CN205818661U - The ultraviolet compounded multistage rapid solidification device of light source label printing machine - Google Patents
The ultraviolet compounded multistage rapid solidification device of light source label printing machine Download PDFInfo
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- CN205818661U CN205818661U CN201620498320.9U CN201620498320U CN205818661U CN 205818661 U CN205818661 U CN 205818661U CN 201620498320 U CN201620498320 U CN 201620498320U CN 205818661 U CN205818661 U CN 205818661U
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Abstract
A kind of ultraviolet compounded multistage rapid solidification device of light source label printing machine, it is made up of a rectangular box, light source controller, N number of ultraviolet intense light source generator, a width detection mechanism and a velocity sensor, this device uses ultraviolet light-emitting diodes and parabolic cylinder illuminator to constitute multistage ultraviolet compounded light source, top layer and deep layer ink to label paper solidify simultaneously, and the speed that this device is printed by width and the label of detection label printing in real time, can adjust range of exposures and the exposure rate of two groups of light sources in real time.
Description
Technical field:
This utility model relates to a kind of ultraviolet curing device, and a kind of ultraviolet compounded light source label printing machine is many
Level rapid solidification device, this device compared with traditional ultraviolet curing device, more energy efficient, environmental protection, quickly, efficiently, may replace
The ultraviolet curing device of existing label printing machine.
Background technology:
Solidification refers to that ink, coating, adhesive, sealant etc. are converted into the process of solid state, ultraviolet by liquid condition
Line solidification is to utilize ultraviolet and the light trigger joined in ink, coating, sealant to produce photochemical reaction realization quickly
The method of solidification,
In label printing, the fast setting of ink is the important step of label printing process, but in label printing industry,
Mostly utilize point source that high-pressure mercury-vapor lamp and metal halid lamp constitute and line source to realize ultraviolet curing, high-pressure mercury-vapor lamp and
Metal halid lamp all exist power consumption high, containing the short feature of heavy metal contaminants and life-span, in use need frequently to change high pressure
Finsen lamp and metal halid lamp, realize ultraviolet curing hence with high-pressure mercury-vapor lamp and metal halid lamp, and cost is high, energy consumption is big
Also can form heavy metal environmental pollution, the most energy-conservation the most not environmentally,
People are incorporated into ultraviolet curing field ultraviolet light-emitting diodes in recent years, have developed UV-light luminous two
Pole pipe solidification equipment,
Compare with metal halid lamp ultraviolet curing method with high-pressure mercury-vapor lamp, ultraviolet light-emitting diodes curing energy
Energy resource consumption, solidification process are enough greatly lowered and do not produce ozone and the discharge of volatile organism matter, light source length in service life, no
Need preheating and cooling, be particularly conducive to label printing and heat sensitive printable fabric is printed, but existing UV-light luminous
The light source range of exposures of diode solidification equipment and light source exposure rate are all changeless, it is impossible to according to the width of leaflet
Adjust light source range of exposures and light source exposure rate with print speed printing speed, energy resource consumption is relatively big, system stability and control essence in good time
Spend the highest, ultraviolet curing effect is poor,
Therefore, adjust light source range of exposures according to label printing width and label print speed printing speed in good time and light source irradiates strong
Degree, and uses multistage ultraviolet compounded light source, can reduce further ultraviolet light light-emitting diode curing device energy resource consumption,
Improve system stability and control accuracy and ultraviolet curing speed is greatly improved.
Summary of the invention:
In order to reduce the energy resource consumption of ultraviolet light light-emitting diode curing device further, improve system stability and control
Precision, raising ultraviolet curing effect, the utility model proposes a kind of ultraviolet compounded light source label printing machine multistage quickly
Solidification equipment, this device uses ultraviolet light-emitting diodes and parabolic cylinder illuminator to constitute multistage ultraviolet compounded light source, with
Time top layer and the deep layer ink of label paper are solidified, and this device is by the width of detection label printing in real time and mark
Endorse the speed of brush, range of exposures and the exposure rate of two groups of light sources can be adjusted in real time,
This utility model solves its technical problem and be the technical scheme is that by a rectangular box, a light source
The label printing machine that controller, N number of ultraviolet intense light source generator, a width detection mechanism and a velocity sensor are constituted
Solidification equipment, the structure of each ultraviolet intense light source generator and every equivalently-sized, rectangular box be divided into upper box and under
Casing two parts, upper box and lower box are connected by a combined page, have on the top of lower box one rectangular enter
Sheet hole and rectangular paper out opening, label paper under the drive of label printing machine, with speed v through rectangular paper feed hole and
Rectangular paper out opening,
Light source controller is divided by illumination width detection part, intensity of illumination detection part, light source drive part and constitutes, illumination width
Degree test section demultiplexing detects label paper width in real time, and is divided by light source drive part and adjust tune in real time according to label paper width
The range of exposures of leveling area source, intensity of illumination test section demultiplexing detects the translational speed of label paper in real time, and by light source
Drive part adjusts the irradiation exposure rate of planar light source in real time according to the translational speed of label paper, and light source drive part divides
Detected the testing result of part by illumination width detection part and intensity of illumination, provide electric energy to planar light source,
Light source controller and N number of ultraviolet intense light source generator are all disposed within upper box, and light source controller is arranged on
The upper end of casing, N number of ultraviolet intense light source generator is the neat light source controller that is disposed side by side on from paper feed hole to paper out opening
Below, the bottom surface of each ultraviolet intense light source generator is all parallel with the paper of label paper,
Width detection mechanism is made up of M photoelectric tube, and each photoelectric tube has a light-emitting tube and a light to connect
Closed tube, M photoelectric tube all electrically connects with the illumination width detection part of light source controller, and M photoelectric tube is along paper out opening
Neat equidistant word order, the transmitting tube of each photoelectric tube is arranged on the upper end of rectangular paper out opening, each photoelectric tube
The pipe that receives be arranged on the lower end of rectangular paper out opening,
First ultraviolet intense light source generator is by a small box, the first rectangle water-filled radiator, the second rectangle
Water-filled radiator, the 3rd rectangle water-filled radiator, the 4th rectangle water-filled radiator, the first area source, the second area source,
Three area sources, fourth face light source, the 5th area source, hexahedro light source, the first big parabolic cylinder illuminator, second largest parabolic cylinder
Illuminator, little parabolic cylinder illuminator are constituted, the first rectangle water-filled radiator, the second rectangle water-filled radiator, the 3rd length
Square water cold heat sink, the 4th rectangle water-filled radiator, the first area source, the second area source, the 3rd area source, fourth face light
Source, the 5th area source, hexahedro light source, the first big parabolic cylinder illuminator, second largest parabolic cylinder illuminator, little parabolic cylinder
Illuminator is all disposed within small box, the 3rd rectangle water-filled radiator, the 4th rectangle water-filled radiator, the first big parabolic cylinder
Face illuminator and little parabolic cylinder illuminator are disposed side by side on the upper end of small box, and it is long that little parabolic cylinder illuminator is arranged on the 3rd
Between square water cold heat sink and the 4th rectangle water-filled radiator, the first rectangle water-filled radiator and the second rectangle water-cooled
Radiator is disposed side by side on below the first big parabolic cylinder illuminator, and it is rectangular that second largest parabolic cylinder illuminator is arranged on the 3rd
Below shape water-filled radiator and the 4th rectangle water-filled radiator, the first rectangle water-filled radiator, the second rectangle water-cooled
Radiator, the 3rd rectangle water-filled radiator and the bottom surface of the 4th rectangle water-filled radiator and upper surface are all put down with label paper
Face is parallel, at the first rectangle water-filled radiator, the second rectangle water-filled radiator, the 3rd rectangle water-filled radiator and the 4th
Being both provided with an inlet opening and an apopore before and after rectangle water-filled radiator in both ends of the surface, cold water flows into from inlet opening
First rectangle water-filled radiator, the second rectangle water-filled radiator, the 3rd rectangle water-filled radiator and the 4th rectangle water
Cold heat sink, hot water flows out the first rectangle water-filled radiator, the second rectangle water-filled radiator, the 3rd rectangle from apopore
Water-filled radiator and the 4th rectangle water-filled radiator,
First area source is by neat multiple UV-light luminous two pole being welded on first piece of ceramic base light source board front
Pipe is constituted, and the back side of first piece of ceramic base light source board is pasted onto the upper surface of the first rectangle water-filled radiator by heat-conducting glue
On, the ultraviolet light-emitting diodes on first piece of ceramic base light source board is divided into the M group facet light source that length and width are identical, and M group is little
Planar light source and M photoelectric tube align one by one along the equidistant word order of paper out opening, and respectively group facet light source by
The photoelectric tube aligning arrangement controls, after ultraviolet light-emitting diodes in each group of facet light source is electrically coupled in series and light source
The light source drive part of controller divides electrical connection,
Second area source is by neat multiple UV-light luminous two pole being welded on second piece of ceramic base light source board front
Pipe is constituted, and the back side of second piece of ceramic base light source board is pasted onto on the bottom surface of the first rectangle water-filled radiator by heat-conducting glue,
Ultraviolet light-emitting diodes on second piece of ceramic base light source board is divided into the M group facet light source that length and width are identical, M group facet
Light source and M photoelectric tube align one by one along the equidistant word order of paper out opening, and respectively group facet light source by with its
The photoelectric tube of alignment controls, after ultraviolet light-emitting diodes in each group of facet light source is electrically coupled in series and light source control
The light source drive part of device divides electrical connection,
3rd area source is by neat multiple UV-light luminous two pole being welded on the 3rd piece of ceramic base light source board front
Pipe is constituted, and the back side of the 3rd piece of ceramic base light source board is pasted onto the upper surface of the second rectangle water-filled radiator by heat-conducting glue
On, the ultraviolet light-emitting diodes on the 3rd piece of ceramic base light source board is divided into the M group facet light source that length and width are identical, and M group is little
Planar light source and M photoelectric tube align one by one along the equidistant word order of paper out opening, and respectively group facet light source by
The photoelectric tube aligning arrangement controls, after ultraviolet light-emitting diodes in each group of facet light source is electrically coupled in series and light source
The light source drive part of controller divides electrical connection,
Fourth face light source is by neat multiple UV-light luminous two pole being welded on the 4th piece of ceramic base light source board front
Pipe is constituted, and the back side of the 4th piece of ceramic base light source board is pasted onto on the bottom surface of the second rectangle water-filled radiator by heat-conducting glue,
Ultraviolet light-emitting diodes on 4th piece of ceramic base light source board is divided into the M group facet light source that length and width are identical, M group facet
Light source and M photoelectric tube align one by one along the equidistant word order of paper out opening, and respectively group facet light source by with its
The photoelectric tube of alignment controls, after ultraviolet light-emitting diodes in each group of facet light source is electrically coupled in series and light source control
The light source drive part of device divides electrical connection,
5th area source is by neat multiple UV-light luminous two pole being welded on the 5th piece of ceramic base light source board front
Pipe is constituted, and the back side of the 5th piece of ceramic base light source board is pasted onto on the bottom surface of the 3rd rectangle water-filled radiator by heat-conducting glue,
Ultraviolet light-emitting diodes on 5th piece of ceramic base light source board is divided into the M group facet light source that length and width are identical, M group facet
Light source and M photoelectric tube align one by one along the equidistant word order of paper out opening, and respectively group facet light source by with its
The photoelectric tube of alignment controls, after ultraviolet light-emitting diodes in each group of facet light source is electrically coupled in series and light source control
The light source drive part of device divides electrical connection,
Hexahedro light source is by neat multiple UV-light luminous two pole being welded on the 6th piece of ceramic base light source board front
Pipe is constituted, and the back side of the 6th piece of ceramic base light source board is pasted onto on the bottom surface of the 4th rectangle water-filled radiator by heat-conducting glue,
Ultraviolet light-emitting diodes on 6th piece of ceramic base light source board is divided into the M group facet light source that length and width are identical, M group facet
Light source and M photoelectric tube align one by one along the equidistant word order of paper out opening, and respectively group facet light source by with its
The photoelectric tube of alignment controls, after ultraviolet light-emitting diodes in each group of facet light source is electrically coupled in series and light source control
The light source drive part of device divides electrical connection,
On first area source, the second area source, the 3rd area source, fourth face light source, the 5th area source and hexahedro light source
The length and width of each group facet light source identical,
The directional light direct irradiation that second area source and fourth face light source send is on the paper of label paper, to label paper
The top layer opening curing ink solidifies,
Open Side Down is arranged on the 3rd rectangle water-filled radiator and the 4th rectangle water-cooled for little parabolic cylinder illuminator
Between radiator, the 3rd rectangle water-filled radiator and the 4th that is arranged on of second largest parabolic cylinder illuminator opening upwards is grown
The underface of square water cold heat sink, the reflective surface of second largest parabolic cylinder illuminator just reflective to little parabolic cylinder illuminator
Face, second largest parabolic cylinder illuminator overlaps with the focal line of little parabolic cylinder illuminator, at second largest parabolic cylinder illuminator
Centre position is just having the leaded light that a width is identical with little parabolic cylinder illuminator A/F to little parabolic cylinder illuminator
Slit, the front of the 5th piece and the 6th piece ceramic base light source board just reflective surface to second largest thing cylindrical mirror so that the 5th
The directional light that each group facet light source on block and the 6th piece of ceramic base light source board front sends is anti-by second largest parabolic cylinder
Light microscopic and the reflection of little parabolic cylinder illuminator, the directional light forming the multiplication of a branch of light intensity exists through the irradiation that guide-lighting slit is vertical
On label paper, the shallow top layer of label paper curing ink is solidified,
First big parabolic cylinder illuminator is positioned at the surface of first piece and the 3rd piece ceramic base light source board, and first is big
The focal line of parabolic cylinder illuminator falls on the paper of label paper so that the front of first piece and the 3rd piece ceramic base light source board
The just reflective surface to the first big thing cylindrical mirror, and make each group on first piece and the 3rd piece of ceramic base light source board front little
The directional light that planar light source the sends reflection by the first big parabolic cylinder illuminator, focuses on the first big parabolic cylinder illuminator
Focal line on, on focal line formed light intensity multiplication wire high light, the deep layer of label paper curing ink is solidified,
The structure of N number of ultraviolet intense light source generator and every size are all complete with first ultraviolet intense light source generator
It is identical,
When the label paper of one fixed width passes mid portion photoelectric tube through rectangular paper feed hole and paper out opening
Time between transmitting tube and reception pipe, the light that the transmitting tube of this part photoelectric tube sends can not be arrived by label paper partition and connect
Closed tube, this part photoelectric tube is off, and remaining photoelectric tube is in the conduction state, and the state of each photoelectric tube is sent
To the illumination width detection part of light source controller, with the photoelectricity pair being off in N number of ultraviolet intense light source generator
Each group facet light source of pipe alignment is divided by the light source drive part of light source controller and adds electroluminescence, and remaining respectively organizes facet
The not powered luminescence of light source,
Velocity sensor is arranged in lower box, and velocity sensor is positioned at the lower end in rectangular paper feed hole, speed
Sensor detects part with the intensity of illumination of light source controller and electrically connects, and label paper is close to by velocity sensor, when label paper
Under the drive of label printing machine, during with speed v through rectangular paper feed hole and rectangular paper out opening, the shifting of label paper
Dynamic rate signal Negotiation speed sensor is sent to the intensity of illumination detection part of light source controller, by light source controller according to speed
The rate signal that degree sensor detects adjusts each group of facet light source adding electroluminescence in N number of ultraviolet intense light source generator
Intensity of illumination,
The beneficial effects of the utility model are: detect label in real time by width detection mechanism and velocity sensor and print
Width and the speed of label printing, can adjust range of exposures and the exposure rate of light source in real time, reduce UV-light luminous further
The energy resource consumption of diode solidification equipment and raising system stability and control accuracy, and use multistage ultraviolet compounded light source
Ultraviolet curing speed is greatly improved.
Accompanying drawing illustrates:
With embodiment, this utility model is further illustrated below in conjunction with the accompanying drawings.
Fig. 1 is overall front view of the present utility model.
Fig. 2 is A-A sectional view of the present utility model.
Fig. 3 is B-B sectional view of the present utility model.
Fig. 4 is C-C sectional view of the present utility model.
Fig. 5 is D-D sectional view of the present utility model.
Fig. 6 is E-E sectional view of the present utility model.
Fig. 7 is F-F sectional view of the present utility model.
Fig. 8 is G-G sectional view of the present utility model.
Detailed description of the invention:
In Fig. 1, Fig. 2 and Fig. 3, a rectangular box, light source controller 11, a N number of ultraviolet intense light source send out
The label printing machine solidification equipment that raw device, a width detection mechanism and a velocity sensor 12 are constituted, N number of ultraviolet high light
The structure of source generator and every equivalently-sized, rectangular box is divided into upper box 16 and lower box 17 two parts, upper box 16
It is connected by a combined page 14 with lower box 17, has a rectangular paper feed hole 7-1 and length on the top of lower box 17
Square paper out opening 7-2, label paper 18 under the drive of label printing machine, with speed v through rectangular paper feed hole 7-1 and
Rectangular paper out opening 7-2,
Light source controller 11 is divided by illumination width detection part, intensity of illumination detection part, light source drive part and constitutes, illumination
Width detection part is used in real time detection label paper width, and is divided by light source drive part and adjust in real time according to label paper width
Adjusting the range of exposures of planar light source, intensity of illumination test section demultiplexing detects the translational speed of label paper in real time, and by light
Source drive part adjusts the irradiation exposure rate of planar light source, light source drive part in real time according to the translational speed of label paper
Divide the testing result being detected part by illumination width detection part and intensity of illumination, provide electric energy to planar light source,
Light source controller 11 and N number of ultraviolet intense light source generator are all disposed within upper box 16, and light source controller 11 sets
Putting the upper end at upper box 16, N number of ultraviolet intense light source generator is from neat being arranged side by side of paper feed hole 7-1 to paper out opening 7-2
Below light source controller 11, the bottom surface of each ultraviolet intense light source generator is all parallel with the paper of label paper 18,
In figs. 2 and 3, width detection mechanism by transmitting tube 8-1 and receive pipe 8-2 constitute the first photoelectric tube, send out
Penetrate pipe 8-3 and receive pipe 8-4 constitute the second photoelectric tube, transmitting tube 8-5 and receive pipe 8-6 constitute the 3rd photoelectric tube,
The 5th photoelectricity pair that the 4th photoelectric tube, transmitting tube 8-9 and the reception pipe 8-10 that transmitting tube 8-7 and reception pipe 8-8 is constituted is constituted
The 6th photoelectric tube, transmitting tube 8-13 and the 7 of reception pipe 8-14 composition that pipe, transmitting tube 8-11 and reception pipe 8-12 are constituted
The 8th photoelectric tube, transmitting tube 8-17 and reception pipe 8-18 that photoelectric tube, transmitting tube 8-15 and reception pipe 8-16 are constituted are constituted
The 9th photoelectric tube, transmitting tube 8-19 and receive pipe 8-20 constitute the tenth photoelectric tube, transmitting tube 8-21 and receive pipe 8-
22 the 11st photoelectric tubes constituted, transmitting tube 8-23 and the 12nd photoelectric tube of reception pipe 8-24 composition, transmitting tube 8-25
With receive pipe 8-26 constitute the 13rd photoelectric tube, transmitting tube 8-27 and receive pipe 8-28 constitute the 14th photoelectric tube,
The 15th photoelectric tube, transmitting tube 8-31 and the 16 of reception pipe 8-32 composition that transmitting tube 8-29 and reception pipe 8-30 is constituted
The 17th photoelectric tube, transmitting tube 8-35 and the reception pipe 8-36 structure that photoelectric tube, transmitting tube 8-33 and reception pipe 8-34 are constituted
Become the 18th photoelectric tube, transmitting tube 8-37 and receive pipe 8-38 constitute the 19th photoelectric tube, transmitting tube 8-39 and connect
Closed tube 8-40 constitute the 20th photoelectric tube, transmitting tube 8-41 and receive pipe 8-42 constitute the 21st photoelectric tube, send out
Penetrate pipe 8-43 and receive the 22nd photoelectric tube, transmitting tube 8-45 and the 20 of reception pipe 8-46 composition that pipe 8-44 is constituted
Three photoelectric tubes are constituted, and the transmitting tube of each photoelectric tube is arranged on the upper end of rectangular paper out opening 7-2, connecing of each photoelectric tube
Closed tube is arranged on the lower end of rectangular paper out opening 7-2, and 23 photoelectric tubes are along an equidistant word row neat for paper out opening 7-2
Row,
In Fig. 2, Fig. 4, Fig. 5, Fig. 6, Fig. 7 and Fig. 8, first ultraviolet intense light source generator by a small box 22,
First rectangle water-filled radiator 10-1, the second rectangle water-filled radiator 10-2, the 3rd rectangle water-filled radiator 10-3,
Four rectangle water-filled radiator 10-4, the first area source, the second area source, the 3rd area source, fourth face light source, the 5th light
Source, hexahedro light source, the first big parabolic cylinder illuminator 13-1, second largest parabolic cylinder illuminator 13-2 and little parabolic cylinder are anti-
Light microscopic 13-3 is constituted, the first rectangle water-filled radiator 10-1, the second rectangle water-filled radiator 10-2, the 3rd rectangle water-cooled
Radiator 10-3, the 4th rectangle water-filled radiator 10-4, the first area source, the second area source, the 3rd area source, fourth face light
Source, the 5th area source, hexahedro light source, the first big parabolic cylinder illuminator 13-1, second largest parabolic cylinder illuminator 13-2, little
Parabolic cylinder illuminator 13-3 is all disposed within small box 22, the 3rd rectangle water-filled radiator 10-3, the 4th rectangle water-cooled
Radiator 10-4, the first big parabolic cylinder illuminator 13-1 and little parabolic cylinder illuminator 13-3 are disposed side by side on small box 22
Upper end, little parabolic cylinder illuminator 13-3 is arranged on the 3rd rectangle water-filled radiator 10-3 and the 4th rectangle water-filled radiator
Between 10-4, the first rectangle water-filled radiator 10-1 and the second rectangle water-filled radiator 10-2 is disposed side by side on first and throws greatly
Below thing cylindrical mirror 13-1, second largest parabolic cylinder illuminator 13-2 is arranged on the 3rd rectangle water-filled radiator 10-3
Below the 4th rectangle water-filled radiator 10-4, the first rectangle water-filled radiator 10-1, the second rectangle water-cooling
Device 10-2, the 3rd rectangle water-filled radiator 10-3 and the bottom surface of the 4th rectangle water-filled radiator 10-4 and upper surface all with mark
Sign paper 18 plane parallel, the front end face of the first rectangle water-filled radiator 10-1 is provided with inlet opening 9-1, long first
It is provided with apopore 9-2, at the front end face of the second rectangle water-filled radiator 10-2 on square water cold heat sink 10-1 rear end face
On be provided with inlet opening 9-3, the second rectangle water-filled radiator 10-2 rear end face is provided with apopore 9-4, long the 3rd
It is provided with inlet opening 9-5, at the 3rd rectangle water-filled radiator 10-3 rear end face on the front end face of square water cold heat sink 10-3
On be provided with apopore 9-6, the front end face of the 4th rectangle water-filled radiator 10-4 is provided with inlet opening 9-7, the 4th
Being provided with apopore 9-8 on rectangle water-filled radiator 10-4 rear end face, cold water flows into each rectangle water-cooling from inlet opening
Device, hot water flows out each rectangle water-filled radiator from apopore,
In Figure 5, the first area source is by the neat multiple purples being welded on first piece of ceramic base light source board 15-1 front
Outer light-emitting diode is constituted, and the back side of first piece of ceramic base light source board 15-1 is pasted onto the first rectangle water-cooled by heat-conducting glue
On the upper surface of radiator 10-1, the ultraviolet light-emitting diodes on first piece of ceramic base light source board 15-1 is divided into facet
Light source 1-1, facet light source 1-2, facet light source 1-3, facet light source 1-4, facet light source 1-5, facet light source 1-
6, facet light source 1-7, facet light source 1-8, facet light source 1-9, facet light source 1-10, facet light source 1-11, little
Planar light source 1-12, facet light source 1-13, facet light source 1-14, facet light source 1-15, facet light source 1-16, little flat
Area source 1-17, facet light source 1-18, facet light source 1-19, facet light source 1-20, facet light source 1-21, facet
Light source 1-22, facet light source 1-23, each facet light source length and width are identical, UV-light luminous two pole in each facet light source
Managing and electrically connect electrically coupled in series rear dividing with the light source drive part of light source controller 11,23 groups of facet light sources and 23 photoelectric tubes are one by one
Alignment along the equidistant word order of paper out opening 7-2, and respectively group facet light source by the photoelectric tube aligning arrangement
Control,
In Figure 5, the second area source is by the neat multiple purples being welded on second piece of ceramic base light source board 15-2 front
Outer light-emitting diode is constituted, and the back side of second piece of ceramic base light source board 15-2 is pasted onto the first rectangle water-cooled by heat-conducting glue
On the bottom surface of radiator 10-1, the ultraviolet light-emitting diodes on second piece of ceramic base light source board 15-2 is divided into facet light source
2-1, facet light source 2-2, facet light source 2-3, facet light source 2-4, facet light source 2-5, facet light source 2-6, little
Planar light source 2-7, facet light source 2-8, facet light source 2-9, facet light source 2-10, facet light source 2-11, facet
Light source 2-12, facet light source 2-13, facet light source 2-14, facet light source 2-15, facet light source 2-16, facet light
Source 2-17, facet light source 2-18, facet light source 2-19, facet light source 2-20, facet light source 2-21, facet light source
2-22, facet light source 2-23, each facet light source length and width are identical, the ultraviolet light-emitting diodes electricity in each facet light source
After series connection, light source drive part with light source controller 11 divides and electrically connects, and 23 groups of facet light sources and 23 photoelectric tubes align one by one
Along the equidistant word order of paper out opening 7-2, and respectively group facet light source is controlled by the photoelectric tube aligning arrangement,
In figure 6, the 3rd area source is by the neat multiple purples being welded on the 3rd piece of ceramic base light source board 15-3 front
Outer light-emitting diode is constituted, and the back side of the 3rd piece of ceramic base light source board 15-3 is pasted onto the second rectangle water-cooled by heat-conducting glue
On the upper surface of radiator 10-2, the ultraviolet light-emitting diodes on the 3rd piece of ceramic base light source board 15-3 is divided into facet light
Source 3-1, facet light source 3-2, facet light source 3-3, facet light source 3-4, facet light source 3-5, facet light source 3-6,
Facet light source 3-7, facet light source 3-8, facet light source 3-9, facet light source 3-10, facet light source 3-11, little flat
Area source 3-12, facet light source 3-13, facet light source 3-14, facet light source 3-15, facet light source 3-16, facet
Light source 3-17, facet light source 3-18, facet light source 3-19, facet light source 3-20, facet light source 3-21, facet light
Source 3-22, facet light source 3-23, after ultraviolet light-emitting diodes in each facet light source is electrically coupled in series and light source controller
The light source drive part of 11 divides electrical connection, 23 groups of facet light sources and 23 photoelectric tubes align one by one along paper out opening 7-2 etc.
Distance word order, and respectively group facet light source is controlled by the photoelectric tube aligning arrangement,
In figure 6, fourth face light source is by the neat multiple purples being welded on the 4th piece of ceramic base light source board 15-4 front
Outer light-emitting diode is constituted, and the back side of the 4th piece of ceramic base light source board 15-4 is pasted onto the second rectangle water-cooled by heat-conducting glue
On the bottom surface of radiator 10-2, the ultraviolet light-emitting diodes on the 4th piece of ceramic base light source board 15-4 is also divided into facet light
Source 4-1, facet light source 4-2, facet light source 4-3, facet light source 4-4, facet light source 4-5, facet light source 4-6,
Facet light source 4-7, facet light source 4-8, facet light source 4-9, facet light source 4-10, facet light source 4-11, little flat
Area source 4-12, facet light source 4-13, facet light source 4-14, facet light source 4-15, facet light source 4-16, facet
Light source 4-17, facet light source 4-18, facet light source 4-19, facet light source 4-20, facet light source 4-21, facet light
Source 4-22, facet light source 4-23, after ultraviolet light-emitting diodes in each facet light source is electrically coupled in series and light source controller
The light source drive part of 11 divides electrical connection, 23 groups of facet light sources and 23 photoelectric tubes align one by one along paper out opening 7-2 etc.
Distance word order, and respectively group facet light source is controlled by the photoelectric tube aligning arrangement,
In the figure 7, the 5th area source is by the neat multiple purples being welded on the 4th piece of ceramic base light source board 15-5 front
Outer light-emitting diode is constituted, and the back side of the 5th piece of ceramic base light source board 15-5 is pasted onto the 3rd rectangle water-cooled by heat-conducting glue
On the bottom surface of radiator 10-3, the ultraviolet light-emitting diodes on the 5th piece of ceramic base light source board 15-5 is also divided into facet light
Source 5-1, facet light source 5-2, facet light source 5-3, facet light source 5-4, facet light source 5-5, facet light source 5-6,
Facet light source 5-7, facet light source 5-8, facet light source 5-9, facet light source 5-10, facet light source 5-11, little flat
Area source 5-12, facet light source 5-13, facet light source 5-14, facet light source 5-15, facet light source 5-16, facet
Light source 5-17, facet light source 5-18, facet light source 5-19, facet light source 5-20, facet light source 5-21, facet light
Source 5-22, facet light source 5-23, after ultraviolet light-emitting diodes in each facet light source is electrically coupled in series and light source controller
The light source drive part of 11 divides electrical connection, 23 groups of facet light sources and 23 photoelectric tubes align one by one along paper out opening 7-2 etc.
Distance word order, and respectively group facet light source is controlled by the photoelectric tube aligning arrangement,
In fig. 8, hexahedro light source is by the neat multiple purples being welded on the 6th piece of ceramic base light source board 15-6 front
Outer light-emitting diode is constituted, and the back side of the 6th piece of ceramic base light source board 15-6 is pasted onto the 4th rectangle water-cooled by heat-conducting glue
On the bottom surface of radiator 10-4, the ultraviolet light-emitting diodes on the 6th piece of ceramic base light source board 15-6 is also divided into facet light
Source 6-1, facet light source 6-2, facet light source 6-3, facet light source 6-4, facet light source 6-5, facet light source 6-6,
Facet light source 6-7, facet light source 6-8, facet light source 6-9, facet light source 6-10, facet light source 6-11, little flat
Area source 6-12, facet light source 6-13, facet light source 6-14, facet light source 6-15, facet light source 6-16, facet
Light source 6-17, facet light source 6-18, facet light source 6-19, facet light source 6-20, facet light source 6-21, facet light
Source 6-22, facet light source 6-23, after ultraviolet light-emitting diodes in each facet light source is electrically coupled in series and light source controller
The light source drive part of 11 divides electrical connection, 23 groups of facet light sources and 23 photoelectric tubes align one by one along paper out opening 7-2 etc.
Distance word order, and respectively group facet light source is controlled by the photoelectric tube aligning arrangement,
On first area source, the second area source, the 3rd area source, fourth face light source, the 5th area source and hexahedro light source
The length and width of each group facet light source identical,
The directional light direct irradiation that second area source and fourth face light source send is on the paper of label paper 18, to label
The top layer of paper 18 curing ink 19 solidifies,
Little parabolic cylinder illuminator 13-3 the 3rd rectangle water-filled radiator 10-3 and the 4th that is arranged on that Open Side Down grows
Between square water cold heat sink 10-4, second largest parabolic cylinder illuminator 13-2 opening upwards be arranged on the 3rd rectangle water
Cold heat sink 10-3 and the underface of the 4th rectangle water-filled radiator 10-4, second largest parabolic cylinder illuminator 13-2's is reflective
Face just reflective surface to little parabolic cylinder illuminator 13-3, the focal line F of second largest parabolic cylinder illuminator 13-2 and little parabolic cylinder
The focal line f of face illuminator 13-3 overlaps, just anti-to little parabolic cylinder in the centre position of second largest parabolic cylinder illuminator 13-2
Light microscopic 13-3 has the guide-lighting slit W that a width is identical with little parabolic cylinder illuminator 13-3 A/F, the 5th piece of pottery
The front of base light source board 15-5 and the 6th piece of ceramic base light source board 15-6 just reflective surface to second largest thing cylindrical mirror 13-2,
Each group facet light source on 5th piece of ceramic base light source board 15-5 and the 6th piece of ceramic base light source board 15-6 front is sent
Directional light by second largest parabolic cylinder illuminator 13-2 and the reflection of little parabolic cylinder illuminator 13-3, form a branch of light intensity
The directional light of multiplication passes the guide-lighting irradiation vertical for slit W shallow table on label paper 18, to label paper 18 curing ink 19
Layer solidifies,
First big parabolic cylinder illuminator 13-1 is positioned at first piece of ceramic base light source board 15-1 and the 3rd block of ceramic base light source
The surface of plate 15-3, and the focal line F of the first big parabolic cylinder illuminator 13-1 falls on the paper of label paper 18 so that
The front of first piece of ceramic base light source board 15-1 and the 3rd piece of ceramic base light source board 15-3 is just to the first big thing cylindrical mirror 13-
The reflective surface of 1, and make each group on first piece of ceramic base light source board 15-1 and the 3rd piece of ceramic base light source board 15-3 front little
The directional light that planar light source the sends reflection by the first big parabolic cylinder illuminator 13-1, focuses on the first big parabolic cylinder anti-
On the focal line F of light microscopic 13-1, focal line F forms the wire high light of light intensity multiplication, the deep layer to label paper 18 curing ink 19
Solidify,
Structure, every size and the work process of N number of ultraviolet intense light source generator all with first ultraviolet intense light source
Generator is identical,
When the label paper 18 of one fixed width passes pars intermedia light splitting through rectangular paper feed hole 7-1 and paper out opening 7-2
Electricity is to time between transmitting tube and the reception pipe of pipe, and the light that the transmitting tube of this part photoelectric tube sends is cut off by label paper 18
Can not arrive reception pipe, this part photoelectric tube is off, and remaining photoelectric tube is in the conduction state, each photoelectric tube
State be sent to the illumination width detection part of light source controller 11, in N number of ultraviolet intense light source generator be in disconnection
Each group facet light source of the photoelectric tube alignment of state is divided by the light source drive part of light source controller 11 and adds electroluminescence,
Remaining respectively group not powered luminescence of facet light source,
In fig. 2, velocity sensor 12 is arranged in lower box 17, and velocity sensor 12 is positioned at rectangular paper feed
The lower end of hole 7-1, velocity sensor 12 detects part with the intensity of illumination of light source controller 11 and electrically connects, and velocity sensor 12 is tight
Label paper 18, when label paper 18 is under the drive of label printing machine, with speed v through rectangular paper feed hole 7-1 and
During rectangular paper out opening 7-2, the translational speed signal Negotiation speed sensor 12 of label paper 18 is sent to light source controller
The intensity of illumination detection part of 11, light source controller 11 rate signal detected according to velocity sensor 12, adjust N number of purple
The intensity of illumination of each group of facet light source adding electroluminescence in outside line intense light source generator.
Claims (1)
1. the ultraviolet compounded multistage rapid solidification device of light source label printing machine, by a rectangular box, a light source
Controller, N number of ultraviolet intense light source generator, a width detection mechanism and a velocity sensor are constituted, and it is characterized in that: each
The structure of individual ultraviolet intense light source generator and every equivalently-sized, rectangular box is divided into upper box and lower box two parts,
Upper box is connected by a combined page with lower box, has a rectangular paper feed hole and rectangle on the top of lower box
Paper out opening, label paper is under the drive of label printing machine, with speed v through rectangular paper feed hole and rectangular paper delivery
Hole,
Light source controller is divided by illumination width detection part, intensity of illumination detection part, light source drive part and constitutes, and illumination width is examined
Survey part and be used in real time detection label paper width, and divided to adjust in real time according to label paper width by light source drive part and put down
The range of exposures of area source, intensity of illumination test section demultiplexing detects the translational speed of label paper in real time, and is driven by light source
Part adjusts the irradiation exposure rate of planar light source in real time according to the translational speed of label paper, and light source drive part divides and passes through
Illumination width detection part and the testing result of intensity of illumination detection part, provide electric energy to planar light source,
Light source controller and N number of ultraviolet intense light source generator are all disposed within upper box, and light source controller is arranged on upper box
Upper end, N number of ultraviolet intense light source generator is neat from paper feed hole to paper out opening to be disposed side by side on below light source controller,
The bottom surface of each ultraviolet intense light source generator is all parallel with the paper of label paper,
Width detection mechanism is made up of M photoelectric tube, and each photoelectric tube has a light-emitting tube and a light receiving tube,
M photoelectric tube all electrically connects with the illumination width detection part of light source controller, and M photoelectric tube is neat along paper out opening
Equidistant word order, the transmitting tube of each photoelectric tube is arranged on the upper end of rectangular paper out opening, the reception of each photoelectric tube
Pipe is arranged on the lower end of rectangular paper out opening,
First ultraviolet intense light source generator is by a small box, the first rectangle water-filled radiator, the second rectangle water-cooled
Radiator, the 3rd rectangle water-filled radiator, the 4th rectangle water-filled radiator, the first area source, the second area source, the 3rd
Light source, fourth face light source, the 5th area source, hexahedro light source, the first big parabolic cylinder illuminator, second largest parabolic cylinder are reflective
Mirror, little parabolic cylinder illuminator are constituted, the first rectangle water-filled radiator, the second rectangle water-filled radiator, the 3rd rectangle
Water-filled radiator, the 4th rectangle water-filled radiator, the first area source, the second area source, the 3rd area source, fourth face light source,
5th area source, hexahedro light source, the first big parabolic cylinder illuminator, second largest parabolic cylinder illuminator, little parabolic cylinder are anti-
Light microscopic is all disposed within small box, the 3rd rectangle water-filled radiator, the 4th rectangle water-filled radiator, the first big parabolic cylinder
Illuminator and little parabolic cylinder illuminator are disposed side by side on the upper end of small box, and it is rectangular that little parabolic cylinder illuminator is arranged on the 3rd
Between shape water-filled radiator and the 4th rectangle water-filled radiator, the first rectangle water-filled radiator and the second rectangle water-cooled dissipate
Hot device is disposed side by side on below the first big parabolic cylinder illuminator, and second largest parabolic cylinder illuminator is arranged on the 3rd rectangle
Below water-filled radiator and the 4th rectangle water-filled radiator, the first rectangle water-filled radiator, the second rectangle water-cooled dissipate
Hot device, the 3rd rectangle water-filled radiator and the bottom surface of the 4th rectangle water-filled radiator and upper surface all with label paper sheet of planar
Parallel, long the first rectangle water-filled radiator, the second rectangle water-filled radiator, the 3rd rectangle water-filled radiator and the 4th
Being both provided with an inlet opening and an apopore before and after square water cold heat sink in both ends of the surface, cold water flows into the from inlet opening
One rectangle water-filled radiator, the second rectangle water-filled radiator, the 3rd rectangle water-filled radiator and the 4th rectangle water-cooled
Radiator, hot water flows out the first rectangle water-filled radiator, the second rectangle water-filled radiator, the 3rd rectangle water from apopore
Cold heat sink and the 4th rectangle water-filled radiator,
First area source is by the neat multiple ultraviolet light-emitting diodes structures being welded on first piece of ceramic base light source board front
Becoming, the back side of first piece of ceramic base light source board is pasted onto on the upper surface of the first rectangle water-filled radiator by heat-conducting glue, the
Ultraviolet light-emitting diodes on one piece of ceramic base light source board is divided into the M group facet light source that length and width are identical, M group facet light
Source and M photoelectric tube align one by one along the equidistant word order of paper out opening, and respectively group facet light source by right with it
The photoelectric tube of neat arrangement controls, after ultraviolet light-emitting diodes in each group of facet light source is electrically coupled in series and light source controller
Light source drive part divide electrical connection,
Second area source is by the neat multiple ultraviolet light-emitting diodes structures being welded on second piece of ceramic base light source board front
Becoming, the back side of second piece of ceramic base light source board is pasted onto on the bottom surface of the first rectangle water-filled radiator by heat-conducting glue, and second
Ultraviolet light-emitting diodes on block ceramic base light source board is divided into the M group facet light source that length and width are identical, M group facet light source
With M photoelectric tube align one by one along the equidistant word order of paper out opening, and respectively group facet light source by aligning
The photoelectric tube of arrangement controls, and the ultraviolet light-emitting diodes in each group of facet light source is electrically coupled in series rear and light source controller
Light source drive part divides electrical connection,
3rd area source is by the neat multiple ultraviolet light-emitting diodes structures being welded on the 3rd piece of ceramic base light source board front
Becoming, the back side of the 3rd piece of ceramic base light source board is pasted onto on the upper surface of the second rectangle water-filled radiator by heat-conducting glue, the
Ultraviolet light-emitting diodes on three pieces of ceramic base light source boards is divided into the M group facet light source that length and width are identical, M group facet light
Source and M photoelectric tube align one by one along the equidistant word order of paper out opening, and respectively group facet light source by right with it
The photoelectric tube of neat arrangement controls, after ultraviolet light-emitting diodes in each group of facet light source is electrically coupled in series and light source controller
Light source drive part divide electrical connection,
Fourth face light source is by the neat multiple ultraviolet light-emitting diodes structures being welded on the 4th piece of ceramic base light source board front
Becoming, the back side of the 4th piece of ceramic base light source board is pasted onto on the bottom surface of the second rectangle water-filled radiator by heat-conducting glue, and the 4th
Ultraviolet light-emitting diodes on block ceramic base light source board is divided into the M group facet light source that length and width are identical, M group facet light source
With M photoelectric tube align one by one along the equidistant word order of paper out opening, and respectively group facet light source by aligning
The photoelectric tube of arrangement controls, and the ultraviolet light-emitting diodes in each group of facet light source is electrically coupled in series rear and light source controller
Light source drive part divides electrical connection,
5th area source is by the neat multiple ultraviolet light-emitting diodes structures being welded on the 5th piece of ceramic base light source board front
Becoming, the back side of the 5th piece of ceramic base light source board is pasted onto on the bottom surface of the 3rd rectangle water-filled radiator by heat-conducting glue, and the 5th
Ultraviolet light-emitting diodes on block ceramic base light source board is divided into the M group facet light source that length and width are identical, M group facet light source
With M photoelectric tube align one by one along the equidistant word order of paper out opening, and respectively group facet light source by aligning
The photoelectric tube of arrangement controls, and the ultraviolet light-emitting diodes in each group of facet light source is electrically coupled in series rear and light source controller
Light source drive part divides electrical connection,
Hexahedro light source is by the neat multiple ultraviolet light-emitting diodes structures being welded on the 6th piece of ceramic base light source board front
Becoming, the back side of the 6th piece of ceramic base light source board is pasted onto on the bottom surface of the 4th rectangle water-filled radiator by heat-conducting glue, and the 6th
Ultraviolet light-emitting diodes on block ceramic base light source board is divided into the M group facet light source that length and width are identical, M group facet light source
With M photoelectric tube align one by one along the equidistant word order of paper out opening, and respectively group facet light source by aligning
The photoelectric tube of arrangement controls, and the ultraviolet light-emitting diodes in each group of facet light source is electrically coupled in series rear and light source controller
Light source drive part divides electrical connection,
Each on first area source, the second area source, the 3rd area source, fourth face light source, the 5th area source and hexahedro light source
The length and width of group facet light source is identical,
The directional light direct irradiation that second area source and fourth face light source send is on the paper of label paper, on label paper
The top layer of ink solidifies,
Open Side Down is arranged on the 3rd rectangle water-filled radiator and the 4th rectangle water-cooling for little parabolic cylinder illuminator
Between device, second largest parabolic cylinder illuminator opening upwards be arranged on the 3rd rectangle water-filled radiator and the 4th rectangle
The underface of water-filled radiator, the reflective surface of second largest parabolic cylinder illuminator just reflective surface to little parabolic cylinder illuminator,
Second largest parabolic cylinder illuminator overlaps with the focal line of little parabolic cylinder illuminator, in the centre of second largest parabolic cylinder illuminator
Position is just having the guide-lighting slit that a width is identical with little parabolic cylinder illuminator A/F to little parabolic cylinder illuminator,
The front of the 5th piece and the 6th piece ceramic base light source board just reflective surface to second largest thing cylindrical mirror so that the 5th piece and
The directional light that each group facet light source on six pieces of ceramic base light source board fronts sends by second largest parabolic cylinder illuminator and
The reflection of little parabolic cylinder illuminator, the directional light forming the multiplication of a branch of light intensity passes the vertical irradiation of guide-lighting slit at label paper
Zhang Shang, solidifies the shallow top layer of label paper curing ink,
First big parabolic cylinder illuminator is positioned at the surface of first piece and the 3rd piece ceramic base light source board, and the first big parabolic
The focal line of cylindrical mirror falls on the paper of label paper so that the front of first piece and the 3rd piece ceramic base light source board is the most right
The reflective surface of the first big thing cylindrical mirror, and make respectively to organize facet on first piece and the 3rd piece of ceramic base light source board front
The directional light that light source the sends reflection by the first big parabolic cylinder illuminator, focuses on Jiao of the first big parabolic cylinder illuminator
On line, focal line is formed the wire high light of light intensity multiplication, the deep layer of label paper curing ink is solidified,
The structure of N number of ultraviolet intense light source generator and every size all with first ultraviolet complete phase of intense light source generator
With,
When the label paper of one fixed width through rectangular paper feed hole and paper out opening through the transmitting of mid portion photoelectric tube
Time between pipe and reception pipe, the light that the transmitting tube of this part photoelectric tube sends is cut off by label paper can not arrive reception
Pipe, this part photoelectric tube is off, and remaining photoelectric tube is in the conduction state, and the state of each photoelectric tube is sent to
The illumination width detection part of light source controller, with the photoelectric tube being off in N number of ultraviolet intense light source generator
Each group facet light source of alignment is divided by the light source drive part of light source controller and adds electroluminescence, and remaining respectively organizes facet light
The not powered luminescence in source,
Velocity sensor is arranged in lower box, and velocity sensor is positioned at the lower end in rectangular paper feed hole, velocity pick-up
Device detects part with the intensity of illumination of light source controller and electrically connects, and label paper is close to by velocity sensor, when label paper is at mark
Sign under the drive of printer, during with speed v through rectangular paper feed hole and rectangular paper out opening, the mobile speed of label paper
Degree signal Negotiation speed sensor is sent to the intensity of illumination detection part of light source controller, light source controller pass according to speed
The rate signal that sensor detects adjusts the illumination of each group of facet light source adding electroluminescence in N number of ultraviolet intense light source generator
Intensity.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105946347A (en) * | 2016-05-26 | 2016-09-21 | 北京印刷学院 | Multi-stage composite light source ultraviolet rapid curing device for label printing machine |
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2016
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105946347A (en) * | 2016-05-26 | 2016-09-21 | 北京印刷学院 | Multi-stage composite light source ultraviolet rapid curing device for label printing machine |
CN105946347B (en) * | 2016-05-26 | 2018-08-10 | 北京印刷学院 | Label printing machine multistage composite light source ultraviolet fast-curing device |
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