be provided at an appropriate position other than the top of the ink chamber, such as the side or bottom.

In this embodiment, the air 1116 is maintained at a predetermined pressure by pressurized air supplied from an external pressure source. That is, the air passage 18 formed in the air layer 16au lid member 16
This air passage 18 communicates with the pressure reducing valves 24 and 25.
A pneumatic line 27 that supplies pressurized air at a constant pressure through
communicate with. The pressure reducing valve 24 used in this example is 8 to 10K.
The air pressure of g/d was set to be reduced to 2 Ky/ad, and the pressure reducing valve 25 was set to further reduce the pressure to 0.2 to 0.5 to 9/cd. Note that from the outlet side of the pressure reducing valve 24,
A working air line with an intervening solenoid valve 26 extends to the pump 21 .

Next, the operation of the above ink circulation device will be explained.

Ink sucked from the ink tank 20 by the pump 21 is pumped to the inlet boat 19 of the filter device 12 via the conduit 22. This ink further enters the inlet chamber 13a through the inlet port 19 and enters the filter element 1.
Yu filtered by 4.

The ink is sent into the ink chamber 13b. Air 1116a maintained at a predetermined pressure is formed in the upper part of the ink chamber 13b through the conduit 27 and the air passage 18, so that the ink flowing into the ink chamber 13b is not pulsated by the pump 21. This is canceled out and pressurized by the air layer 16a to maintain a predetermined pressure.

Therefore, the ink in the ink chamber 13b flows from one end of the immersion vibe 15 through the communication passage 17 and the pipe line 8.
The ink is ejected from the nozzle 10 of the ink detection device 7 into the transparent container 7a. A rectifier plate 11 is provided on the exit side of the nozzle 10, and since the ink supply pressure is constant, even if the amount of ink is small, the ink flows through the nozzle 10 as a steady flow through the approximately central part of the nozzle 10. There will be no leakage, splashing, or leakage from local areas of the nozzle.

Thereby, even when the ink flow rate is small, the ink flow reliably hits the detection piece 9a of the ink sensor 9, and malfunction of the ink sensor is prevented.

A predetermined amount of ink is held in the transparent container 7a of the ink detection device 7, and as shown in FIG. Ink is supplied during this period. in this case,
Through the through hole 7b formed in the transparent container 7a, the transparent container 7
The pressure inside a is maintained at a predetermined pressure, and the ink supply pressure to the printing press does not become too high.

Therefore, in this ink circulation device, the pulsation of ink caused by the pump 21 is smoothed by the air layer 16a in the filter device, so that the nozzle 1 of the ink detection device 7
The ink flow flowing out from nozzle 1 is stabilized, and
The rectifying plate 11 of 0 prevents the ink from scattering when it flows out from the nozzle 10 and reliably hits the detection piece 9a of the ink sensor, thereby preventing the transparent container 7a from becoming dirty and the ink sensor 9 from malfunctioning. Ru.

[Effects of the Invention] As is clear from the above, according to the ink circulation device of the present invention, the pulsation of the ink circulation pump is absorbed within the filter device and sent to the ink detection device at a predetermined pressure, so that the ink detection device is transparent. Ink stains and ink scattering within the container are prevented, and the ink detection device can reliably detect ink running out.

[Brief explanation of the drawing]

FIG. 1 is an explanatory diagram of an ink circulation device according to an embodiment of the present invention, FIG. 2 is an explanatory diagram of a flexographic printing machine using the ink circulation device of FIG. 1, and FIG. FIG. 7... Ink detection device, 7a... Transparent container, 9...
- Ink sensor, 10... Nozzle, 11... Rectifying plate, 12... Filter III, 13b... Ink chamber, 16a... Air layer, 2o... Ink tank, 21... Pump . Applicant's agent Patent attorney Takehiko Suzue Figure 2

Claims (1)

[Claims] an ink circulation pump; a filter device including a filter element that filters ink from the circulation pump;
An ink circulation system that is disposed between the filter device and the printing press and includes an ink detection device that has a transparent container that holds ink to be supplied to the printing press and a nozzle that ejects ink into the transparent container. The device comprises an ink chamber formed on the outlet side of the filter in the filter device, a pressurized air layer for pressurizing the ink in the ink chamber, and one end protruding into the ink contained in the ink chamber. , and an immersion pipe whose other end communicates with the ink detection device.