FR2808603A1 - Regulation of the solid material content of a developing solution used in the production of photopolymer printing plates by ultrasound emission - Google Patents

Abstract

The procedure consists of monitoring the content of solid material in a developing solution by ultrasound transmission through a sample of the solution, measuring the echo produced by its amplitude, velocity or phase shift, and comparing it with a typical response. The procedure is carried out with the aid of a tubular sampling chamber (3) with vertical end walls (4, 4'), a transducer (5) and an ultrasound receiver (6). The sampling chamber is linked to the solution container (2) via ducts (10, 13) fitted with solenoid valves (12, 14) and a pump (11).

Description

The present invention relates to the field of the production of flexible plates from a photopolymer plate, usable for the production of prints by flexographic methods, typography or dry offset.

The present invention relates to a method for regulating the solid content in a developing solution used for producing flexible plates from a photopolymer plate and a device for implementing the method according to the invention.

The production of such flexible images is usually carried out by exposing a photopolymer plate sensitive to ultraviolet radiation, and by interposing a negative film leaves exposed to the radiation areas that must come into relief on the finished cliche. The radiation hardening these areas, the solid is then removed from the protected surface using a developing solution consisting of solvent or an aqueous base depending on the type of plate. In order to complete the step of removing the material, the plate is also sometimes subjected to brushing using flat or rotating brushes.

The prior art already knows flexible plate production methods and in particular the European patent application N 93 470 which presents an automated method for the fabrication of flexible plates from a plate introduced with a sensitive face facing upwards and a device implemented process.

This method is satisfactory, but for economic and environmental reasons, the development solution is generally used in closed circuit and is reused continuously for the realization of clichés. However, of course, as and when it is used, the development solution is loaded with solid material and the proportion of solid material increases. This contamination of the developing solution, if it is not contained leads to the decrease of the performance of the process and the deterioration of the device.

To contain this contamination, it is known to dilute solid matter by removing a determined amount of developing solution, generally during the imaging run, and introducing a substantially equivalent volume of pure developing solution.

A disadvantage of this solution is that the proportion of solid material in the developing solution can not be kept within a suitable range because the amount of solid removed from the photopolymer plate varies depending on the size of the plate, and the dimensions the image or images made in the plate; Plate size, including its thickness, can be detected automatically or manually raised by an operator, but it is very difficult to calculate the precise amount of material removed by the developing solution for image formation. It is customary to consider that the amount of material removed per developing solution is half the volume of the plate, but this approximation used to calculate the amount of pure developer required for each plate can cause the decrease in process performance. as well as the deterioration of the device if the quantity of solid material removed during the manufacturing cycle of the plates is important and, conversely, can cause wastage of development solution still effective if the quantity of solid material removed during the manufacturing cycle low shots.

The present invention intends to overcome these disadvantages by allowing to detect proportion of solid matter present in the development solution and to control the contributions in pure development solution so that the proportion of solid in the development solution is maintained in the interval corresponding to the optimum proportion.

To this end, the subject of the invention is a method for regulating the solids content in a developing solution used for producing flexible plates from a photopolymer plate, characterized in that the concentration of solid matter is measured. of the development solution by ultrasound emission through a sample of the solution, that the echo produced is measured and that the echo produced is compared to a typical response.

Another subject of the invention relates to a method for regulating the content of solid matter in a developing solution used for producing flexible plates from a photopolymer plate, characterized in that the echo produced by the emission of Ultrasound through a sample solution and in that the rate of concentration of solid matter is determined by modeling.

Thus, according to the two cases, when the solid concentration of the solution is greater than the fixed maximum, an addition is made of a determined quantity of developing solution, but when it is lower, no addition of developing solution is required. is operated. According to characteristic, the echo measurement is carried out either by measuring an amplitude, a speed or a phase shift.

According to advantageous characteristic, the comparison of the echo produces a standard response is moderate as a function of the temperature of said sample. According to another advantageous characteristic, the measurement of the solids concentration of the solution is carried out by regular sampling of a sample during the cycles of production of the flexible images and, if necessary, adding a determined quantity of solvent according to solid matter concentration of the developing solution.

Another object of the present invention relates to a device for carrying out the method as described above, characterized in that it comprises a sampling chamber in the form of a cylindrical tube provided with at its ends vertical walls and comprising a transducer and an ultrasonic receiver.

According to some interesting features of the invention - the solution is essentially contained in a container, and the sampling chamber is provided with a sample inlet mouth and a sample outlet mouth, said inlet mouth of the sample being connected container by a pipe comprising a pump and a solenoid valve and said outlet mouth of the sample being connected to the solvent container by pipeline comprising a solenoid valve; the transducer and the ultrasound receiver are positioned in said vertical walls; preferably these are positioned in the same vertical wall.

said vertical walls are removably mounted on the sampling chamber.

An important advantage of the process according to the invention lies in the fact that it is applicable to any type of developing solution, whether it is a solvent or an aqueous base.

An important advantage of the device according to the invention lies in the fact that can be installed during the manufacture of the device for producing flexible plates, but can also be adapted to any type of existing device.

The invention will be better understood by means of the description given hereinafter of the embodiment given by way of non-limiting example, with reference to the single FIGURE, appended hereto, illustrating a general diagram of the control device the solids content. in a development solution. The process according to the invention is a method of regulating the solid content in a developing solution used for the production of flexible plates from a photopolymer plate. It is characterized in that the solid concentration level of the solution is measured by ultrasound emission, ie a pulse or a wave train, through a sample of the solution, that the echo produced is measured and that the echo produced is compared to a standard response.

This pulse is emitted thanks to a transducer within the measuring solution. Different ways of measuring the echo are possible. Thus, it is possible to carry out a measurement by amplitude, speed or phase shift, each of the possibilities being explained below.

According to the first operating mode, the pulse is calibrated in amplitude. this fact, during the path of this pulse in the solution, an attenuation in amplitude will be observed during the measurement of the echo of this pulse. A comparison of the echo produced compared to a measurement table makes it possible to quantify the rate of solid matter.

According to a second operating mode, the pulse is transmitted during a very precise time. During the path of this pulse in the solution, a change in the total travel time will be observed when measuring the echo of this pulse. In the same way as above, the comparison of this echo with respect to a table makes it possible to quantify the rate of solid matter.

According to a third operating mode, a continuous or segmented ultrasonic wave train is emitted by means of a transducer within the solution to be measured. This wave train is emitted during a very precise time. Therefore, during the path of this wave train in the solution, a change in the phase shift of the emitted signal will be observed during the phase shift measurement of the echo of this wave train. The solids content is then determined by comparison with a measurement table or an algorithm.

According to one variant, the determination of the concentration ratio is carried out by modeling the response to the measurement using a polynomial equation at least equivalent to 4.

Without departing from the scope of the invention, it is also understood that the process may comprise two transducers placed facing each other in the same axis. first transmits the pulse or the wave train, the second receives the signal and sends it to a signal processing unit. It should also be noted that, preferably, the comparison of the echo produced with a standard response is moderate as a function of the temperature of said sample.

Advantageously, the operation of measuring the solid concentration of the solution is carried out by regularly sampling a sample during the cycles of production of the flexible images and, if necessary, adding a determined quantity of solvent according to the solid concentration of the solution. Thus, when the solid concentration is below the desired maximum and above the desired minimum, no solvent addition is made.

The present invention also relates to the device for implementing the method according to the invention.

The device (1) according to the invention, illustrated in the figure, is a device for regulating the solid content in a developing solution (2) used for producing flexible images from a photopolymer plate. It is characterized in that it comprises a sampling chamber (3) in which the measurement is made of the solid concentration of the solution (2). The sampling chamber (3) is in the form of a cylindrical tube provided at its ends with vertical walls (4, 4 ') and comprises a transducer (5) and an ultrasound receiver (6).

During the production of flexible images, said solution (2) is essentially contained in a container (7).

Advantageously, said sample chamber (3) is provided with a sample inlet mouth (8) and a sample exit mouth (9), said mouth of the sample (8). ) being connected to the container (7) by a pipe (10) comprising a pump (11) and a solenoid valve (12) and said outlet mouth of the sample (8) being connected to the container (7) by a pipe (13). ) having a solenoid valve (14).

Thus, during the production of the flexible plates, the solenoid valves (12, 14) being open, the pump (11) continuously draws the solution (2) from the container (7) through the pipe (10) and discharges it into the container (7) through the pipe (13) by passing through the sampling chamber (3). solution (2) is also continuously projected into the container (7) the plates to be treated, the homogenization of the solid material in the solution is ensured.

After a predetermined period of time, the pump (11) is stopped and the two solenoid valves (12 and 14) are closed. A representative sample of the solution is then held inside the sampling chamber (3). At the end of another predetermined period of time, which allows the agitation prevailing inside the cylindrical tube to stop, the transducer (5) is then energized and ultrasound is sent through the solution (2) present. in the cylindrical tube.

receiver (6) then picks up all the waves coming to him. transducer (5) and the ultrasound receiver (6) are positioned for example in the vertical walls (4,4 ').

Preferably, the transducer (5) and the ultrasound receiver (6) are positioned in the same vertical wall (4 or 4 '). Thus, receiver (6) captures only echoes and no direct transmission.

To facilitate the cleaning and maintenance of the sampling chamber (3), said vertical walls (4,4 ') are preferably removably mounted on the sampling chamber (3), for example screwing on the cylindrical tube.

According to an alternative embodiment, the concentration level can be measured in a hose where the solvent is stored.

Claims (1)

<BR> <BR> <BR> <BR> <BR> 1- Process for regulating the solid content in a developing solution used for the production of flexible images from a photopolymer plate, characterized in that the rate of solid concentration of the developing solution by ultrasound emission through a sample of the solution, measuring the echo produced and comparing the echo produced to a typical response. 2- A method for regulating the content of solid matter in a development solution used for the production of flexible images from a photopolymer plate, characterized in that the echo produced by the emission of ultrasound to through a sample of the solution and in this it is determined by modeling the solid concentration rate. 3- A method for regulating the solid content in a developing solution used for the production of flexible plates according to claim 1 2, characterized in that the measurement of the echo is carried out either by the measurement of an amplitude, a speed or phase shift. 4- A method for regulating the solid content in a developing solution used for the production of flexible images according to any one of the preceding claims, characterized in that the comparison of the echo produced with a standard response is moderate in function of the temperature of said sample. 5. Process for regulating the solid content in a developing solution used for the production of flexible plates according to one of the preceding claims, characterized in that the operation of measuring the concentration of solid material is carried out. of the solution by regularly sampling a sample during the cycles of realization of the flexible images and in that it is carried out if necessary an addition of a determined quantity of solvent according to the concentration of solid of the solution of development . 6. Device (1) for regulating the solid content in a developing solution (2) used for producing flexible plates from a photopolymer plate, allowing the method to be carried out according to any one of the claims 1 to 5, characterized in that it comprises a sampling chamber (3) in the form of a cylindrical tube provided at the ends of the vertical walls (4, 4 ') and comprising a transducer (5) and ultrasound receiver (6). 7- Device (1) for regulating the solid content in solution (2) of development according to claim 6, said solution being essentially contained in a container (7), characterized in that said sampling chamber (3) is provided with a sample inlet mouth and a sample outlet mouth (9), said inlet mouth the sample (8) being connected to the container (7) by a pipe ( 10) comprising a pump (11) and a solenoid valve (12) and said outlet mouth the sample (8) being connected to the solvent container (7) by a pipe (13) comprising a solenoid valve (14). 8- Device (1) for regulating the solid content in a developing solution according to claim 6 or claim 7, characterized in that the transducer (5) and the ultrasound receiver (6) are positioned in said walls vertical (4,4 '). 9- Device (1) for regulating the solid content in a developing solution according to claim 8, characterized in that the transducer (5) and the ultrasound receiver (6) are positioned in the same vertical wall or 4 '). 10- Device (1) for regulating the solid content in a developing solution according to any one of claims 6 'characterized in that said vertical walls (4,4') are mounted removable sampling chamber (3). ).