RU2655162C1 - Emitter of uv led dryer for offset, sheet and web printing (embodiments) - Google Patents

Abstract

FIELD: lighting equipment.

SUBSTANCE: invention relates to lighting equipment, in particular to ultraviolet light-emitting diodes generating ultraviolet long-wave light emission, for polymerization of UV LED inks, in offset, sheet and web printing. Emitter of ultraviolet LED dryer for offset, sheet and web printing contains an aluminum housing with side covers, an ultraviolet LED matrix consisting of ultraviolet LED blocks mounted therein, and a radiator which, in the first embodiment, has two extended ultraviolet LED matrices installed at an angle of 130–170° to each other, and contains quartz glass located above the ultraviolet LED matrices. In the second embodiment, radiator has three extended ultraviolet LED matrices installed trapezoid to each other, and comprises a quartz glass disposed over the ultraviolet LED matrices, the two lateral matrices being arranged with respect to the central matrix at an angle of 130–170°, and the central matrix being raised relatively to the side and located at a distance of 7–10 mm from the glass.

EFFECT: technical result of the invention is the development of a reliable emitter based on ultraviolet LED matrices and achieving a minimum power loss at a distance of 100–130 mm to the printed material.

2 cl, 4 dwg

Description

The claimed invention relates to lighting engineering, in particular to devices based on ultraviolet LEDs that generate ultraviolet long-wave radiation of light, for the polymerization of UV LED inks, in offset, sheet and role printing.

A device is known according to the patent [US 5595118, IPC F26B 3/28, publ. 01/21/1997], where a drying device is proposed in combination with a printing press for drying printing material when they are received from the printing press, including a casing assembly for housing the shutter assembly and a UV lamp assembly for drying the printing material. There is a fan connected to the cooling tube to transfer the cooled air to the UV lamp assembly.

The disadvantages of this drying are that its components are very large and bulky, difficult to maintain, there is excessive heating of the substrate.

A device is known [JP 2011253808, IPC F21S 2/00, publ. December 15, 2011], having at least one matrix of UV LEDs, a reflecting section that partially surrounds the matrix, and has an elongated surface, a hole through which radiation occurs, and a lens located between the grating and the hole.

The disadvantage of this device is the design complexity, which contributes to large losses of radiation power.

Closest to the claimed solution is a device for generating and directing electromagnetic energy to a substrate [TW 201608165, IPC F21S 4/00, publ. 03/01/2016 (prototype)], containing an aluminum case with side covers, a heat sink (radiator); an LED matrix having a plurality of LED blocks attached to said radiator. Said radiator and said LED matrix are arranged inside the case so that electric power is supplied to said LED blocks, a cooling agent circulates in said radiator, and electromagnetic energy radiated from said LED matrix is directed to the substrate.

The disadvantage of this device is the low economic efficiency during operation due to the low radiation power.

The design of existing offset printing machines does not allow the installation of the emitter in close proximity to the printed surface. Often the distance to the surface of the printed material is 100-130 mm. At such a distance, there is a significant loss of radiation power and, as a result, insufficient or complete lack of fixing of UV inks (UV LED inks) on the printed surface.

The objective of the technical solution is to develop a reliable emitter based on ultraviolet LED arrays and achieve minimal radiation power loss at a distance of 100-130 mm to the printed material.

The technical result of the invention is the development of a reliable emitter based on ultraviolet LED arrays and achieving minimum radiation power losses at a distance of 100-130 mm to the printed material.

The technical result is achieved by the fact that in the emitter of ultraviolet LED drying for offset, sheet and role printing, which contains an aluminum housing with side covers, an ultraviolet LED matrix installed in it, consisting of ultraviolet LED blocks, and a radiator, the new one is that the emitter has two extended ultraviolet LED arrays mounted at an angle of 130-170 ° to each other, and contains quartz glass located above the ultraviolet LED arrays.

The technical result is also achieved by the fact that in the emitter of ultraviolet LED drying for offset, sheet and role printing, which contains an aluminum housing with side covers, an extended ultraviolet LED matrix, consisting of ultraviolet LED blocks, and a radiator, installed in it, the new one is that has three extended ultraviolet LED arrays mounted trapezoidally to each other and contains quartz glass located above the ultraviolet LED array in this case, two side matrices are located relative to the central one at an angle of 130-170 °, and the central matrix is raised relative to the side ones and is located at a distance of 7-10 mm from the glass.

The claimed group of inventions meets the requirement of unity of invention, since the group of single-object inventions forms a single inventive concept, the application relates to objects of the invention of the same type, of the same purpose, providing the same technical result.

Comparative analysis with the prototype allowed us to identify a set of essential distinguishing features in relation to the technical result for each of the claimed objects of the group set forth in the formulas. Therefore, each of the objects of the group of inventions meets the criterion of "novelty."

The features distinguishing the claimed technical solutions from the prototype are not identified in other technical solutions when studying data and related areas of technology and, therefore, provide the claimed solutions with the criterion of "inventive step".

There are two options for the implementation of the emitter of ultraviolet LED drying for offset, sheet and role printing.

The invention is illustrated by drawings.

In FIG. 1 shows a General view of the emitter of ultraviolet LED drying for offset, sheet and role printing according to the first embodiment. In FIG. 2 shows its cross section. In FIG. 3 shows a General view of the emitter of ultraviolet LED drying for offset, sheet and role printing in the second embodiment. In FIG. 4 shows its cross section.

Option 1

The emitter of ultraviolet LED drying for offset, sheet and role printing has a housing 1 (Fig. 1) made of aluminum, with side covers 2, two long ultraviolet LED arrays 3, consisting of ultraviolet LED blocks 4, installed at an angle of 130-170 ° to each other and placed on a water-cooled radiator 5 (Fig. 2), and a quartz glass 6 located above the ultraviolet LED arrays and fixed in the longitudinal grooves 7 of the side faces of the housing.

When two LED matrices are used in the emitter for ultraviolet LED drying for offset, sheet and role printing at an angle of 130-170 ° to each other, two light fluxes are added together, which leads to an increase in the radiation power and allows the emitter to be installed in the press to a distance of 100 mm from the surface of the material being printed, while receiving the full polymerization of UV LED-inks on the printed surface. Quartz glass provides the emitter with its high dust and moisture resistance and protects the ultraviolet LED blocks from pollution.

The ultraviolet LED drying for offset, sheet and role printing according to the first embodiment consists of an emitter, a controller, including power supplies and control units, a cooler, a control panel, a printed sheet sensor and a rotation cylinder of the printing cylinder.

The device operates as follows. The emitter is mounted in a printing press. After installing and configuring the sensors, performing all the preparatory work, offset printing is carried out in the usual mode, but with special inks designed for UV LED printing (UV LED ink). These paints polymerize only under the influence of ultraviolet radiation of the long wavelength range. The system of installed optical sensors allows you to automatically turn on the emitter when passing a printed sheet in the radiation zone and turn it off when the printing machine is emergency stopped, thereby eliminating the possibility of fire of paper and equipment. Under the influence of ultraviolet radiation, the paints are completely fixed on the printed surface. The developed automation on sensors provides the opportunity to be introduced into all types of printing machines without a single connection to the printing machine electrical circuits.

Option 2

The ultraviolet LED drying emitter for offset, sheet and role printing has a housing 1 (Fig. 3) made of aluminum, with side covers 2, three long ultraviolet LED arrays 3, consisting of ultraviolet LED blocks 4, mounted trapezoidally to each other, while two lateral matrices are located relative to the central one at an angle of 130-170 °, and the central matrix is raised relative to the lateral ones by a distance of 7-10 mm from the glass. Matrices are placed on a water-cooled radiator 5 (Fig. 4). There is a quartz glass 6 located above the ultraviolet LED arrays and fixed in the longitudinal grooves 7 of the side faces of the housing.

When using ultraviolet LED drying in an emitter for offset, sheet and roll printing, three extended ultraviolet LED matrices are trapezoidal to each other, while the two side matrices are located in relation to the central one at an angle of 130-170 °, and the central matrix is raised relative to the side ones and is at a distance of 7-10 mm from the glass - a summation of three light fluxes occurs, which leads to an increase in radiation power and allows you to install the emitter in a printing machine at a distance up to 130 mm from the surface of the material to be printed, while receiving the full polymerization of UV LED inks on the surface to be printed. Quartz glass provides the emitter with its high dust and moisture resistance and protects the ultraviolet LED blocks from pollution.

The ultraviolet LED drying for offset, sheet and role printing according to the second embodiment consists of an emitter, a controller, which includes power sources and control units, a cooler, a control panel, a printed sheet sensor and a rotation cylinder of the printing cylinder.

The device operates as follows. The emitter is mounted in a printing press. After installing and configuring the sensors, performing all the preparatory work, offset printing is carried out in the usual mode, but with special inks designed for UV LED printing (UV LED ink). These paints polymerize only under the influence of ultraviolet radiation of the long wavelength range. The system of installed optical sensors allows you to automatically turn on the emitter when passing a printed sheet in the radiation zone and turn it off when the printing machine is emergency stopped, thereby eliminating the possibility of fire of paper and equipment. Under the action of ultraviolet radiation, the paints are completely fixed on the surface to be sealed. The developed automation on sensors provides the opportunity to be introduced into all types of printing machines without a single connection to the printing machine electrical circuits.

Both of the claimed design variants of the emitter allow you to redirect and summarize the radiation and thereby obtain power sufficient to fully cure UV LED inks at distances up to 130 mm from the surface of the printed material, depending on the design features of the printing machine. The above operation algorithm guarantees absolute safety, completely eliminating the possibility of fire of paper and equipment under the influence of high radiation energies during an emergency stop of the machine.

Ultraviolet LED drying emitters for offset, sheet and role printing (both versions) have a reliable, simplified design based on ultraviolet LED arrays and high economic efficiency in operation.

Claims (2)

1. An ultraviolet LED drying emitter for offset, sheet and roll printing, comprising an aluminum housing with side covers, an ultraviolet LED array installed therein, consisting of ultraviolet LED units, and a radiator, characterized in that it has two long ultraviolet LED arrays mounted under angle of 130-170 ° to each other, and contains quartz glass located above the ultraviolet LED arrays. 2. An ultraviolet LED drying emitter for offset, sheet and roll printing, comprising an aluminum housing with side covers, an extended UV LED array, consisting of UV LED blocks, and a radiator, characterized in that it has three extended UV LED matrices installed trapezoidal to each other, and contains quartz glass located above the ultraviolet LED arrays, while the two side arrays are located relative to sheniyu to a central angle of 130-170 °, and the center matrix is raised relative to the side and is located at a distance of 7-10 mm from the glass.

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