WO2021066678A1

WO2021066678A1 - Device and method for applying a marking

Info

Publication number: WO2021066678A1
Application number: PCT/RU2020/000505
Authority: WO
Inventors: Алексей Васильевич ЛЕЖНЕВ; Омар Ахмедович ОМАРОВ; Сергей Александрович ПАВЛОВ; Александр Леонидович РОЩИН
Original assignee: Общество с ограниченной ответственностью "ВКО "Символ" (ООО "ВКО "Символ"); Общество с ограниченной ответственностью "Флуоресцентные информационные технологии" (ООО "Флуринтек")
Priority date: 2019-09-30
Filing date: 2020-09-29
Publication date: 2021-04-08
Also published as: RU2715462C1

Abstract

The present invention relates to the field of machine-readable markings and can be used during the production of a wide range of articles in order to identify, monitor and trace same. The invention provides increased automation of the marking process and improved marking quality and resistance to different external factors. In a device and method for applying a marking, consisting of a shape-generating marker, a bubble jet marker, and an electronic unit for controlling the device, the bubble jet marker is capable of filling with a polymer composition at least one indentation or region produced by the shape-generating marker; the electronic control unit is capable of transmitting control signals to the shape-generating marker and the bubble jet marker, which are mounted on a single platform, to carry out a given method for forming information elements, which includes setting characteristics for surface regions having a variable depth and/or a texture, as well as the number and type of polymer compositions for each of said regions; and, when the device is in operation, the platform moves in response to control signals from said electronic control unit.

Description

Device and method of marking

The present invention relates to the field of machine readable marking and can be used in the manufacture of a wide range of products for their identification, control and traceability.

From the prior art, there is a known method of manufacturing direct-applied marking (RU 2637041), consisting of information elements (IE) on the surface of the part to be marked. After the primary needle-impact impact, materials or various materials with the required properties are additionally placed between the needle of the needle-impact installation and the surface of the part to be marked. With subsequent needle-impact impacts, they successively move into the depressions that form the information elements of the MPN. The material that is placed between the needle of the needle percussion machine and the surface of the part to be marked can be a foil of a metal or alloy, in particular - aluminum, copper, gold, lead, tin, antimony, brass, bronze, duralumin.

Also, from RU2550179, a polymer composition, a method of manufacturing a direct-applied marking with a polymer composition, and a direct-applied marking are known. In the manufacture of the marking device, a fluorescent polymer composition is used that absorbs light radiation at wavelengths of UV, visible and / or near-IR ranges, emits in the wavelength range of the passband of the input filter of the reader in the wavelength range of 400-700 nm and is cured by drying and / or photo- and / or thermopolymerization. The technical result is the use of a single simplified technology for the manufacture and subsequent decoding of PMPN on various surfaces, including those with properties that exclude the application of PMPN on them by the traditional, for example, needle-impact method, in particular, fragile, with high hardness, elastic, contaminated, coated with insufficient adhesion or covered with loose deposits. At the same time, an increase in the performance of equipment and an expansion of the range of attainable parameters of the PMPN, such as reduced size, resistance to various influences, the applicability of additional protective procedures, are achieved. The technical result is also achieved by the fact that laser radiation is used in the manufacture of the marking device.

The disadvantage of the known solutions is the lack of automation of the marking process, and, as a consequence, the low quality of the resulting marking.

The technical result achieved by the claimed invention consists in increasing the automation of the marking process and increasing its quality and resistance to various external influences.

The specified technical result is achieved in a device for applying a marking, consisting of a shaping marker, a drop jet marker and an electronic control unit for the device, the drop jet marker containing at least one dispenser nozzle is configured to fill at least one cavity obtained with the help of a mold marker, or areas with at least one polymer composition, while the electronic control unit is configured to transmit control signals to the shaping marker and ink jet marker, which are installed on a single platform, to execute a given method of performing information elements, including setting the characteristics of surface areas with a changed depth and / or roughness, as well as the amount and type of polymer composition for each specified area; moreover, the movement of the specified platform, during the implementation of the device, is carried out by receiving control signals from the specified electronic control unit.

In addition, the shaping marker is a needle impact marker or laser marker. In addition, the ink jet marker is at least one line of dispenser nozzles.

In addition, the rulers of the dispenser nozzles are offset relative to each other along the axis of the ruler.

In addition, the ink jet marker is configured to apply a composition to form an adhesive sublayer depression on the surface.

In addition, the device further includes a nozzle for blowing compressed air over the information element.

In addition, the device further includes a spray head for applying a protective coating to the entire information item, or an applicator for applying a protective film to the information item.

In addition, the device further includes UV and / or IR emitters for polymerizing and drying the information element.

Also, the technical result is achieved in a method of applying a marking, where, in order to perform an information element, a surface area with a changed depth and / or roughness is formed with a shaping marker, the formed areas are filled with a polymer composition with a drop jet marker; moreover, before the commencement of marking, the shaping marker and the ink jet marker are installed and fixed on a single platform; set in the electronic control unit that controls the operation of the shaping marker and ink jet marker, a method for performing information elements, including setting the characteristics of surface areas with a changed depth and / or roughness, as well as the number and type of polymer composition for each specified area; is formed by a shaping marker in accordance with a predetermined method of forming a surface area with a changed depth and / or roughness; fill with a ruler of nozzles of a droplet jet marker in accordance with a given method of formation, the indicated areas according to at least one polymer composition more than one surface area with a changed depth and / or roughness of one row at a time.

In addition, areas of the surface with a changed depth and / or roughness are formed by a shaping marker made in the form of a laser marker to obtain a changed depth and / or surface roughness.

In addition, areas of the surface with a changed depth and / or roughness are formed by a shaping marker, which is made in the form of a needle-impact marker to obtain conical recesses.

In addition, before filling with the polymer composition, these surface areas are filled with the composition to form an adhesive sublayer depression on the surface using a 15 ink jet marker.

In addition, after filling with the polymer composition, these areas are filled with a composition that ensures the formation of a protective coating on the surface of the information element using a spraying device.

In addition, polymerization and drying of the information element are performed using a UV and / or RL emitter.

The claimed invention is illustrated in FIG. sixteen.

1 - shaping marker in the form of a needle-impact marker;

2 - ink jet marker;

25 3 - shaping marker in the form of a laser marker;

4 - spray device (in particular, spray head);

5 - UV and / or RZh emitters.

The marking device (Fig. 1 - 6) consists of a shaping marker, which is a needle-impact marker (1) or a laser marker (3), ink jet marker (2) and an electronic device control unit (not shown in the figures) associated with said markers (1 and 3) for transmitting control signals to them.

The shaping marker (1) or (3) and the ink jet marker (2) after their mutual adjustment are fixed (installed) on one platform, and the execution of the program of their work and platform movements is set and controlled by the electronic control unit of the device, that is, the movement map of the specified platform, while performing the operation of the entire device.

Before starting the operation of the marking devices, the required method of executing information elements is recorded in the electronic control unit. The specified method discloses the sizes of information elements, characteristics of the surface regions (the location of the grooves, their depth or roughness when performing the groove with a laser marker), as well as the number and type of polymer composition for each groove (areas).

The ink jet marker (2) with low requirements for the rate of application of the fluorescent composition is made with one nozzle of the dispenser and for filling each made recess after the shaping marker with one polymer composition. In this case, the filling with the specified polymer composition can be performed in such a way that different amounts of the polymer composition will be applied to different recesses.

When performing a drop-jet marker (2) with several dispenser nozzles (Fig. 2), it becomes possible to fill the made recesses with polymer compositions with different properties for the possibility of specifying special characteristics of the information label as a whole.

To further increase the productivity of applying the fluorescent composition, one (Fig. 2) or several (Fig. 3) lines of drip-jet heads (several dispenser nozzles placed together) are used. In this case, the line of dispenser nozzles is made with the possibility filling one depression or area with different polymer compositions of equal or different volume, which also allows you to set special characteristics of the information label as a whole.

It is also possible to implement a drop-jet marker with at least two lines of dispenser nozzles (Fig. 3), offset from each other along the axis of the ruler, which expands the possibilities for the simultaneous application of a polymer (fluorescent) composition.

To increase the durability of the polymer composition applied by the drop jet coder, it is possible to additionally apply an adhesive sublayer using a suitable composition on the surface of the made recess. The specified composition can be applied by means of a separate device, so through one of the nozzles of the dispenser of the ink jet marker.

To protect against aggressive environmental influences and increase the resistance of the marking, a protective varnish is applied over the marking by means of a spray head (4) (Fig. 5, 6), also installed on a single platform with markers (1 and 2), or application with a protective transparent polymer film which can be applied by means of a separate device. Protection from the influence of the external environment and increasing the durability of marking is possible with an applicator in the form of a protective film glued to the information element.

If necessary, can be used UV and / or IR emitters (5) (Fig. 5, 6) for the appropriate polymerization and drying of the information label. The marking device can also contain a nozzle for blowing compressed air over the information element, the use of which allows to increase the surface cleanliness at the stages of marking

The marking device has independent marking modes, allowing individual needle impact, b inkjet, laser, fluorescent needle-percussion and fluorescent laser marking.

The method of applying the marking consists in the formation of recesses with a needle-impact head (1) (Fig. 1, 2, 3, 5) of electromagnetic or pneumatic action, or a laser head (3) (Fig. 4, 6) and filling the resulting recesses with a drip-jet (2) head (dispenser nozzle).

Before the commencement of marking, the shaping marker and ink jet marker are installed and fixed on a single platform, which ensures high stability of results and the absence of the need for mutual adjustment of devices during operation (Figs. 1-6).

Further, in the electronic control unit (not shown), which controls the operation of the shaping marker and the ink jet marker, a method for performing information elements is set, including setting the characteristics of surface areas with a changed depth and / or roughness, as well as the amount and type of polymer composition for each specified area.

Taking into account the given program of execution of the information element, the corresponding depressions (areas) are made. The filling of these recesses (areas) in the best embodiment is performed using a nozzle line of a droplet jet marker, where the nozzle line allows the polymer composition to be applied simultaneously to the entire row of made depressions (areas), that is, these recesses (areas) of one row are filled simultaneously.

In this case, each nozzle of the dispenser can introduce a certain polymer composition, which is also determined in advance at the stage of assigning a corresponding program to the electronic control unit.

The shaping marker can be made in the form of a laser marker for the possibility of making depressions with a changed depth and / or surface roughness, as well as in the form of a needle impact marker to obtain the corresponding conical grooves (areas).

The conical depressions or regions can be filled in layers with a composition to form an adhesive sublayer on the surface of the depression, a composition with a fluorescent dye, and a composition to form a protective coating on the surface of the information element.

It is also possible to fill in layer-by-layer conical depressions or regions with different polymer compositions with a fluorescent dye of different volumes, as well as polymer compositions containing fluorescent dyes with different optical characteristics. polymerizing and drying the information element using a UV and / or IR emitter to improve the fixation of the dye.

Claims

FORMULA

1. A marking device, consisting of a shaping marker, a drop-jet marker and an electronic control unit for the device, characterized in that the drop-jet marker containing at least one dispenser nozzle is configured to fill at least one cavity obtained with the help of a forming marker or a region with at least one polymer composition, while the electronic control unit is configured to transmit control signals to the shaping marker and ink jet marker, which are installed on a single platform, to execute a given method of performing information elements, including setting the characteristics of surface areas with a modified depth and / or roughness, as well as the amount and type of polymer composition for each specified area; moreover, the movement of the specified platform, during the implementation of the device, is carried out by receiving control signals from the specified electronic control unit.

2. The device according to claim. 1, characterized in that the shaping marker is a needle-impact marker or laser marker.

3. The device according to claim 1, characterized in that the ink jet marker is at least one line of dispenser nozzles.

4. The device according to claim 3, characterized in that the rulers of the dispenser nozzles are displaced relative to each other along the axis of the ruler.

5. The device according to claim 1, characterized in that the ink jet marker is configured to apply a composition for forming an adhesive sublayer on the surface of a depression.

6. The device according to claim. 1, characterized in that it additionally includes a nozzle for blowing the information element with compressed air.

7. A device according to claim 1, further comprising a spray head for applying a protective coating to the entire information element, or an applicator for applying a protective film to the information element.

8. A device according to claim 1, further comprising UV and / or IR emitters for polymerizing and drying the information element.

9. The method of applying the marking, which consists in the fact that for the execution of the information element

- form a shaping marker of the surface area with a changed depth and / or roughness,

- the formed areas are filled with the polymer composition with a drop jet marker; characterized in that

- before the beginning of marking, the shaping marker and ink jet marker are installed and fixed on a single platform;

- set in the electronic control unit that controls the operation of the shaping marker and ink jet marker, a method for performing information elements, including setting the characteristics of surface areas with a changed depth and / or roughness, as well as the amount and type of polymer composition for each specified area;

- is formed by a shaping marker in accordance with a predetermined method of forming a surface area with a changed depth and / or roughness;

- fill with a ruler of nozzles of a droplet jet marker in accordance with a given method of formation of the specified areas of at least one the polymer composition is more than one area of the surface with a changed depth and / or roughness of one row at a time.

10. The method according to claim 9, characterized in that the surface areas with a changed depth and / or roughness are formed by a shaping marker made in the form of a laser marker to obtain a changed depth and / or surface roughness.

11. The method according to claim. 9, characterized in that the surface areas with a changed depth and / or roughness are formed by a shaping marker made in the form of a needle-impact marker with obtaining conical recesses.

12. The method according to claim 9, characterized in that, prior to filling with the polymer composition, said surface areas are filled with the composition to form a depression of the adhesive sublayer on the surface using an ink jet marker.

13. The method according to claim 9, characterized in that after filling with the polymer composition, said areas are filled with a composition that ensures the formation of a protective coating on the surface of the information element using a spraying device.

14. The method according to claim 9 or 13, characterized in that the polymerization and drying of the information element is performed using the UV and / or the radar emitter.