CN106004030A - Complementary curing device for plane light source and light reflection multiplication line light source of label printing machine - Google Patents
Complementary curing device for plane light source and light reflection multiplication line light source of label printing machine Download PDFInfo
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- CN106004030A CN106004030A CN201610362569.1A CN201610362569A CN106004030A CN 106004030 A CN106004030 A CN 106004030A CN 201610362569 A CN201610362569 A CN 201610362569A CN 106004030 A CN106004030 A CN 106004030A
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- photoelectric tube
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- 238000007639 printing Methods 0.000 title claims abstract description 26
- 230000000295 complement effect Effects 0.000 title claims abstract description 8
- 238000005286 illumination Methods 0.000 claims abstract description 34
- 238000001514 detection method Methods 0.000 claims abstract description 30
- 239000000919 ceramic Substances 0.000 claims description 47
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 34
- 238000007711 solidification Methods 0.000 claims description 12
- 230000008023 solidification Effects 0.000 claims description 12
- 238000012360 testing method Methods 0.000 claims description 7
- 239000003292 glue Substances 0.000 claims description 6
- 238000005401 electroluminescence Methods 0.000 claims description 3
- 238000004020 luminiscence type Methods 0.000 claims description 2
- 238000001816 cooling Methods 0.000 abstract 1
- 239000010410 layer Substances 0.000 abstract 1
- 239000002344 surface layer Substances 0.000 abstract 1
- 238000001723 curing Methods 0.000 description 17
- 230000005622 photoelectricity Effects 0.000 description 7
- QSHDDOUJBYECFT-UHFFFAOYSA-N mercury Chemical compound [Hg] QSHDDOUJBYECFT-UHFFFAOYSA-N 0.000 description 5
- 229910052751 metal Inorganic materials 0.000 description 5
- 239000002184 metal Substances 0.000 description 5
- 125000005843 halogen group Chemical group 0.000 description 4
- 238000000034 method Methods 0.000 description 4
- 230000000694 effects Effects 0.000 description 3
- 239000007787 solid Substances 0.000 description 3
- 239000011248 coating agent Substances 0.000 description 2
- 238000000576 coating method Methods 0.000 description 2
- 230000005611 electricity Effects 0.000 description 2
- 229910001385 heavy metal Inorganic materials 0.000 description 2
- 239000000976 ink Substances 0.000 description 2
- 239000000565 sealant Substances 0.000 description 2
- CBENFWSGALASAD-UHFFFAOYSA-N Ozone Chemical compound [O-][O+]=O CBENFWSGALASAD-UHFFFAOYSA-N 0.000 description 1
- 239000000853 adhesive Substances 0.000 description 1
- 230000001070 adhesive effect Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 239000000356 contaminant Substances 0.000 description 1
- 230000023077 detection of light stimulus Effects 0.000 description 1
- 238000004134 energy conservation Methods 0.000 description 1
- 238000005265 energy consumption Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 238000003912 environmental pollution Methods 0.000 description 1
- 239000004744 fabric Substances 0.000 description 1
- 229910052736 halogen Inorganic materials 0.000 description 1
- 150000002367 halogens Chemical class 0.000 description 1
- 239000007788 liquid Substances 0.000 description 1
- 229910052753 mercury Inorganic materials 0.000 description 1
- 230000003287 optical effect Effects 0.000 description 1
- 238000006552 photochemical reaction Methods 0.000 description 1
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F23/00—Devices for treating the surfaces of sheets, webs, or other articles in connection with printing
- B41F23/04—Devices for treating the surfaces of sheets, webs, or other articles in connection with printing by heat drying, by cooling, by applying powders
- B41F23/044—Drying sheets, e.g. between two printing stations
- B41F23/045—Drying sheets, e.g. between two printing stations by radiation
- B41F23/0453—Drying sheets, e.g. between two printing stations by radiation by ultraviolet dryers
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- Health & Medical Sciences (AREA)
- General Health & Medical Sciences (AREA)
- Toxicology (AREA)
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Supply, Installation And Extraction Of Printed Sheets Or Plates (AREA)
- Length Measuring Devices By Optical Means (AREA)
Abstract
The invention discloses a complementary curing device for a plane light source and a light reflection multiplication line light source of a label printing machine. The complementary curing device is composed of a rectangular box body, a light source controller, a prism water-cooling radiator, the plane light source, the line light source, a width detection mechanism and a speed sensor. The device detects the label printing width and the label printing speed in real time through the width detection mechanism and the speed sensor. The illumination range and the illumination strength of the plane light source and the line light source can be adjusted in real time, and the curing speed of printing ink on a surface layer and a deep layer is further increased through complementary curing of the plane light source and the light reflection multiplication line light source.
Description
Technical field:
The present invention relates to a kind of ultraviolet curing device, the planar light source of a kind of label printing machine and reflective multiplication linear light
The complementary solidification equipment in source, this device compared with traditional ultraviolet curing device, more energy efficient, environmental protection, quickly, efficiently, desirable
Ultraviolet curing device for existing label printing machine.
Background technology:
Solidification refers to that ink, coating, adhesive, sealant etc. are converted into the process of solid state by liquid condition, and ultraviolet is solid
Change is to utilize ultraviolet and the light trigger generation photochemical reaction joined in ink, coating, sealant to realize fast setting
Method,
In label printing, the fast setting of ink is the important step of label printing process, but in label printing industry, mostly
High-pressure mercury-vapor lamp and the point source of metal halid lamp composition and line source is utilized to realize ultraviolet curing, high-pressure mercury-vapor lamp and metal
Halogen light all exist power consumption high, containing the short feature of heavy metal contaminants and life-span, in use need frequently to change high-pressure mercury
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 the most also can
Formed heavy metal environmental pollution, the most energy-conservation the most not environmentally,
In recent years, people are incorporated into ultraviolet curing field ultraviolet light-emitting diodes, have developed UV-light luminous two pole
Pipe solidification equipment,
Comparing with metal halid lamp ultraviolet curing method with high-pressure mercury-vapor lamp, ultraviolet light-emitting diodes curing can be big
Amplitude reduction energy resource consumption, solidification process do not produce ozone and the discharge of volatile organism matter, light source length in service life, Ke Yishi
Existing moment is turned on and off, and is particularly conducive to label printing and prints heat sensitive printable fabric, but existing ultraviolet light is sent out
The light source range of exposures of optical diode solidification equipment and light source exposure rate are all changeless, it is impossible to according to the width of leaflet
Degree and print speed printing speed adjust light source range of exposures and light source exposure rate in good time, and energy resource consumption is relatively big, system stability and control
Precision is the highest, ultraviolet curing effect is poor,
Therefore, adjust light source range of exposures and light source exposure rate according to label printing width and label print speed printing speed in good time, can
Reduce the energy resource consumption of ultraviolet light light-emitting diode curing device further, improve system stability and control accuracy, raising purple
Outside line solidification effect,
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 essence
Degree, improving ultraviolet curing effect, the present invention proposes the planar light source of a kind of label printing machine and reflective multiplication line source
Complementary solidification equipment, this device uses ultraviolet light-emitting diodes to constitute two groups of planar light sources, one of which planar light source conduct
The top layer ink of label paper can be solidified by area source, and the directional light that another set planar light source sends passes through a parabolic
The reflection of cylindrical mirror, forms the line source of light intensity multiplication, can deep layer ink to label paper carry out solid further
Change, and this device is by detecting width and the speed of label printing of label printing in real time, can adjust two groups of planar light in real time
The range of exposures in source and exposure rate,
The technical solution adopted for the present invention to solve the technical problems is: by a rectangular box, light source controller, one
Individual prismatic water-filled radiator, an area source, a line source, a width detection mechanism and a velocity sensor are constituted
Label printing machine solidification equipment, rectangular box is divided into upper box and lower box two parts, upper box and lower box by one
Combined page is connected, and has a rectangular paper feed hole and rectangular paper out opening on the top of lower box, and label paper exists
Under the drive of label printing machine, with speed v through rectangular paper feed hole and rectangular paper out opening,
Light source controller, prismatic water-filled radiator, area source and line source are all disposed within upper box, and light source controller is arranged
In the upper end of upper box, prismatic water-filled radiator is arranged on below light source controller, the bottom surface of prismatic water-filled radiator
Parallel with label paper sheet of planar, two sides of prismatic water-filled radiator and label paper sheet of planar intersect 120 degree of angles, three
The two ends of prismatic water-filled radiator are provided with an inlet opening and an apopore, and cold water flows into prismatic water-cooled and dissipates from inlet opening
Hot device, hot water flows out prismatic water-filled radiator from apopore,
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 for detection label paper width in real time, and by light source controller according to label paper width adjustment plane in real time
The range of exposures of light source, intensity of illumination test section demultiplexing detects the translational speed of label paper in real time, and by light source controller
Translational speed according to label paper adjusts the irradiation exposure rate of planar light source in real time, 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,
Area source is made up of the neat multiple ultraviolet light-emitting diodes being welded on first piece of ceramic base light source board front, the
The back side of one piece of ceramic base light source board is pasted onto on the bottom surface of prismatic water-filled radiator by heat-conducting glue, first block of ceramic base light
Ultraviolet light-emitting diodes on source plate is divided into length according to the order from rectangular paper out opening one end to the other end is equidistant
Wide identical N group facet light source, ultraviolet light-emitting diodes in each group of facet light source is electrically coupled in series afterwards and light source control
The light source drive part of device divides electrical connection, and it is flat that the multiple ultraviolet light-emitting diodes on first piece of ceramic base light source board front send
Row light, is radiated in the plane of label paper, solidifies the top layer of label paper curing ink,
Line source is by the neat multiple ultraviolet light-emitting diodes being welded on second piece of ceramic base light source board front and one
Parabolic cylinder illuminator is constituted, and the back side of second piece of ceramic base light source board is pasted onto prismatic water-filled radiator by heat-conducting glue
On one side, the ultraviolet light-emitting diodes on second piece of ceramic base light source board according to from rectangular paper out opening one end to separately
The equidistant N group facet light source being divided into length and width identical of the order of one end, and each group on second piece of ceramic base light source board
Each top organizing facet light source that facet light source is positioned on first piece of ceramic base light source board one to one, second piece of pottery
The electrically coupled in series rear light source with light source controller of the ultraviolet light-emitting diodes in each group of facet light source on base light source board drives
Dynamic part electrical connection, parabolic cylinder illuminator is arranged on the dead ahead of second piece of ceramic base light source board, parabolic cylinder illuminator
In the plane of the label paper that focal line falls in rectangular paper feed hole, and the front of second piece of ceramic base light source board is just to thing
The reflective surface of cylindrical mirror so that it is flat that the multiple ultraviolet light-emitting diodes on second piece of ceramic base light source board front send
The reflection by parabolic cylinder illuminator of the row light, focuses on the focal line of parabolic cylinder illuminator, forms light intensity times on focal line
The high light increased, top layer and deep layer to label paper curing ink solidify,
Width detection mechanism is made up of N number of photoelectric tube, N number of photoelectric tube all with the illumination width detection part of light source controller
Electrical connection, each photoelectric tube according to from the equidistant word order of order of rectangular paper out opening one end to the other end, and
Each lower section organizing facet light source that each photoelectric tube is positioned on first piece of ceramic base light source board one to one, each photoelectric tube
Transmitting tube be arranged on the upper end of rectangular paper out opening, the pipe that receives of each photoelectric tube is arranged under rectangular paper out opening
End, when the label paper of one fixed width is through rectangular paper feed hole and paper out opening, and through the transmitting of a part of 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
On the illumination width detection part of light source controller, first piece of ceramic base light source board and second piece of ceramic base light source board be in
The corresponding each group facet light source of the photoelectric tube of off-state is divided by the light source drive part of light source controller and adds electroluminescence,
Other respectively group not powered luminescences of facet light source on first piece of ceramic base light source board and second piece of ceramic base light source board,
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 area source and the intensity of illumination of line source,
The invention has the beneficial effects as follows: detected width and the mark of label printing in real time by width detection mechanism and velocity sensor
Endorse the speed of brush, area source and the range of exposures of line source and exposure rate can be adjusted in real time, by area source and reflective times
Increase line source complementation solidification, further increase top layer and the curing rate of deep layer ink,
Accompanying drawing illustrates:
The present invention is further described with embodiment below in conjunction with the accompanying drawings.
Fig. 1 is the overall front view of the present invention.
Fig. 2 is the A-A sectional view of the present invention.
Fig. 3 is the B-B sectional view of the present invention.
Detailed description of the invention:
In fig. 1 and 2, by a rectangular box, light source controller 11,10, area source of prismatic water-filled radiator,
The label printing machine solidification equipment that one line source, a width detection mechanism and velocity sensor 12 are constituted, rectangular box
It is divided into upper box 1 and lower box 2 two parts, upper box 1 to be connected by hinge 14 with lower box 2, open on the top of lower box 2
Having a rectangular paper feed hole 4-1 and rectangular paper out opening 4-2, label paper 5 is under the drive of label printing machine, with speed
Degree v passes rectangular paper feed hole 4-1 and rectangular paper out opening 4-2,
In figs. 2 and 3, light source controller 11, prismatic water-filled radiator 10, area source and line source are all disposed within upper box
In 1, light source controller 11 is arranged on the upper end of upper box 1, and prismatic water-filled radiator 10 is arranged on light source controller 11 times
Face, the bottom surface of prismatic water-filled radiator 10 is parallel with the paper of label paper 5, two other of prismatic water-filled radiator 10
Surface and label paper 5 paper intersect 120 degree of angles, are provided with an inlet opening 9-at the two ends of prismatic water-filled radiator 10
1 and an apopore 9-2, cold water flows into prismatic water-filled radiator 10 from inlet opening 9-1, and hot water flows out three from apopore 9-2
Prismatic water-filled radiator 10,
Light source controller 11 is divided by illumination width detection part, intensity of illumination detection part, light source drive part and constitutes, illumination width
Test section demultiplexing detects label paper width in real time, and is adjusted flat in real time according to label paper width by light source controller
The range of exposures of area source, intensity of illumination test section demultiplexing detects the translational speed of label paper in real time, and by light source control
Device 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 by light
Detect the testing result of part according to width detection part and intensity of illumination, provide electric energy to planar light source,
In figs. 2 and 3, area source is by the neat multiple ultraviolet lights being welded on first piece of ceramic base light source board 15-2 front
Light emitting diode is constituted, and the back side of first piece of ceramic base light source board 15-2 is pasted onto prismatic water-filled radiator 10 by heat-conducting glue
Bottom surface on, the ultraviolet light-emitting diodes on first piece of ceramic base light source board 15-2 is according to from the one of rectangle paper out opening 4-2
Hold that the order of the other end is equidistant is divided into facet light source 7-1, facet light source 7-2, facet light source 7-3, facet
Light source 7-4, facet light source 7-5, facet light source 7-6, facet light source 7-7, facet light source 7-8, facet light source 7-
9, facet light source 7-10, facet light source 7-11, facet light source 7-12, facet light source 7-13, facet light source 7-14,
Facet light source 7-15, facet light source 7-16, facet light source 7-17, facet light source 7-18, facet light source 7-19, little
Planar light source 7-20, facet light source 7-21, facet light source 7-22, facet light source 7-23, each facet light source length and width phase
With, after ultraviolet light-emitting diodes in each facet light source is electrically coupled in series, light source drive part with light source controller 11 divides and is electrically connected
Connecing, the directional light that each group facet light source on first piece of ceramic base light source board front 15-2 sends is radiated at label paper 5
On paper, the top layer of label paper 5 curing ink 6 is solidified,
In figs. 2 and 3, line source is by the neat multiple ultraviolet lights being welded on second piece of ceramic base light source board 15-1 front
Light emitting diode and parabolic cylinder illuminator 13 are constituted, and the back side of second piece of ceramic base light source board 15-1 is pasted onto by heat-conducting glue
On one side of prismatic water-filled radiator 10, the ultraviolet light-emitting diodes on second piece of ceramic base light source board 15-1 according to
From the one end of the rectangle paper out opening 4-2 order to the other end equidistant be 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, facet light 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, each facet light source length and width are identical, after ultraviolet light-emitting diodes in each facet light source is electrically coupled in series and light source control
The light source drive part of device 11 divides each group facet light source one_to_one corresponding in electrical connection, and second piece of ceramic base light source board 15-1
The each top organizing facet light source being positioned on first piece of ceramic base light source board 15-2, parabolic cylinder illuminator 13 is arranged on the
The dead ahead of two pieces of ceramic base light source board 15-1, the front of second piece of ceramic base light source board 15-1 is just to thing cylindrical mirror 13
Reflective surface, the focal line f of parabolic cylinder illuminator 13 falls in the plane of label paper 5 so that second piece of ceramic base light source board 15-
The directional light that each group facet light source on 1 front the sends reflection by parabolic cylinder illuminator 13, focuses on parabolic cylinder
On the focal line f of illuminator 13, focal line f forms the high light of light intensity multiplication, top layer and the deep layer to label paper 5 curing ink 6
Solidify,
In figs. 2 and 3, width detection mechanism by transmitting tube 8-1 and receives the first photoelectric tube, the transmitting tube that pipe 8-2 is constituted
The second photoelectric tube, transmitting tube 8-5 and the 3rd photoelectric tube of reception pipe 8-6 composition, the transmitting that 8-3 and reception pipe 8-4 is constituted
Pipe 8-7 and receive pipe 8-8 constitute the 4th photoelectric tube, transmitting tube 8-9 and receive pipe 8-10 constitute the 5th photoelectric tube, send out
Penetrate pipe 8-11 and receive the 6th photoelectric tube, transmitting tube 8-13 and the 7th photoelectricity pair of reception pipe 8-14 composition that pipe 8-12 is constituted
The 8th photoelectric tube, transmitting tube 8-17 and the 9 of reception pipe 8-18 composition that pipe, transmitting tube 8-15 and reception pipe 8-16 are constituted
The tenth photoelectric tube, transmitting tube 8-21 and reception pipe 8-22 that photoelectric tube, transmitting tube 8-19 and reception pipe 8-20 are constituted are constituted
The 11st photoelectric tube, transmitting tube 8-23 and receive pipe 8-24 constitute the 12nd photoelectric tube, transmitting tube 8-25 and reception
The 13rd photoelectric tube, transmitting tube 8-27 and the 14th photoelectric tube of reception pipe 8-28 composition, the transmitting tube that pipe 8-26 is constituted
The 16th photoelectricity pair that the 15th photoelectric tube, transmitting tube 8-31 and the reception pipe 8-32 that 8-29 and reception pipe 8-30 is constituted is constituted
Pipe, transmitting tube 8-33 and receive the 17th photoelectric tube that pipe 8-34 constitutes, transmitting tube 8-35 and receive that pipe 8-36 is constituted the
The 19th photoelectric tube, transmitting tube 8-39 and the reception pipe 8-that 18 photoelectric tubes, transmitting tube 8-37 and reception pipe 8-38 are constituted
40 the 20th photoelectric tubes constituted, transmitting tube 8-41 and the 21st photoelectric tube of reception pipe 8-42 composition, transmitting tube 8-
The 23rd photoelectricity that 43 and reception pipe 8-44 the 22nd photoelectric tubes constituted, transmitting tube 8-45 and reception pipe 8-46 are constituted
To pipe constitute, each photoelectric tube all electrically connects with the illumination width detection part of light source controller 11, each photoelectric tube according to
From the equidistant word order of order of rectangular paper out opening 4-2 one end to the other end, and each photoelectric tube one_to_one corresponding
The each lower section organizing facet light source being positioned on first piece of ceramic base light source board 15-1, the transmitting tube of each photoelectric tube is arranged on
The upper end of rectangular paper out opening 4-2, the pipe that receives of each photoelectric tube is arranged on the lower end of rectangular paper out opening 4-2, little flat
Area source 7-1 and facet light source 3-1 is controlled by the first photoelectric tube, facet light source 7-2 and facet light source 3-2 is by second
Photoelectric tube controls, facet light source 7-3 and facet light source 3-3 is controlled by the 3rd photoelectric tube, facet light source 7-4 and little
Planar light source 3-4 is controlled by the 4th photoelectric tube, facet light source 7-5 and facet light source 3-5 is controlled by the 5th photoelectric tube,
Facet light source 7-6 and facet light source 3-6 is controlled by the 6th photoelectric tube, facet light source 7-7 and facet light source 3-7 by
7th photoelectric tube controls, facet light source 7-8 and facet light source 3-8 is controlled by the 8th photoelectric tube, facet light source 7-9
Control by the 9th photoelectric tube with facet light source 3-9, facet light source 7-10 and facet light source 3-10 is by the tenth photoelectricity pair
Management and control system, facet light source 7-11 and facet light source 3-11 are controlled by the 11st photoelectric tube, facet light source 7-12 and little
Planar light source 3-12 is controlled by the 12nd photoelectric tube, facet light source 7-13 and facet light source 3-13 is by the 13rd photoelectricity pair
Management and control system, facet light source 7-14 and facet light source 3-14 are controlled by the 14th photoelectric tube, facet light source 7-15 and little
Planar light source 3-15 is controlled by the 15th photoelectric tube, facet light source 7-16 and facet light source 3-16 is by the 16th photoelectricity pair
Management and control system, facet light source 7-17 and facet light source 3-17 are controlled by the 17th photoelectric tube, facet light source 7-18 and little
Planar light source 3-18 is controlled by the 18th photoelectric tube, facet light source 7-19 and facet light source 3-19 is by the 19th photoelectricity pair
Management and control system, facet light source 7-20 and facet light source 3-20 are controlled by the 20th photoelectric tube, facet light source 7-21 and little
Planar light source 3-21 is controlled by the 21st photoelectric tube, facet light source 7-22 and facet light source 3-22 is by the 22nd light
Management and control system, facet light source 7-23 and facet light source 3-23 are controlled, when one fixed width by electricity by the 23rd photoelectric tube
Label paper 5 through the transmitting tube of mid portion photoelectric tube and receives pipe through rectangular paper feed hole 4-1 and paper out opening 4-2
Between time, the light that the transmitting tube of this part photoelectric tube sends by label paper 5 cut off can not arrive reception pipe, this part light
Pipe is off by electricity, and remaining photoelectric tube is in the conduction state, and the state of each photoelectric tube is sent to light source controller
The illumination width detection part of 11, and driven the photoelectric tube control being off by the light source of light source controller 11
Each facet light source add electroluminescence,
Velocity sensor 12 is arranged in lower box 2, and velocity sensor 12 is positioned at the lower end of rectangular paper feed hole 4-1,
Velocity sensor 12 detects part with the intensity of illumination of light source controller 11 and electrically connects, and label paper 5 is close to by velocity sensor 12,
When label paper 5 is under the drive of label printing machine, with speed v through rectangular paper feed hole 4-1 and rectangular paper out opening
During 4-2, the translational speed signal Negotiation speed sensor 12 of label paper 5 is sent to the intensity of illumination detection of light source controller 11
Part, light source controller 11 illumination adjusting area source and line source according to the rate signal that velocity sensor 12 detects is strong
Degree.
Claims (1)
1. the planar light source of label printing machine and a complementary solidification equipment for reflective multiplication line source, by a rectangle case
Body, light source controller, prismatic water-filled radiator, area source, line source, a width detection mechanism
Constitute with a velocity sensor, it is characterized in that: rectangular box is divided into upper box and lower box two parts, upper box and nowel
Body is connected by a combined page, has a rectangular paper feed hole and rectangular paper out opening on the top of lower box, mark
Label paper is under the drive of label printing machine, with speed v through rectangular paper feed hole and rectangular paper out opening,
Light source controller, prismatic water-filled radiator, area source and line source are all disposed within upper box, and light source controller is arranged
In the upper end of upper box, prismatic water-filled radiator is arranged on below light source controller, the bottom surface of prismatic water-filled radiator
Parallel with label paper sheet of planar, two sides of prismatic water-filled radiator and label paper sheet of planar intersect 120 degree of angles, three
The two ends of prismatic water-filled radiator are provided with an inlet opening and an apopore, and cold water flows into prismatic water-cooled and dissipates from inlet opening
Hot device, hot water flows out prismatic water-filled radiator from apopore,
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 for detection label paper width in real time, and by light source controller according to label paper width adjustment plane in real time
The range of exposures of light source, intensity of illumination test section demultiplexing detects the translational speed of label paper in real time, and by light source controller
Translational speed according to label paper adjusts the irradiation exposure rate of planar light source in real time, 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,
Area source is made up of the neat multiple ultraviolet light-emitting diodes being welded on first piece of ceramic base light source board front, the
The back side of one piece of ceramic base light source board is pasted onto on the bottom surface of prismatic water-filled radiator by heat-conducting glue, first block of ceramic base light
Ultraviolet light-emitting diodes on source plate is divided into length according to the order from rectangular paper out opening one end to the other end is equidistant
Wide identical N group facet light source, ultraviolet light-emitting diodes in each group of facet light source is electrically coupled in series afterwards and light source control
The light source drive part of device divides electrical connection, and it is flat that the multiple ultraviolet light-emitting diodes on first piece of ceramic base light source board front send
Row light, is radiated in the plane of label paper, solidifies the top layer of label paper curing ink,
Line source is by the neat multiple ultraviolet light-emitting diodes being welded on second piece of ceramic base light source board front and one
Parabolic cylinder illuminator is constituted, and the back side of second piece of ceramic base light source board is pasted onto prismatic water-filled radiator by heat-conducting glue
On one side, the ultraviolet light-emitting diodes on second piece of ceramic base light source board according to from rectangular paper out opening one end to separately
The equidistant N group facet light source being divided into length and width identical of the order of one end, and each group on second piece of ceramic base light source board
Each top organizing facet light source that facet light source is positioned on first piece of ceramic base light source board one to one, second piece of pottery
The electrically coupled in series rear light source with light source controller of the ultraviolet light-emitting diodes in each group of facet light source on base light source board drives
Dynamic part electrical connection, parabolic cylinder illuminator is arranged on the dead ahead of second piece of ceramic base light source board, parabolic cylinder illuminator
In the plane of the label paper that focal line falls in rectangular paper feed hole, and the front of second piece of ceramic base light source board is just to thing
The reflective surface of cylindrical mirror so that it is flat that the multiple ultraviolet light-emitting diodes on second piece of ceramic base light source board front send
The reflection by parabolic cylinder illuminator of the row light, focuses on the focal line of parabolic cylinder illuminator, forms light intensity times on focal line
The high light increased, top layer and deep layer to label paper curing ink solidify,
Width detection mechanism is made up of N number of photoelectric tube, N number of photoelectric tube all with the illumination width detection part of light source controller
Electrical connection, each photoelectric tube according to from the equidistant word order of order of rectangular paper out opening one end to the other end, and
Each lower section organizing facet light source that each photoelectric tube is positioned on first piece of ceramic base light source board one to one, each photoelectric tube
Transmitting tube be arranged on the upper end of rectangular paper out opening, the pipe that receives of each photoelectric tube is arranged under rectangular paper out opening
End, when the label paper of one fixed width is through rectangular paper feed hole and paper out opening, and through the transmitting of a part of 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
On the illumination width detection part of light source controller, first piece of ceramic base light source board and second piece of ceramic base light source board be in
The corresponding each group facet light source of the photoelectric tube of off-state is divided by the light source drive part of light source controller and adds electroluminescence,
Other respectively group not powered luminescences of facet light source on first piece of ceramic base light source board and second piece of ceramic base light source board,
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 area source and the intensity of illumination of line source.
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