RU2463322C2 - Method for control of process of product treatment with corona discharge - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention relates to the field of product surface treatment and may be used, in particular, for modification of polymer products surface so that to enable the latter's adhesion capacity as well as for cleaning and/or sterilisation of polymer products such as those of medical purpose. During implementation of the method for control of the product treatment process information is continuously taken on the product arrival (failure to arrive) in the treatment zone. In case of the product arrival in the treatment zone voltage is supplied initiating corona discharge. In case of the product failure to arrive in the treatment zone during a period of time T>3t, where t is the preset time interval whereat products arrive in the treatment zone one discontinues supply of voltage initiating corona discharge.

EFFECT: method for control of the process of product treatment with corona discharge enables reduction of ozone emission during the treatment process.

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Description

The claimed invention relates to the field of surface treatment of products and can be used, in particular, to modify the surface of polymer products, which allows to increase its adhesive ability, as well as for cleaning and / or sterilization of polymer products, for example, for medical purposes.

A known method of controlling the process of processing polymer products by corona discharge, in which the supply of voltage initiating the corona discharge is stopped when deviating from the specified processing conditions (see JP 3296538, 12/27/1991, C08J 7/00).

The known method is adopted as the closest analogue of the claimed method.

The disadvantage of this method is the impossibility of automatically stopping the voltage supply during the long absence of products in the treatment zone, which leads to the release of excessive ozone into the environment resulting from corona discharge, which in turn creates adverse working conditions for personnel and increases equipment wear.

The objective of the claimed invention is to provide a method for controlling the processing of products by corona discharge, which allows to reduce the generation of ozone during the processing process.

This problem is solved by creating a method for controlling the process of processing products by corona discharge, in which information on the receipt or non-arrival of the product in the treatment zone is continuously collected, in case of receipt of the product in the treatment zone, voltage is applied that initiates corona discharge, and in case of failure to enter the treatment zone during the time T> 3t, where t is the specified time interval through which the products enter the processing zone, the voltage supply initiating the corona discharge is stopped.

An example of the implementation of the claimed method can be its use in a device for processing by corona discharge of polymer medical probes for their sterilization, shown in the figure.

A device for corona treatment of polymer medical probes 1 contains a guide 2 designed to move the probes 1 to the treatment zone, means for guiding the probes to the treatment zone 3, the working chamber 4, limiting the treatment zone, and electrodes 5 and 6 located in the working chamber 4.

The electrodes 5 and 6 are connected to a high voltage source 7, in the circuit of which a switch is installed (not shown in the figure).

The device also includes a product presence sensor 8, installed at the entrance to the working chamber 4, and a control device 9, including a timer and a timer for the time interval through which the probes 1 enter the processing zone (not shown).

The method is implemented as follows.

Medical probes 1 along the guide 2 are moved to the working chamber 4 using the means of guiding the probes 3. At the same time, information about the receipt or non-arrival of the probe 1 into the treatment zone is continuously taken from the product presence sensor 8, made, for example, on the basis of a photoelectric element. The information received is transmitted to the control device 9, where it is processed.

When a signal occurs that the probe 1 enters the processing zone from the product presence sensor 8, the control unit 9 generates a signal for supplying the voltage initiating the corona discharge from the high voltage source 7 to the electrodes 5 and 6 by closing the contacts of the switch installed in the voltage source circuit 8.

When a signal occurs that the probe 1 has not arrived in the processing zone for a time T> 3t, where t is the specified time interval after which the products enter the processing zone, the control device 9 gives a signal to stop supplying voltage to the electrodes 5 and 6 by opening the contacts of the aforementioned switch.

The countdown of time T is made by a timer, which is turned on when a signal arrives at the control device 9 that the probe 1 has not arrived in the processing zone. The voltage supply is resumed after the signal arrives at the control device 9 that the next probe 1 has arrived in the processing zone.

The time t is set by the controller based on the size of the products and is stored in the memory of the control device 9. In the example given, the time t is 2 seconds. By time T is meant the minimum time in excess of 3t, determined by the accuracy of the timer, for example, 2.1 seconds (these conditions are standard for control systems of any technological process).

An example of the implementation of the claimed method can also be its use in a device for processing corona discharge of polymer bodies of disposable syringes to modify their surface in order to increase its adhesive ability before marking.

The example is similar to the previous one with the exception of time t, which can be, for example, 4 seconds (time t is associated with the overall dimensions of the product and the speed of movement of the products).

In addition, an example of the implementation of the claimed method can also be its use in a device for processing by corona discharge of some metal products in order to clean them of scale (for example, after quenching of high-frequency).

The example is similar to the previous with the exception of time t, which can be, for example, 60 seconds.

The time T> 3t is chosen in such a way as to exclude the termination of the voltage supply to the electrodes in case of accidental skipping of products or in the case of defective products that impede the reading of information about the product entering the processing zone, which could lead to a decrease in productivity of the processing process.

The claimed method is simple to implement and can be used in line production.

Claims (1)

A method for controlling a corona discharge product treatment process, in which the voltage supply initiating the corona discharge is stopped when deviating from predetermined processing conditions, characterized in that information is continuously received on the product entering or not entering the processing zone, in case the product arrives in the processing zone the voltage initiating the corona discharge, and if the product does not enter the processing zone for a time T> 3t, where t is the specified time interval after which the products enter the processing zone and cease the supply voltage, initiating a corona discharge.

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