KR100964606B1 - Control method of uv-inc solidification device using led - Google Patents

Abstract

PURPOSE: A control method of a UV-LED curing apparatus using an LED is provided to utilize in various tasks with one UV-LED curing apparatus due to including a multiple UV-LED chip assembly which emits light of various wavelengths. CONSTITUTION: A control method of a UV-LED curing apparatus using an LED comprises the following steps. A spraying and emitting work are processed with conveying a head assembly(100) to an object to be printed with a moving speed which is same to a first constant speed period of a predetermined speed curve. A spraying and emitting work are processed with conveying a head assembly to an object to be printed with a moving speed which is same to a second constant speed period of a predetermined speed curve which is faster than the first constant speed period. UV curable fluid is sprayed to a desired location on the object to be printed by using the head in the spraying work. UV light is directed to the sprayed UV curable fluid on the object by using UV-LED curing apparatus in the emitting work.

Description

Control Method of UV-inc Solidification Device Using LED

The present invention relates to a control method of a UV-LED curing apparatus using LED, and more particularly, to control the moving speed of the UV-LED curing apparatus to work at a high speed while sufficiently securing the initial activation energy of the UV curable liquid. The present invention relates to a control method of a UV-LED curing apparatus using LEDs.

Curing devices used to cure UV curable liquids include a general UV curing device and a UV-LED (Light Emitting Diode) curing device, but at the present time it emits UV (ultraviolet) light and emits almost no thermal energy. Excellent and easy to control the wavelength of the UV light UV-LED curing device is a trend that is used a lot.

However, since the UV light irradiated by the UV-LED curing device is a cold light containing a very small amount of thermal energy, it takes a long time to satisfy the initial activation energy for curing the UV curable liquid.

SUMMARY OF THE INVENTION An object of the present invention for solving the above problems is to obtain sufficient energy for activating the UV curable liquid sprayed on an output, and then to provide a UV-LED curing apparatus using an LED which enables to work at a high speed. It is to provide a control method.

The control method of the UV-LED curing apparatus using the LED of the present invention for achieving the above object, in the method for curing the UV curable liquid injected to the output, the first constant velocity of a predetermined speed curve to the output Transporting the head assembly at a moving speed corresponding to the section, and performing a spraying operation and an irradiation operation; And transferring the head assembly to the output object at a feed speed that matches the second constant velocity section which is higher than the first constant velocity section of the predetermined speed curve, and performing a spraying operation and an irradiation operation.

Here, the spraying operation is characterized in that for spraying the UV curable liquid using a head to the position to be sprayed UV curable liquid to the output.

The irradiating operation is characterized by irradiating UV light to the UV curable liquid sprayed on the output using a UV-LED curing apparatus.

In addition, the speed curve is characterized in that the curve between the first constant speed section and the second constant speed section.

On the other hand, the UV-LED curing device is characterized in that it comprises a plurality of UV-LED chip assembly.

At least one of the plurality of UV-LED chip assemblies may emit light at a wavelength different from that of other UV-LED chip assemblies.

In addition, the wavelength range of the light emitted by at least one UV-LED chip assembly of the plurality of UV-LED chip assembly is characterized in that it overlaps with the wavelength range of light emitted by another UV-LED chip assembly. .

According to the control method of the UV-LED curing apparatus using the LED of the present invention, in the method for curing the UV-curable liquid injected to the output, the moving speed of the head assembly for spraying and irradiating the output It is configured to change, it is possible to obtain sufficient energy required for the initial activation of the UV curable liquid sprayed on the output, it is possible to work at a high speed thereafter.

Therefore, instead of performing spraying and irradiation at a slow speed for the initial activation of the UV curable liquid sprayed onto the output, the energy required for the activation of the UV curable liquid is obtained at a slow speed at the beginning of the operation, and then a high speed is achieved. As the spraying operation and the irradiation work are performed, the working efficiency is improved and the working time is shortened.

In addition, since the speed of the head assembly is continuously changed, it does not affect the configuration of the device and does not affect the quality of work.

In addition, since the UV-LED curing apparatus includes a plurality of UV-LED chip assemblies that emit light of various wavelengths, a single UV-LED curing apparatus can be widely used for various tasks.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

1 is a schematic view showing the operation of the head assembly according to the first embodiment of the present invention, Figure 2 is a rear view showing the head assembly of Figure 1, Figure 3 is a UV-LED curing apparatus of Figure 2 4 is an enlarged plan view, and FIG. 4 is a configuration diagram of a UV-LED chip assembly mounted on the UV-LED curing apparatus of FIG. 3, and FIG. 5 is a schematic diagram of a speed curve.

The control method of the UV-LED curing apparatus using the LED of the present invention, in the method for curing the UV curable liquid injected to the output (0), the first constant velocity section of a predetermined speed curve on the output (0) Transporting the head assembly 1000 at a moving speed consistent with the above, and performing a spraying operation and an irradiation operation; And transferring the head assembly 1000 to the output object at a feed speed that matches a second constant velocity section that is faster than a first constant velocity section of a predetermined speed curve, and performing spraying and irradiation. do,

Hereinafter, the control method of the UV-LED curing apparatus using the LED of the present invention will be described in detail.

Curing devices used to cure UV curable liquids include a general UV curing device and a UV-LED (Light Emitting Diode) curing device, but at the present time it emits UV (ultraviolet) light and emits almost no thermal energy. Excellent and easy to control the wavelength of the UV light UV-LED curing device is a trend that is used a lot.

However, since the UV light irradiated by the UV-LED curing device is a cold light containing a very small amount of thermal energy, it takes a long time to satisfy the initial activation energy for curing the UV curable liquid. However, when the UV curable liquid is initially activated, the UV curable liquid may be activated and cured even with a much smaller energy than the initial activation energy.

The present invention relates to a method for efficiently curing the UV curable liquid injected into the output (0).

The output (0) is not limited and includes various articles such as products, articles, coating objects, adhesive objects or printed matter.

The UV curable liquid is not limited, and UV curable ink, UV curable adhesive, UV curable coating agent and the like can be exemplified.

In the control method of the UV-LED curing apparatus using LED, first, the head assembly is transferred to the output object at a moving speed V1 corresponding to the first constant velocity section of a predetermined speed curve, and spraying and irradiation are performed. Required.

Since the UV light irradiated from the UV-LED curing device contains a small amount of thermal energy, a certain time is required to absorb the thermal energy for the activation of the UV curable liquid.

Therefore, the head assembly 1000 is transferred to the output object 0 at a moving speed V1 corresponding to the first constant velocity section of a predetermined speed curve, as shown in FIG. Will be

The moving speed V1 coinciding with the first constant velocity section lasts until a time when sufficient energy for activating the UV curable liquid is supplied, and is preferably a sufficiently slow speed for activating the UV curable liquid.

The spraying operation is characterized in that for spraying the UV-curable liquid using the head 100 in the position to try to spray the UV curable liquid to the output (0).

The method of spraying the UV curable liquid is not limited and varied, but it is advantageous in terms of accuracy to be sprayed by the head 100.

The irradiation operation is to irradiate UV light to the UV curable liquid injected to the output (0) using the UV-LED curing apparatus (201, 202).

The spraying and irradiating operation is irradiated with UV light to the sprayed UV-curable liquid by the UV-LED curing device (201, 202) which is followed by the injection operation of the UV-curable liquid to the output by the head 100 .

The UV-LED curing devices 201 and 202 include a plurality of UV-LED chip assemblies 10.

The UV-LED chip assembly 10 generally includes a cathode pad 11 and an anode 12 including a UV LED chip 13, as shown in FIG.

In addition, at least one of the plurality of UV-LED chip assemblies 10 may be characterized in that the UV-LED chip assembly 10 emits light at a wavelength different from that of the other UV-LED chip assembly 10.

This is to effectively cure inks, coatings and adhesives having different thicknesses.

In addition, the wavelength of the plurality of UV-LED chip assembly 10 is formed in the range of 365nm to 415nm, it is possible to cure the ink, coating agent, adhesive, etc. using one UV-LED curing device.

In addition, the plurality of UV-LED chip assemblies 10 may be configured to emit light having a wavelength of 365 nm to 395 nm to be suitable for curing the UV curable ink.

In addition, the wavelength range of the light emitted by at least one UV-LED chip assembly 10 of the plurality of UV-LED chip assembly 10 and the wavelength range of light emitted by the other UV-LED chip assembly 10 You can have some overlap.

In other words, if the main wavelength emitted by the UV-LED chip assembly 10 is 370 nm, it emits light at a wavelength of 360 nm to 380 nm, and mainly emits light having a wavelength of 370 nm.

For example, to configure the light to emit light having a wavelength of 365 nm to 395 nm, the UV-LED chip assembly 10 having a plurality of main wavelengths of 370 nm, 380 nm, and 390 nm may be partially overlapped. It is preferable in terms of curing efficiency in that light is emitted by overlapping the wavelength range in the range of 370 nm to 380 nm and 380 nm to 390 nm.

In order to perform the spraying operation and the irradiation operation successively, as shown in FIGS. 1 and 2, the head 100 for injecting the UV curable liquid and the two UV-LED curing devices 201 and 202 outside the head 100. It is preferably made by a head assembly 1000 comprising a.

In other words, the head assembly 1000 including the head 100 and the UV-LED curing devices 201 and 202 is transferred at a moving speed V1 corresponding to the first constant velocity section of the predetermined speed curve, and is sprayed. And investigations are made.

Therefore, the UV curable liquid is injected into the output object 0 by the head 100, and the UV curable liquid is irradiated with UV light by the following UV-LED curing devices 201 and 202, and the UV curable liquid. Enough energy for the initial activation of is transferred at a moving speed V1 corresponding to the first constant velocity section of the predetermined speed curve so that the UV curable liquid can absorb it.

Therefore, when the UV-LED curing apparatus is used, the curing of the UV curable liquid is started by supplying sufficient energy for the initial activation of the UV curable liquid dispersed in the output object 0.

Subsequently, the head assembly 1000 is transferred to the output object at a feed speed V2 corresponding to a second constant velocity section that is higher than a first constant velocity section of a predetermined speed curve, and a spraying operation and an irradiation operation are required. do.

In other words, when it is time to absorb sufficient energy required for the initial activation of the UV curable liquid injected into the output (0), as shown in FIG. The moving speed V1 coinciding with the first constant velocity section is transferred to the conveying speed V2 coinciding with the second constant velocity section, and the spraying operation and the irradiation operation are executed.

Therefore, when the UV curable liquid absorbs sufficient energy for the activation of the UV curable liquid, the spraying and irradiation work is performed at a high speed, thereby reducing the work time.

The speed curve may be characterized by forming a curve between the first constant speed section and the second constant speed section.

That is, when the moving speed of the head assembly 1000 changes from the moving speed V1 corresponding to the first constant speed section of the predetermined speed curve to the feeding speed V2 corresponding to the second constant speed section.

The sudden change in the moving speed of the head assembly 1000 not only imposes a burden on the device in the configuration of the actual device, but also causes a sudden change in the feed speed, thus causing problems in the quality of the spraying and irradiating work. It can't be sprayed.

Therefore, the speed of the head assembly 1000 is gradually changed, so that the operation can be performed without burdening the apparatus.

And the moving speed of the head assembly 1000 can be modified by various methods, it can be made using a variable speed motor.

In addition, the moving speed of the head assembly 1000 may be made by a controller (not shown), and when a movement of the head assembly 1000 is started, a predetermined speed curve for a predetermined time during which the UV curable liquid may be activated. The head assembly 1000 is adjusted at a moving speed V1 coinciding with the first constant velocity section of the head assembly, and the head assembly 1000 at a feed speed V2 coinciding with the second constant velocity section of the speed curve after a predetermined time. Can be adjusted.

In addition, when the output (0) is supplied by the roller, the head assembly 1000 is to reciprocate perpendicular to the output direction to the output (0) while spraying the UV curable liquid.

At this time, when the head assembly 1000 changes direction while reciprocating, spraying and irradiation work are performed from the beginning according to the control method of the present invention.

Therefore, a sufficient time for activating the UV curable liquid can be obtained through the speed control of the head assembly 1000 as described above, and the working time can be reduced.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but many variations and modifications may be made without departing from the spirit and scope of the invention. And it goes without saying that they belong to the scope of the present invention.

1 is a schematic diagram showing an operation of the head assembly according to the first embodiment of the present invention.

FIG. 2 is a rear view illustrating the head assembly of FIG. 1. FIG.

3 is an enlarged plan view of the UV-LED curing apparatus of FIG.

4 is a configuration diagram of a UV-LED chip assembly mounted on the UV-LED curing device of FIG.

5 is a schematic diagram of the speed curve.

<Description of Main Reference Signs>

0: Output 10: UV-LED Chip Assembly

11: cathode pad 12: anode

13: UV LED Chip 100: Head

201,202: UV-LED curing device 1000: head assembly

Claims (7)

In the method for curing the UV curable liquid sprayed on the output, Transferring the head assembly to the output object at a moving speed that matches a first constant velocity section of a predetermined speed curve, and performing a spraying operation and an irradiation operation; And Using the LED to transfer the head assembly at a feed rate that matches the second constant velocity section which is faster than the first constant velocity section of the predetermined speed curve to the output object, and performing spraying and irradiation operations. UV-LED Curing Device Control Method The method of claim 1, The spraying operation, The control method of the UV-LED curing apparatus using the LED, characterized in that for spraying the UV curable liquid using a head to the position to be sprayed to the output UV curable liquid. The method of claim 1, The investigation work, Control method of the UV-LED curing device using the LED, characterized in that for irradiating UV light to the UV curable liquid sprayed on the output using a UV-LED curing device. The method of claim 1, The speed curve is a control method of the UV-LED curing device using the LED, characterized in that the curve between the first constant speed section and the second constant speed section. The method of claim 3, wherein The UV-LED curing device control method of the UV-LED curing device using an LED, characterized in that it comprises a plurality of UV-LED chip assembly. The method of claim 5, At least one UV-LED chip assembly of the plurality of UV-LED chip assembly control method of the UV-LED curing apparatus using the LED, characterized in that for emitting light at a wavelength different from the other UV-LED chip assembly. The method of claim 5, The wavelength range of the light emitted by at least one of the UV-LED chip assembly of the plurality of UV-LED chip assembly is overlapped with the wavelength range of the light emitted by the other UV-LED chip assembly. UV-LED curing device control method using.

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