JP2017114108A - Led-uv printing ink hardening device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an LED-UV printing ink hardening device capable of realizing an improvement in a hardening speed and an improvement in working efficiency.SOLUTION: An LED-UV printing ink hardening device comprises an LED light substrate 1 having a cooler 11, a casing 2, and a partition wall 3 for isolating an inner chamber of the casing 2 into a left part of becoming an intake chamber 2A and a right part of becoming an exhaust chamber 2B, and a longitudinal directional opening part 211 is provided on a bottom wall 21 of the casing 2, and the LED light substrate 1 is installed on the longitudinal directional opening part 211, and the longitudinal directional opening part 211 is formed in the center of the bottom wall 21 of the casing 2, and the partition wall 3 is drawn up to an upper wall 22 of the casing 2 from the upper end of the cooler 11, and the bottom wall 21 of the casing 2 on both sides of the LED light substrate 1 is provided with an intake hole 213 and an exhaust hole 214 respectively communicating with the intake chamber 2A and the exhaust chamber 2B, and air is sucked in the intake chamber 2A via the intake hole 213, and the air is exhausted from the exhaust chamber 2B via the exhaust hole 214.SELECTED DRAWING: Figure 1

Description

  The present invention belongs to a printing apparatus, and more particularly to an LED-UV printing ink curing apparatus.

  With the development of application technology of LED lights in the UV printing field, curing devices for curing UV ink using LED lights instead of conventional halogen lights have been widely adopted. Such a curing device has the advantages that the energy consumption of the LED surface light source is low (for example, the energy consumption is about 25% of halogen light), the wavelength is stable, the safety is high, and the life is long. doing.

  However, currently used curing devices have a low curing rate, and the volatiles of the solvent used can spread to the work environment and cause air pollution, which adversely affects the health of workers. In addition to giving it, the worker's motivation is reduced, so that the work efficiency may be greatly reduced.

  The present invention has been made in view of such a situation, and is an LED-UV printing ink capable of improving the curing speed, purifying the working environment, reducing air contamination, and improving the working efficiency. An object is to provide a curing device.

  In order to achieve the above object, the present invention provides an LED-UV printing ink curing apparatus. The apparatus includes an LED light substrate having a cooling device, and the cooling device is an LED-UV printing ink curing device positioned above the LED light substrate, and includes a housing and an inner chamber of the housing. Further comprising a partition wall that is separated into a left part that becomes an exhaust chamber and a right part that becomes an exhaust chamber, a vertical opening is provided in the bottom wall of the housing, and the LED light board is installed on the vertical opening. The vertical opening is formed at the center of the bottom wall of the casing, and the partition wall is installed so as to extend from the upper end of the cooling device to the upper wall of the casing, and the both sides of the LED light board are An intake hole and an exhaust hole are respectively provided in the bottom wall of the housing. The intake hole and the exhaust hole communicate with the intake chamber and the exhaust chamber, respectively, and the intake chamber is connected to the intake chamber through the intake hole. Air is sucked into the exhaust hole The air is discharged from the exhaust chamber through the hood. According to this configuration, the UV ink is cured using the LED light substrate, and at the same time, the air discharged from the exhaust chamber (heated air) is used for curing the UV ink. Can be high.

  In the LED-UV printing ink curing device according to the present invention, preferably, a fan is installed between the intake chamber and the exhaust chamber at the rear portion of the housing, and the fan has an intake port facing the intake chamber. The air that is installed so that the exhaust port faces the exhaust chamber, the air outside the housing is sucked into the intake chamber through the intake hole by the fan, and the air blown into the exhaust chamber by the fan Is characterized in that it is discharged out of the housing through the exhaust hole.

  In the LED-UV printing ink curing device according to the present invention, preferably, an exhaust through hole is provided in a front wall of the casing at a front end of the intake chamber. According to this configuration, UV ink and its solvent volatiles are sucked into the intake chamber, and can be discharged to the outside through the exhaust through-hole, for example, by a ventilator, etc., so that the work environment is effectively purified. And air pollution is reduced. As a result, since the worker can work comfortably, the work efficiency can be improved.

  In the LED-UV printing ink curing device according to the present invention, preferably, the intake hole and the exhaust hole are both inclined and one end of the intake hole located in the intake chamber is the housing. The other end of the intake hole located outside the intake chamber is close to the left wall, and the other end of the exhaust hole located in the exhaust chamber is close to the longitudinal opening. The other end of the exhaust hole located outside the exhaust chamber approaches the right wall and approaches the vertical opening.

  In the LED-UV printing ink curing device according to the present invention, preferably, the LED light board is movably fitted into the longitudinal opening.

  In the LED-UV printing ink curing device according to the present invention, preferably, the bottom walls of the casing on both sides of the longitudinal opening are each provided with a longitudinal groove, and both sides of the LED light substrate are These are respectively fitted in the longitudinal grooves and can be moved back and forth.

  In the LED-UV printing ink curing device according to the present invention, preferably, a linear extension line connecting an upper end port of the intake hole located in the casing and a lower end port of the intake hole located outside the casing. Intersects the vertical center line of the LED light board, and the angle formed by them is 45 °, and the upper end port located inside the enclosure of the exhaust hole and the lower end port located outside the enclosure of the exhaust hole The straight extension line connecting the two intersects the vertical center line of the LED light substrate, and the angle formed by both is 45 °. According to this structure, the effect that the circulation efficiency of the air in a housing becomes high is acquired.

  In order to achieve the above object, the present invention further provides the following LED-UV printing ink curing device. The apparatus includes an LED light substrate having a cooling device, and the cooling device is an LED-UV printing ink curing device positioned above the LED light substrate, and includes a housing and an inner chamber of the housing. Further comprising a partition wall that is separated into a left part that becomes an exhaust chamber and a right part that becomes an exhaust chamber, a vertical opening is provided in the bottom wall of the housing, and the LED light board is installed on the vertical opening. The vertical opening is formed in a bottom wall on one side of the casing, and the partition wall is installed so as to extend from the bottom wall to the upper wall of the casing on the right side of the cooling device. The bottom wall on the side is provided with an exhaust hole and an intake hole, respectively, and the exhaust hole and the intake hole communicate with the exhaust chamber and the intake chamber, respectively, and the exhaust chamber via the exhaust hole Air is exhausted from the front through the intake hole It is characterized in that air is sucked into the intake chamber. According to this configuration, the UV ink is cured using the LED light substrate, and at the same time, the air discharged from the exhaust chamber (heated air) is used for curing the UV ink. Can be high.

  In the LED-UV printing ink curing device according to the present invention, preferably, a fan is installed between the exhaust chamber and the intake chamber at a rear portion of the housing, and the fan has an exhaust port facing the exhaust chamber. And the air blown into the exhaust chamber from the intake chamber by the fan is exhausted out of the housing through the exhaust hole, and then again The air is sucked into the air intake chamber by the fan through the air intake hole.

  In the LED-UV printing ink curing device according to the present invention, preferably, an exhaust through hole is provided in a front wall of the casing at a front end of the intake chamber. According to this configuration, UV ink and its solvent volatiles are sucked into the intake chamber and can be discharged to the outside (external) through the exhaust through-hole, for example, by a ventilator, etc. Purification and air pollution is reduced. As a result, since the worker can work comfortably, the work efficiency can be improved.

  In the LED-UV printing ink curing device according to the present invention, preferably, the LED light board is movably fitted into the longitudinal opening.

  In the LED-UV printing ink curing device according to the present invention, preferably, the bottom walls of the casing on both sides of the longitudinal opening are each provided with a longitudinal groove, and both sides of the LED light substrate. Each side is fitted in the longitudinal groove and is movable back and forth.

  In the LED-UV printing ink curing device according to the present invention, preferably, the exhaust hole and the intake hole are both inclined and the exhaust hole approaches the right wall of the LED light board. The intake hole approaches the right wall of the housing.

  In the LED-UV printing ink curing device according to the present invention, preferably, a straight line connecting an upper end port of the exhaust hole located in the casing and a lower end port of the exhaust hole located outside the casing. The extension line is orthogonal to a straight extension line connecting the upper end opening of the intake hole located in the housing and the lower end opening of the intake hole located outside the enclosure.

  In the LED-UV printing ink curing device according to the present invention, the fan may be a fan capable of blowing hot air, a ventilator may be connected to the exhaust through-hole, the exhaust hole, One or more intake holes may be regularly arranged.

  According to the above-described LED-UV printing ink curing apparatus of the present invention, the UV ink is cured using the LED light substrate, and at the same time, the air discharged from the exhaust chamber (heated air) is cured into the UV ink. Since it uses, the curing speed of UV printing can be increased. In addition, UV ink and its solvent volatiles are sucked into the intake chamber and can be discharged to the outside through the exhaust through-hole, for example, by a ventilation device, etc., so that the working environment is effectively purified and air pollution Is reduced. As a result, since the worker can work comfortably, the work efficiency can be improved.

FIG. 1 is a perspective view showing the inside of the LED-UV printing ink curing apparatus according to the first embodiment of the present invention. FIG. 2 is a perspective view showing a cross section taken along line AA of the LED-UV printing ink curing apparatus (with an upper wall) of FIG. FIG. 3 is a perspective view showing a cross section taken along line BB of the LED-UV printing ink curing device (with an upper wall) of FIG. FIG. 4 is a perspective view showing an LED-UV printing ink curing device obtained by inverting FIG. 1 by 180 °. FIG. 5 is a perspective view showing the inside of the LED-UV printing ink curing apparatus according to the second embodiment of the present invention. FIG. 6 is a perspective view showing a cross section taken along line AA of the LED-UV printing ink curing apparatus (with an upper wall) in FIG. FIG. 7 is a perspective view showing a cross section taken along line BB of the LED-UV printing ink curing device (with an upper wall) of FIG. FIG. 8 is a perspective view showing an LED-UV printing ink curing device obtained by inverting FIG. 5 by 180 °.

  Embodiments of the present invention will be described below with reference to the drawings.

<First Embodiment>
As a first embodiment of the present invention, an LED-UV printing ink curing device includes an LED light substrate 1 having a cooling device 11 and a housing 2 as shown in FIGS. The cooling device 11 is disposed above the LED light substrate 1. A vertical opening 211 is formed at the center of the bottom wall 21 of the housing 2. Vertical grooves 212 are provided on both sides of the vertical opening 211 and on the bottom wall 21 of the housing 2. Both sides of the LED light board 1 are fitted in the longitudinal grooves 212 and can be moved back and forth. By doing so, the maintenance of the LED light substrate 1 and its cooling device 11 and the like is facilitated.

  As shown in FIG. 3, the LED light board 1 extends between the upper end of the cooling device 11 and the upper wall 22 of the housing 2 along the vertical direction from the upper end of the cooling device 11 to the upper wall 22 of the housing 2. A partition wall 3 is installed. By the partition wall 3, the inner chamber of the housing 2 is separated into a left part and a right part, the left part is an intake chamber 2A, and the right part is an exhaust chamber 2B. The bottom wall 21 of the housing 2 on both sides of the LED light substrate 1 is provided with a plurality of vent holes. That is, the bottom wall 21 of the left intake chamber 2A is provided with five intake holes 213 arranged in a row at intervals, and the bottom wall 21 of the right exhaust chamber 2B is spaced. Five exhaust holes 214 arranged in a row are provided.

  The intake hole 213 and the exhaust hole 214 are both inclined and the inclination angle is 45 °. That is, the straight extension line connecting the upper end port located in the bottom wall 21 of the intake hole 213 and the lower end port located outside the bottom wall 21 of the intake hole 213 intersects the vertical center line of the LED light board 1. The angle between the two is 45 °. Similarly, the straight extension line connecting the upper end opening located in the bottom wall 21 of the exhaust hole 214 and the lower end opening located outside the bottom wall 21 of the exhaust hole 214 intersects the vertical center line of the LED light substrate 1. The angle between them is 45 °. In other words, one end of the intake hole 213 located in the intake chamber 2A is close to the left wall 23 of the housing 2, and the other end of the intake hole 213 located outside the intake chamber 2A is close to the vertical opening 211. doing. Similarly, one end of the exhaust hole 214 located in the exhaust chamber 2B approaches the right wall 24 of the housing 2, and the other end of the exhaust hole 214 located outside the exhaust chamber 2B approaches the vertical opening 211. ing.

  As shown in FIG. 1, the cooling water pipe 111 of the cooling device 11 is attached to the front portion of the housing 2. Also, as shown in FIG. 2, a fan 4 is installed between the intake chamber 2A and the exhaust chamber 2B at the rear of the housing 2, and the fan 4 has an intake port facing the intake chamber 2A and an exhaust port. Is installed so as to face the exhaust chamber 2B. Further, as shown in FIG. 4, an exhaust through hole 5 for connecting a ventilation device (not shown) is provided in the front wall 25 of the housing 2 at the front end of the intake chamber 2A.

  By the function of the fan 4, volatile gas volatilized from the surface of the UV printed material below the LED light substrate 1 outside the bottom wall 21 of the housing 2 is sucked into the intake chamber 2 </ b> A through the intake hole 213 and is ventilated. By the function of the device, the air in the intake chamber 2A can be discharged from the exhaust through hole 5 to the outside. Thereby, UV ink, the volatile matter of the solvent thereof, etc. are sucked into the intake chamber 2A and can be discharged to the outside through the exhaust through hole 5 by the ventilation device, so that the working environment is effectively purified, Air pollution is reduced. As a result, since the worker can work comfortably, the work efficiency can be improved.

  Further, since the air discharged to the exhaust chamber 2B by the fan 4 is discharged to the outside of the bottom wall 21 of the housing 2 through the exhaust hole 214, the air passes through the surface of the UV printed material below the LED light substrate 1. Thus, the curing speed of UV printing can be improved. In this way, the UV ink is cured using the LED light substrate 1, and at the same time, the air discharged from the exhaust chamber 2B (heated air) is used for curing the UV ink. Can be high. Furthermore, if an electric heating device is added to the fan 4, hot air can be generated from the fan 4, so that the curing speed of UV printing can be improved more easily.

<Second Embodiment>
As a second embodiment of the present invention, an LED-UV printing ink curing device includes an LED light substrate 1 having a cooling device 11 and a housing 2 as shown in FIGS. The cooling device 11 is disposed above the LED light substrate 1. A vertical opening 211 is formed at the center of the bottom wall 21 of the housing 2. Vertical grooves 212 are provided on both sides of the vertical opening 211 and on the bottom wall 21 of the housing 2. Both sides of the LED light board 1 are fitted in the longitudinal grooves 212 and can be moved back and forth. By doing so, the maintenance of the LED light substrate 1 and its cooling device 11 and the like is facilitated.

  As shown in FIG. 7, the partition wall 3 extends from the right side of the cooling device 11 of the LED light substrate 1 to the right side wall 22 of the housing 2 or the space along the vertical direction from the bottom wall 21 to the upper wall 22 of the housing 2. Is installed. By the partition wall 3, the inner chamber of the housing 2 is separated into a left part and a right part, the left part is an exhaust chamber 2B, and the right part is an intake chamber 2A. Two rows of vent holes are provided in the bottom wall 21 of the right housing 2 of the LED light substrate 1. That is, the bottom wall 21 of the left exhaust chamber 2B is provided with four exhaust holes 214 arranged in a row at intervals, and the bottom wall 21 of the right intake chamber 2A is spaced apart. The four intake holes 213 arranged in a row are provided. In FIG. 7, the arrow pointing to the right in the horizontal direction indicates the paper traveling direction.

  As shown in FIG. 7, the exhaust hole 214 and the intake hole 213 are both inclined and the inclination angle is 45 °. That is, the straight extension line connecting the upper end port located inside the bottom wall 21 of the exhaust hole 214 and the lower end port located outside the bottom wall 21 of the exhaust hole 214 intersects the center line of the partition wall 3 and forms both. The angle is 45 °. Similarly, a straight extension line connecting the upper end opening located in the bottom wall 21 of the intake hole 213 and the lower end opening located outside the bottom wall 21 of the intake hole 213 intersects the center line of the partition wall 3. Is an angle of 45 °. That is, one end of the exhaust hole 214 located in the exhaust chamber 2 </ b> B is close to the vertical opening 211, and the other end of the exhaust hole 214 located outside the exhaust chamber 2 </ b> B is close to the partition wall 3. One end of the intake hole located in the intake chamber 2 </ b> A is close to the right wall 24 of the housing 2, and the other end of the intake hole 213 located outside the intake chamber 2 </ b> A is close to the partition wall 3.

  As shown in FIG. 5, the cooling water pipe 111 of the cooling device 11 is attached to the front portion of the housing 2. Also, as shown in FIG. 6, a fan 4 is installed between the exhaust chamber 2B and the intake chamber 2A at the rear of the housing 2, and the fan 4 has an intake port facing the intake chamber 2A, and an exhaust port. Is installed so as to face the exhaust chamber 2B. Further, as shown in FIG. 8, an exhaust through hole 5 for connecting a ventilation device (not shown) is provided in the front wall 25 of the housing 2 at the front end of the intake chamber 2A.

  By the function of the fan 4, volatile gas volatilized from the surface of the UV printed material below the LED light substrate 1 outside the bottom wall 21 of the housing 2 is sucked into the intake chamber 2 </ b> A through the intake hole 213 and is ventilated. By the function of the device, the air in the intake chamber 2A can be discharged from the exhaust through hole 5 to the outside. Thereby, UV ink, the volatile matter of the solvent thereof, etc. are sucked into the intake chamber 2A and can be discharged to the outside through the exhaust through hole 5 by the ventilation device, so that the working environment is effectively purified, Air pollution is reduced. As a result, since the worker can work comfortably, the work efficiency can be improved.

  Further, since the air discharged to the exhaust chamber 2B by the fan 4 is discharged to the outside of the bottom wall 21 of the housing 2 through the exhaust hole 214, the air passes through the surface of the UV printed material below the LED light substrate 1. Thus, the curing speed of UV printing can be improved. In this way, the UV ink is cured using the LED light substrate 1, and at the same time, the air discharged from the exhaust chamber 2B (heated air) is used for curing the UV ink. Can be high. Furthermore, if an electric heating device is added to the fan 4, hot air can be generated from the fan 4, so that the curing speed of UV printing can be improved more easily.

  In the present invention, “left” and “right”, “front”, and “rear” are merely for explaining the positional relationship and have no limiting meaning. Depending on the actual situation, “left” and “right” can be reversed or “front” and “rear” can be reversed. For example, in the first embodiment, the intake chamber 2A can be the right portion and the exhaust chamber 2B can be the left portion. In the second embodiment, the intake chamber 2A can be the left portion and the exhaust chamber 2B can be the right portion.

  Further, the number of the intake holes 213 and the exhaust holes 214 and the inclination angle described above are examples, and the number of the intake holes 213 and the exhaust holes 214 and the inclination angle can be set according to the actual situation. is there. For example, the inclination angles of the intake holes 213 and the exhaust holes 214 may be set to 30 ° to 90 °. However, by setting the inclination angle of the intake hole 213 and the exhaust hole 214 to 45 °, an effect of increasing the circulation efficiency of the air in the housing 2 can be obtained.

  In addition, embodiment mentioned above illustrates all the aspects of this invention, and does not limit this invention. A person skilled in the art can change the embodiment of the present invention based on the technical contents described above. However, any changes, replacements, improvements, etc. within the scope of the technical concept of the present invention fall within the protection scope of the present invention.

DESCRIPTION OF SYMBOLS 1 LED light board 11 Cooling device 111 Cooling water piping 2 Housing 2A Intake chamber 2B Exhaust chamber 21 Bottom wall 211 Vertical direction opening 212 Vertical direction groove 213 Intake hole 214 Exhaust hole 22 Upper wall 23 Left wall 24 Right wall 25 Front wall 3 Bulkhead 4 Fan 5 Exhaust through hole

Claims (11)

An LED light substrate having a cooling device, wherein the cooling device is an LED-UV printing ink curing device positioned above the LED light substrate,
A housing and a partition that separates the inner chamber of the housing into a left portion that is an intake chamber and a right portion that is an exhaust chamber;
A vertical opening is provided in the bottom wall of the housing, and the LED light board is installed on the vertical opening,
The longitudinal opening is formed at the center of the bottom wall of the housing,
The partition is installed to extend from the upper end of the cooling device to the upper wall of the housing,
The bottom wall of the housing on both sides of the LED light board is provided with an intake hole and an exhaust hole, respectively, and the intake hole and the exhaust hole communicate with the intake chamber and the exhaust chamber, respectively.
An LED-UV printing ink curing apparatus, wherein air is sucked into the intake chamber through the intake hole, and air is discharged from the exhaust chamber through the exhaust hole. A fan is installed between the intake chamber and the exhaust chamber at the rear of the housing,
The fan is installed such that an intake port faces the intake chamber and an exhaust port faces the exhaust chamber,
By the fan, air outside the housing is sucked into the intake chamber through the intake hole,
2. The LED-UV printing ink curing according to claim 1, wherein air blown into the exhaust chamber by the fan is exhausted to the outside of the housing through the exhaust hole. 3. apparatus. The intake hole and the exhaust hole are both inclined, and one end of the intake hole located in the intake chamber approaches the left wall of the housing, and is located outside the intake chamber of the intake hole. The other end is adapted to approach the longitudinal opening,
One end of the exhaust hole located in the exhaust chamber approaches the right wall of the housing, and the other end of the exhaust hole located outside the exhaust chamber approaches the longitudinal opening. The LED-UV printing ink curing device according to claim 1 or 2. A straight extension line connecting the upper end port of the intake hole located inside the housing and the lower end port of the intake hole located outside the housing intersects the vertical center line of the LED light board and forms both of them. The angle is 45 °
A straight extension line connecting the upper end port of the exhaust hole located inside the housing and the lower end port of the exhaust hole located outside the housing intersects the vertical center line of the LED light board and forms both of them. The LED-UV printing ink curing device according to claim 3, wherein the angle is 45 °. An LED light substrate having a cooling device, wherein the cooling device is an LED-UV printing ink curing device positioned above the LED light substrate,
A housing and a partition that separates the inner chamber of the housing into a left portion that is an intake chamber and a right portion that is an exhaust chamber;
A vertical opening is provided in the bottom wall of the housing, and the LED light board is installed on the vertical opening,
The longitudinal opening is formed on one side of the bottom wall of the housing,
The partition is installed so as to extend from the bottom wall to the top wall of the housing on the right side of the cooling device,
Exhaust holes and intake holes are respectively installed on the bottom wall on the other side of the housing, and the exhaust holes and the intake holes communicate with the exhaust chamber and the intake chamber, respectively.
An LED-UV printing ink curing device, wherein air is discharged from the exhaust chamber through the exhaust hole, and air is sucked into the intake chamber through the intake hole. A fan is installed between the exhaust chamber and the intake chamber at the rear of the housing,
The fan is installed such that an exhaust port faces the exhaust chamber and an intake port faces the intake chamber,
Air blown from the intake chamber into the exhaust chamber by the fan is exhausted to the outside of the housing through the exhaust hole, and then sucked into the intake chamber by the fan through the intake hole again. The LED-UV printing ink curing device according to claim 5, wherein   The exhaust hole and the intake hole are both inclined, the exhaust hole approaches the right wall of the LED light board, and the intake hole approaches the right wall of the housing. The LED-UV printing ink curing device according to claim 5 or 6.   A straight extension line connecting an upper end opening of the exhaust hole located in the enclosure and a lower end opening of the exhaust hole outside the enclosure is formed by an upper end opening of the intake hole located in the enclosure; 8. The LED-UV printing ink curing device according to claim 7, wherein the LED-UV printing ink curing device is configured to be orthogonal to a straight line extending from a lower end of the air intake hole located outside the housing.   The LED-UV printing ink curing device according to any one of claims 1 to 8, wherein an exhaust through hole is provided in a front wall of the housing at a front end of the intake chamber.   10. The LED-UV printing ink curing device according to claim 1, wherein the LED light substrate is movably fitted in the longitudinal opening. 11. Each of the bottom walls of the housing on both sides of the vertical opening is provided with a vertical groove,
11. The LED-UV according to claim 1, wherein both sides of the LED light substrate are respectively fitted in the longitudinal grooves so as to be movable back and forth. Printing ink curing device.

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