CN105856831A - Plano-convex cylindrical lens multistage rapid ultraviolet curing device of label printing machine - Google Patents

Plano-convex cylindrical lens multistage rapid ultraviolet curing device of label printing machine Download PDF

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Publication number
CN105856831A
CN105856831A CN201610362667.5A CN201610362667A CN105856831A CN 105856831 A CN105856831 A CN 105856831A CN 201610362667 A CN201610362667 A CN 201610362667A CN 105856831 A CN105856831 A CN 105856831A
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light source
light
rectangular
ultraviolet
paper
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CN201610362667.5A
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Chinese (zh)
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CN105856831B (en
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焦慧敏
张明鸣
李晋尧
王昌益
王平
杨梅
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北京印刷学院
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41FPRINTING MACHINES OR PRESSES
    • B41F23/00Devices for treating the surfaces of sheets, webs, or other articles in connection with printing
    • B41F23/04Devices for treating the surfaces of sheets, webs, or other articles in connection with printing by heat drying, by cooling, by applying powders
    • B41F23/0403Drying webs
    • B41F23/0406Drying webs by radiation
    • B41F23/0409Ultra-violet dryers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41FPRINTING MACHINES OR PRESSES
    • B41F23/00Devices for treating the surfaces of sheets, webs, or other articles in connection with printing
    • B41F23/04Devices for treating the surfaces of sheets, webs, or other articles in connection with printing by heat drying, by cooling, by applying powders
    • B41F23/044Drying sheets, e.g. between two printing stations
    • B41F23/045Drying sheets, e.g. between two printing stations by radiation
    • B41F23/0453Drying sheets, e.g. between two printing stations by radiation by ultra-violet dryers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41FPRINTING MACHINES OR PRESSES
    • B41F33/00Indicating, counting, warning, control or safety devices
    • B41F33/0036Devices for scanning or checking the printed matter for quality control

Abstract

A plano-convex cylindrical lens multistage rapid ultraviolet curing device of a label printing machine is composed of a rectangular box, a light source controller, N ultraviolet intense light source generators, a width detection mechanism and a speed sensor. According to the device, ultraviolet LEDs and ultraviolet plano-convex cylindrical lenses constitute multiple hard light bands with multiplied light intensity; and surface layer printing ink and deep layer printing ink of label paper can be cured simultaneously. Moreover, the device can regulate the radiation range and radiation strength of light sources in real time by detecting the printing width and the printing speed of labels in real time.

Description

标签印刷机平凸柱面透镜多级快速紫外线固化装置 Label printer planoconvex cylindrical lens multi-stage flash ultraviolet curing apparatus

[0001 ] 技术领域: [0001] Technical Field:

本发明涉及一种紫外线固化装置,特别是一种标签印刷机平凸柱面透镜多级快速紫外线固化装置,该装置与传统的紫外线固化装置相比,更节能、环保、快速、高效,可取代现有标签印刷机的紫外线固化装置。 The present invention relates to an ultraviolet curing apparatus, in particular a label printer planoconvex cylindrical lens ultraviolet-curable multistage flash apparatus compared to the conventional ultraviolet-curing apparatus, more energy efficient, environmentally friendly, fast, efficient, can be substituted UV curing apparatus of the conventional label printers.

[0002]背景技术: [0002] BACKGROUND:

固化是指油墨、涂料、胶粘剂、密封剂等由液体状态转化为固体状态的过程,紫外线固化是利用紫外线和加入到油墨、涂料、密封剂中的光引发剂产生光化学反应实现快速固化的方法, Refers to the process of curing inks, coatings, adhesives, sealants conversion from a liquid state to a solid state, and ultraviolet rays using an ultraviolet curable added to inks, coatings, sealants photoinitiator photochemical reactions to achieve rapid curing method,

标签印刷中油墨的快速固化是标签印刷过程的重要环节,但在标签印刷行业中,大多利用高压水银灯和金属卤素灯构成的点光源和线光源实现紫外线固化,高压水银灯和金属卤素灯都存在耗能高、含重金属污染物和寿命短的特点,在使用中需要频繁更换高压水银灯和金属卤素灯,因此利用高压水银灯和金属卤素灯实现紫外线固化,成本高、能耗大还会形成重金属环境污染,既不节能也不环保, Fast curing ink label printing is an important part of the label printing process, but in the label printing industry, most of the point light source and line light source using a high pressure mercury lamp and a metal halide lamp made of an ultraviolet curable achieve high-pressure mercury and metal halide are present consumption It can be high, heavy metal contaminants and short life characteristics, in use, requires frequent replacement of high-pressure mercury and metal halide lamps, high pressure mercury lamp, and thus achieve an ultraviolet curable metal halide, high cost, energy consumption and environmental pollution but also the formation of heavy metal neither saving nor environmentally friendly,

近年来人们把紫外光发光二极管引入到紫外线固化领域,开发出了紫外光发光二极管固化装置, The ultraviolet light emitting diodes in recent years into an ultraviolet curing art, ultraviolet light emitting diodes developed a curing apparatus,

和高压水银灯和金属卤素灯紫外线固化方法相比,紫外光发光二极管固化方法能够大幅度降低能源消耗、固化过程不产生臭氧和易挥发有机物质排放、光源使用寿命长、不需要预热及冷却,特别有利于标签印刷和对热敏感的承印材料印刷,但现有的紫外光发光二极管固化装置的光源照射范围和光源照射强度都是固定不变的,不能根据印刷品的宽度和印刷速度适时调整光源照射范围和光源照射强度,能源消耗较大、系统稳定性和控制精度不高、紫外线固化效果较差, And a high-pressure mercury and metal halide ultraviolet curable Compared, ultraviolet light emitting diode curing method can significantly reduce energy consumption, the curing process does not produce ozone emissions of volatile substances, organic light, long lifetime and easy, does not require preheating and cooling, particularly advantageous for heat sensitive label printing and printing on a printing material, but the existing light source and the irradiation range of light intensity of ultraviolet light emitting diode curing device is fixed, can not adjust the light source in accordance with the width of the printing speed and print and the irradiation range of light source intensity, a larger energy consumption, system stability and control accuracy is not high, poor UV curing effect,

因此,根据标签印刷宽度和标签印刷速度适时调整光源照射范围和光源照射强度,并且采用多级聚焦倍增构成的多条紫外线强光带,可进一步降低紫外光发光二极管固化装置的能源消耗、提尚系统稳定性和控制精度、并且大幅提尚紫外线固化速度, Thus, according to adjust the width of the label printing and label printing speed and the irradiation range of the irradiation light intensity of light source, and the use of ultraviolet light with a plurality of multi-stage focusing multiplier structure which is useful to further reduce energy consumption ultraviolet light emitting diode curing device, yet provide stability and control accuracy, and still provide a substantial ultraviolet curing speed,

发明内容: SUMMARY:

为了进一步降低紫外光发光二极管固化装置的能源消耗、提高系统稳定性和控制精度、大幅提高紫外线固化速度,本发明提出了一种标签印刷机平凸柱面透镜多级快速紫外线固化装置,该装置采用紫外光发光二极管和紫外平凸柱面透镜构成多条光强倍增的强光带,可同时对标签纸张的表层和深层油墨进行固化,并且该装置通过实时检测标签印刷的宽度和标签印刷的速度,可实时调整光源的照射范围和照射强度, To further reduce the energy consumption of the UV light emitting diode curing device, improve system stability and control accuracy, a substantial increase in ultraviolet curing speed, the present invention provides a label printer planoconvex cylindrical lens ultraviolet-curable multistage flash apparatus ultraviolet using an ultraviolet light emitting diode and a plano-convex cylindrical lens configuration with a plurality of light intensity multiplied, can simultaneously label paper surface and deep curing ink, and the printing device through real-time detection tag and label printing width speed, can be adjusted in real time and the irradiation range of the irradiation intensity of the light source,

本发明解决其技术问题所采用的技术方案是:由一个长方形箱体、一个光源控制器、N个紫外线强光源发生器、一个宽度检测机构和一个速度传感器构成的标签印刷机固化装置,各个紫外线强光源发生器的结构和各项尺寸相同,长方形箱体分为上箱体和下箱体两部分,上箱体和下箱体通过一组合页相连接,在下箱体的上部开有一个长方形的进纸孔和长方形的出纸孔,标签纸张在标签印刷机的带动下,以速度V穿过长方形的进纸孔和长方形的出纸孔, 光源控制器由光照宽度检测部分、光照强度检测部分、光源驱动部分构成,光照宽度检测部分用来实时检测标签纸张宽度,并由光源控制器根据标签纸张宽度实时调整调整平面光源的照射范围,光照强度检测部分用来实时检测标签纸张的移动速度,并由光源控制器根据标签纸张的移动速度实时调整调整平面光 The present invention solves the technical problem using the technical solution: a label printer by a rectangular box curing apparatus, a light source controller, N a strong ultraviolet light generator, a width detecting means and the configuration of a speed sensor, various ultraviolet the same structure and dimensions of a strong light source generator, a rectangular box is divided into upper case and lower case in two parts, the upper case and lower case are connected by a combination of pages, an upper portion of the lower case has a rectangular opening the feed hole and the oblong hole paper, label paper label printers driven at a speed V through the rectangular holes and feed the paper rectangular hole, the width of the light source is controlled by the detection section, the detection light intensity part, the light source driving parts, the width of the light detection section for real-time detection of the label paper width by adjusting the irradiation range of the light source controller planar light source in real time to adjust the width of the label sheet according to the light intensity detection section for detecting a moving speed of the label paper in real time by the light source controller real-time adjustment of the moving speed of the label paper plane light adjustment 源的照射照射强度,光源驱动部分通过光照宽度检测部分和光照强度检测部分的检测结果,对平面光源提供电能, Intensity irradiation sources, a light source driving part by the width of the detection result of light detection section and the light intensity detection section, providing power to the planar light source,

光源控制器和N个紫外线强光源发生器都设置在上箱体内,光源控制器设置在上箱体的上端,N个紫外线强光源发生器整齐的并排设置在光源控制器的下面,各个紫外线强光源发生器的底面都与标签纸张平面平行,并且各个紫外线强光源发生器的底面与标签纸张的距离相等, Light source controller and N are strong ultraviolet light generator disposed on the housing, the light source controller is provided on an upper end of the casing, the N strong ultraviolet light generator neatly arranged side by side below the light source controller, each strong ultraviolet radiation the bottom surface of light source generators are parallel with the plane of the paper label, and the label paper from the bottom surface of each of the strong ultraviolet light generator are equal,

宽度检测机构由M个光电对管构成,每个光电对管都有一个光发射管和一个光接收管,M个光电对管都与光源控制器的光照宽度检测部分电连接,M个光电对管沿着出纸孔整齐的等距离一字排列,各光电对管的发射管设置在长方形的出纸孔的上端,各光电对管的接收管设置在长方形的出纸孔的下端, Means for detecting a width of M photoelectric tubes, each tube has a photoelectric light emitting tube and a light receiving pipe, are the M on the photoelectric detection portion is electrically connected to the light source controller of the width, of the photoelectric M neat tube equidistantly along the paper-line hole, an upper end of the paper in a rectangular hole, the lower end of each of the photo-emitting tube is provided on the photoelectric each of the paper receiving bore of the tube of rectangular tube is provided,

第一个紫外线强光源发生器由小箱体、第一长方形水冷散热器、第二长方形水冷散热器、第三长方形水冷散热器、第一面光源、第二面光源、第三面光源、第一紫外波长平凸柱面透镜和第二紫外波长平凸柱面透镜构成,第一长方形水冷散热器、第二长方形水冷散热器、第三长方形水冷散热器、第一面光源、第二面光源、第三面光源、第一紫外波长平凸柱面透镜、第二紫外波长平凸柱面透镜都设置在小箱体内,第一长方形水冷散热器、第二长方形水冷散热器、第三长方形水冷散热器设置在小箱体的上端,第一紫外波长平凸柱面透镜设置在第二长方形水冷散热器的下面,第二紫外波长平凸柱面透镜设置在第三长方形水冷散热器的下面,第一长方形水冷散热器、第二长方形水冷散热器和第三长方形水冷散热器的底面和上表面都与标签纸张平面平行,在第 A first ultraviolet light generator consists of a small box strong, a first oblong water cooler, a second water cooler oblong, rectangular third water cooler, the first surface light source, the second surface light source, the third surface light source, the first a plano-convex cylindrical lens ultraviolet wavelength and the second wavelength ultraviolet flat convex cylindrical lens configuration, the first water cooler oblong, rectangular second water cooler, water cooler third rectangle, the first surface light source, the second surface light source the third surface light source, a first ultraviolet wavelength planoconvex cylindrical lens, a second ultraviolet wavelength planoconvex cylindrical lenses are arranged within a housing, a first oblong water cooler, water cooler second rectangle, the third oblong water cooling a radiator disposed at the upper end of the small box, the first ultraviolet wavelength planoconvex cylindrical lens disposed under the second rectangular water-cooled heat sink, a second ultraviolet wavelength planoconvex cylindrical lens is disposed under the third rectangular water-cooled heat sink, a first rectangular water cooler, water cooler and a second oblong rectangular bottom surface and an upper surface of the third water cooler are parallel to the plane of the paper labels, the first 长方形水冷散热器、第二长方形水冷散热器和第三长方形水冷散热器的前后两端面上都设置有一个进水孔和一个出水孔,冷水从各进水孔流入第一长方形水冷散热器、第二长方形水冷散热器和第三长方形水冷散热器,热水从各出水孔流出第一长方形水冷散热器、第二长方形水冷散热器和第三长方形水冷散热器,第一面光源由整齐的焊接在第一块陶瓷基光源板正面上的多个紫外光发光二极管构成,第一块陶瓷基光源板的背面通过导热胶粘贴在第一长方形水冷散热器的底面上,第一块陶瓷基光源板上的紫外光发光二极管被分为长宽相同的M组小平面光源,M组小平面光源和M个光电对管一一对齐的沿着出纸孔等距离一字排列,并且各组小平面光源由与其对齐排列的光电对管控制,每一组小平面光源内的紫外光发光二极管电串联后与光源控制器的光源驱动 Rectangular water-cooled radiator, the second radiator and the third oblong rectangular water-cooled front and rear end faces of the water cooler is provided with a bore inlet and a bore outlet, a first cold water inlet from the water cooler of each rectangular inlet hole, the first two oblong rectangle, and a third water cooler water cooler, a first oblong water cooler water discharge from each nozzle holes, the second and third oblong rectangular water cooler water cooler, the surface light source by a first welding neat a plurality of ultraviolet light emitting diodes on the front side of a ceramic substrate constituting the light source panel, a back surface of the ceramic base plate by a thermally conductive source glue rectangular bottom surface of the first water cooler, and a second light source ceramic base plate ultraviolet light emitting diode is divided into M sets of the same length and width of the small planar light source, a planar light source group of small M and M on the photoelectric eleven word aligned equidistantly arranged along the paper holes, and each set of facets controlling the light source by the photoelectric tube aligned therewith, the ultraviolet light emitting diode in the small planar light source in series with each set of the light source drive controller 分电连接, Electrical connection points,

第二面光源由整齐的焊接在第二块陶瓷基光源板正面上的多个紫外光发光二极管构成,第二块陶瓷基光源板的背面通过导热胶粘贴在第二长方形水冷散热器的底面上,第二块陶瓷基光源板上的紫外光发光二极管被分为长宽相同的M组小平面光源,M组小平面光源和M个光电对管一一对齐的沿着出纸孔等距离一字排列,并且各组小平面光源由与其对齐排列的光电对管控制,每一组小平面光源内的紫外光发光二极管电串联后与光源控制器的光源驱动部分电连接, The second surface light source by a plurality of welding neat UV light emitting diodes in the ceramic substrate on the front face of the second block plate constituting the light source, the back surface of the second block based light source ceramic plate by a thermally conductive glue in a second rectangular bottom surface water cooler , the second ultraviolet light emitting diode based light source block ceramic plates are divided into M groups of the same length and width smaller planar light source, a planar light source group of small M and M on the photoelectric eleven holes aligned along a sheet equidistantly in-line, and on the photoelectric control by the planar light source of small groups of aligned therewith, the ultraviolet light emitting diode in each group small planar light source driving part electrically connected in series with the light source controller,

第三面光源由整齐的焊接在第三块陶瓷基光源板正面上的多个紫外光发光二极管构成,第三块陶瓷基光源板的背面通过导热胶粘贴在第三长方形水冷散热器的底面上,第三块陶瓷基光源板上的紫外光发光二极管被分为长宽相同的M组小平面光源,M组小平面光源和M个光电对管一一对齐的沿着出纸孔等距离一字排列,并且各组小平面光源由与其对齐排列的光电对管控制,每一组小平面光源内的紫外光发光二极管电串联后与光源控制器的光源驱动部分电连接, The third surface light source is constituted by a plurality of welding neat ultraviolet light emitting diodes on the front side of the third light source panel of the monolithic ceramic substrate, a ceramic substrate back surface of the third light source block by a thermally conductive glue plate on the bottom surface of the third rectangular water cooler on the third ultraviolet light emitting diode based light source block ceramic plates are divided into M groups of the same length and width smaller planar light source, a planar light source group of small M and M on the photoelectric eleven holes aligned along a sheet equidistantly in-line, and on the photoelectric control by the planar light source of small groups of aligned therewith, the ultraviolet light emitting diode in each group small planar light source driving part electrically connected in series with the light source controller,

第一面光源发出的平行光直接照射在标签纸张的纸面上,对标签纸张上油墨的表层进行固化, Directly irradiated with light emitted from a first light source in a plane parallel to the label on the paper sheet, the ink on the label surface of the sheet is cured,

第一紫外波长平凸柱面透镜与标签纸张的纸面平行的设置在第二长方形水冷散热器的正下方,并且第一紫外波长平凸柱面透镜的焦线f位于标签纸张的张面下端,第二块陶瓷基光源板的正面正对第一紫外波长平凸柱面透镜,使得第二块陶瓷基光源板正面上的各组小平面光源发出的平行光穿过第一紫外波长平凸柱面透镜照射在标签纸张的纸面上,在标签纸张的纸面上形成一束光强倍增的强光带,对标签纸张上油墨的浅表层进行固化, Parallel to the plane of the first ultraviolet wavelength plano-convex cylindrical lens and the label paper is disposed directly below the water cooler of the second rectangle, and the first ultraviolet wavelength planoconvex cylindrical lens focal lines f located lower surface sheets of label paper , the second block front surface light source panel of the ceramic substrate facing the first ultraviolet wavelength planoconvex cylindrical lens, so that the second parallel block ceramic plates in each group based light source facets on the front side emitted light passes through a first ultraviolet wavelength planoconvex cylindrical lens is irradiated on the paper label sheet, forming a beam of light with light intensity multiplied on the label paper sheet of the label paper shallow ink is cured,

第二紫外波长平凸柱面透镜与标签纸张的纸面平行的设置在第三长方形水冷散热器的正下方,并且第二紫外波长平凸柱面透镜的焦线F位于标签纸张的张面上,第三块陶瓷基光源板的正面正对第二紫外波长平凸柱面透镜,使得第三块陶瓷基光源板正面上的各组小平面光源发出的平行光穿过第二紫外波长平凸柱面透镜聚焦在标签纸张的纸面上,在标签纸张的纸面上形成光强倍增的线状强光,对标签纸张上油墨的深层进行固化, A second ultraviolet wavelength level parallel to the paper label sheet and the convex cylindrical lens is disposed immediately below the third water cooler of rectangular shape, the focal line F and the second ultraviolet wavelength plano-convex cylindrical lens positioned label paper sheet surface of , third monolithic ceramic substrate front plate facing the second light source wavelength ultraviolet planoconvex cylindrical lens, so that the third light source block ceramic base plate parallel to each set of facets on the front side emitted light passes through a second ultraviolet wavelength planoconvex the cylindrical lens is focused on the paper label sheet, forming linear light intensity multiplied on the paper label paper, label paper on the deep ink is cured,

N个紫外线强光源发生器的结构、各项尺寸和工作过程都与第一个紫外线强光源发生器完全相同, Structure, the size and operation of the N strong ultraviolet light generators are identical to the first strong ultraviolet light generator,

当一定宽度的标签纸张经过长方形的进纸孔和出纸孔穿过中间部分光电对管的发射管和接收管之间时,该部分光电对管的发射管发出的光线被标签纸张隔断不能到达接收管,该部分光电对管处于断开状态,其余光电对管处于导通状态,各光电对管的状态被送到光源控制器的光照宽度检测部分,N个紫外线强光源发生器中与处于断开状态的光电对管对齐排列的各组小平面光源通过光源控制器的光源驱动部分加电发光,其余各组小平面光源不加电发光, When the launch tube between the label paper and the receiving tube via a constant width and the paper feed bore hole through the intermediate portion of the rectangular photoelectric tubes, light emitting tube portion of the emitted on the photoelectric label paper is cut off can not be reached receiving tube, the portion on the photoelectric is off, the remaining part of the photoelectric tube for detecting the width of the light in the on state, the state of each photoelectric tube is sent to the light source controller, N a strong ultraviolet light generator and at a photoelectric source off state for each group of aligned tube facet light source controller through the power light emitting driving part, the other groups without facet light emission power,

速度传感器设置在下箱体内,并且速度传感器位于长方形的进纸孔的下端,速度传感器与光源控制器的光照强度检测部分电连接,速度传感器紧贴标签纸张,当标签纸张在标签印刷机的带动下,以速度V穿过长方形的进纸孔和长方形的出纸孔时,标签纸张的移动速度信号通过速度传感器被送到光源控制器的光照强度检测部分,由光源控制器根据速度传感器检测到的速度信号调整N个紫外线强光源发生器中各组加电发光的小平面光源的光照强度, Speed ​​sensor provided in the lower housing, and a speed sensor located in the lower end of the rectangular aperture feed, speed sensor and a light source light intensity detection section is electrically connected to the controller, the speed sensor close to the label paper, label paper when the label printer is driven in , at a speed V through the rectangular aperture feed and a rectangular hole paper, label paper moving speed signal is sent to the light intensity detected by the light source controller portion of the speed sensor, the speed detected by the sensor by the light source controller the N adjusted speed signal intensity ultraviolet light generator each group powered light emitting facet of the light intensity,

本发明的有益效果是:通过宽度检测机构和速度传感器实时检测标签印刷的宽度和标签印刷的速度,可实时调整光源的照射范围和照射强度,进一步降低紫外光发光二极管固化装置的能源消耗和提高系统稳定性和控制精度,并且采用多级紫外平凸柱面透镜构成的多条紫外线线状强光带,大幅提高了紫外线固化速度。 Advantageous effects of the invention are: width and label printing by the speed detection means and the width detecting sensor real speed label printing, irradiation range can be adjusted in real time and irradiation intensity of the light source, further reducing the energy consumption of the UV light emitting diode curing device and improve stability and control accuracy, and uses the plurality of linear UV ultraviolet light with a multistage configuration of a plano-convex cylindrical lens, a substantial increase in ultraviolet curing speed.

[0003]附图说明: [0003] BRIEF DESCRIPTION OF DRAWINGS:

下面结合附图和实施例对本发明进一步说明。 The present invention is further described below in conjunction with the accompanying drawings and embodiments.

[0004]图1是本发明的整体正视图。 [0004] FIG. 1 is an overall elevational view of the invention.

[0005]图2是本发明的AA剖视图。 [0005] FIG. 2 is an AA sectional view of the present invention.

[0006]图3是本发明的BB剖视图。 [0006] FIG. 3 is a sectional view BB of the present invention.

[0007]图4是本发明的CC剖视图。 [0007] FIG. 4 is a sectional view CC of the present invention.

[0008]图5是本发明的DD剖视图。 [0008] FIG. 5 is a DD sectional view of the present invention.

[0009]图6是本发明的EE剖视图。 [0009] FIG. 6 is a sectional view of the present invention EE.

[0010]图7是本发明的FF剖视图。 [0010] FIG. 7 is a cross-sectional view of the present invention FF.

[0011]具体实施方式: [0011] DETAILED DESCRIPTION:

在图1、图2和图3中,一个长方形箱体、一个光源控制器11、N个紫外线强光源发生器、一个宽度检测机构和一个速度传感器12构成的标签印刷机固化装置,各个紫外线强光源发生器的结构和各项尺寸相同,长方形箱体分为上箱体16和下箱体17两部分,上箱体16和下箱体17通过一组合页14相连接,在下箱体17的上部开有一个长方形的进纸孔7-1和长方形的出纸孔7-2,标签纸张18在标签印刷机的带动下,以速度V穿过长方形的进纸孔7-1和长方形的出纸孔7-2, In FIG 1, FIG 2 and FIG 3, a rectangular box, a light source controller 11, N a strong ultraviolet light generator, a label printer width detection means and the curing means a speed sensor 12 constituted, each strong ultraviolet the same light source and the size of the generator configuration, a rectangular box is divided into upper case 16 and lower case 17 in two parts, the upper case 16 and lower case 17 by a combination of page 14 is connected to the lower case 17 there is a rectangular open upper feed holes 7-1 and 7-2 oblong hole the paper, label paper label printer 18 is driven at a speed V through the rectangle and rectangular feed holes 7-1 of the paper hole 7-2,

光源控制器11由光照宽度检测部分、光照强度检测部分、光源驱动部分构成,光照宽度检测部分用来实时检测标签纸张宽度,并由光源控制器根据标签纸张宽度实时调整调整平面光源的照射范围,光照强度检测部分用来实时检测标签纸张的移动速度,并由光源控制器根据标签纸张的移动速度实时调整调整平面光源的照射照射强度,光源驱动部分通过光照宽度检测部分和光照强度检测部分的检测结果,对平面光源提供电能, The light source controller 11 by the width of the light detection section, the light intensity detection section, a light source driving parts, the width of the light detection section for real-time detection of the label paper width by adjusting the irradiation range of the light source controller label paper width of the planar light source according to real-time adjustment, light intensity detection section for detecting the moving speed of the label paper in real time, real-time adjustment by the light source controller to adjust the irradiation intensity of the planar light source, the light source driving section width detected by the light intensity detection section detecting portion and the moving speed of the label paper As a result, supply power to the planar light source,

光源控制器11和N个紫外线强光源发生器都设置在上箱体16内,光源控制器11设置在上箱体16的上端,N个紫外线强光源发生器整齐的并排设置在光源控制器11的下面,各个紫外线强光源发生器的底面都与标签纸张18的纸面平行,并且各个紫外线强光源发生器的底面与标签纸张18的距离相等, The light source controller 11 and N are strong ultraviolet light generator disposed within the housing 16, the light source controller 11 is disposed on the upper end of the housing 16, the N strong ultraviolet light generator neatly side by side in the light source controller 11 below, the bottom surface of each of the strong ultraviolet light generator are parallel to the paper surface of the label paper 18 and the label paper from the bottom surface of each of the strong ultraviolet light generator 18 are equal,

在图2和图3中,宽度检测机构由发射管8-1和接收管8-2构成的第一光电对管、发射管8-3和接收管8-4构成的第二光电对管、发射管8-5和接收管8-6构成的第三光电对管、发射管8-7和接收管8-8构成的第四光电对管、发射管8-9和接收管8-10构成的第五光电对管、发射管8-11和接收管8-12构成的第六光电对管、发射管8-13和接收管8-14构成的第七光电对管、发射管8-15和接收管8-16构成的第八光电对管、发射管8-17和接收管8-18构成的第九光电对管、发射管8-19和接收管8-20构成的第十光电对管、发射管8-21和接收管8-22构成的第十一光电对管、发射管8-23和接收管8-24构成的第十二光电对管、发射管8-25和接收管8-26构成的第十三光电对管、发射管8-27和接收管8-28构成的第十四光电对管、发射管8-29和接收管8-30构成的第十五光电对管、发射管8-31和接收管8-32构成的第十六光电对管、发射 In FIG. 2 and FIG. 3, the width of the detection mechanism composed of a launch tube 8-1 and 8-2 receiving the first tube on the photoelectric launch tube 8-3 and 8-4 of the second photoelectric receiver tubes constituting the tube, launch tube 8-5 and 8-6 of the third receiver tube of the photoelectric tubes, transmitting tubes 8-7 and 8-8 receiving tube of a fourth photoelectric tubes, transmitting tubes and the receiving tubes 8-9 constituting 8-10 fifth on the photoelectric launch tube receiving tube 8-11 and 8-12 on the photoelectric sixth configuration of the launch tube receiving tube 8-13 and 8-14 on the photoelectric constituting a seventh launch tube 8-15 and eighth photo receiving tube on the tube composed of 8-16, 8-17 and launch tube receiving tube 8-18 made of a ninth photoelectric tubes, transmitting tubes and the receiving tubes 8-19 to 8-20 tenth configuration of the photoelectric pipes, pipe launch tube 8-21 and 8-22 received on the photoelectric eleventh configuration of the launch tube receiving tube 8-23 and 8-24 on the photoelectric twelfth configuration, launch tube and receiver tube 8-25 8-26 on the photoelectric thirteenth configuration, launch tube and receiver tube 8-27 8-28 fourteenth configuration of a photoelectric tube, and the launch tube receiving tube 8-30 8-29 fifteenth configuration of the photoelectric pipes, pipe launch tube 8-31 and 8-32 received on the photoelectric sixteenth configuration, emission 管8-33和接收管8-34构成的第十七光电对管、发射管8-35和接收管8-36构成的第十八光电对管、发射管8-37和接收管8-38构成的第十九光电对管、发射管8-39和接收管8-40构成的第二十光电对管、发射管8-41和接收管8-42构成的第二十一光电对管、发射管8-43和接收管8-44构成的第二十二光电对管、发射管8-45和接收管8-46构成的第二十三光电对管构成,各光电对管的发射管设置在长方形的出纸孔7-2的上端,各光电对管的接收管设置在长方形的出纸孔7-2的下端,23个光电对管沿着出纸孔7-2整齐的等距离一字排列, Tubes 8-33 and 8-34 constitute a receiving tube on the photoelectric seventeenth launch tube 8-35 and 8-36 constitute a receiving tube on the photoelectric eighteenth launch tube receiving tube 8-37 and 8-38 nineteenth Optical twenty photoelectric constituting the twenty-first photoelectric tube, and 8-41 launch tube receiving tube on the tube composed of 8-42, 8-39 and launch tube receiving tube on the tube composed of 8-40, 8-43 launch tube and receiver tube-second 8-44 of photoelectric tubes, transmitting tubes and the receiving tubes 8-45 8-46 twenty-third configuration of the photoelectric tubes, each launch tube photoelectric tubes upper paper discharge aperture provided in a rectangular 7-2, the lower end of each photoelectric receiver tube sheet holes arranged in a rectangular tube 7-2, 23 on the photoelectric neat 7-2 equidistant holes along the paper word order,

在图2、图4、图5、图6和图7中,第一个紫外线强光源发生器由小箱体22、第一长方形水冷散热器10-1、第二长方形水冷散热器10-2、第三长方形水冷散热器10-3、第一面光源、第二面光源、第三面光源、第一紫外波长平凸柱面透镜13-1和第二紫外波长平凸柱面透镜13-2构成, 第一长方形水冷散热器10-1、第二长方形水冷散热器10-2、第三长方形水冷散热器10- In FIG. 2, FIG. 4, FIG. 5, FIG. 6 and FIG. 7, a strong ultraviolet light generator by the small box 22, a first oblong water cooler 10-1, 10-2 second rectangular water cooler third rectangular water cooler 10-3, a first surface light source, a second light source surface, a third surface light source, a first ultraviolet wavelength planoconvex cylindrical lens 13-1 and the second ultraviolet wavelength planoconvex cylindrical lens 13- 2 configuration, a first oblong water cooler 10-1, 10-2 second rectangular water cooler, water cooler third rectangular 10-

3、第一面光源、第二面光源、第三面光源、第一紫外波长平凸柱面透镜13-1、第二紫外波长平凸柱面透镜13-2都设置在小箱体22内,第一长方形水冷散热器10-1、第二长方形水冷散热器10-2、第三长方形水冷散热器10-3设置在小箱体22的上端,第一紫外波长平凸柱面透镜13-1设置在第二长方形水冷散热器10-2的下面,第二紫外波长平凸柱面透镜13-2设置在第三长方形水冷散热器10-3的下面,第一长方形水冷散热器10-1、第二长方形水冷散热器10-2和第三长方形水冷散热器10-3的底面和上表面都与标签纸张18的纸面平行,在第一长方形水冷散热器10-1的前端面上设置有进水孔9-1,在第一长方形水冷散热器10-1后端面上设置有出水孔9-2,在第二长方形水冷散热器10-2的前端面上设置有进水孔9-3,在第二长方形水冷散热器10-2后端面上设置有出水孔9-4,在第三长方形水冷散热器10 3, a first surface light source, a second light source surface, a third surface light source, a first ultraviolet wavelength planoconvex cylindrical lens 13-1, a second ultraviolet wavelength planoconvex cylindrical lens 13-2 are provided in a small box 22 , a first oblong water cooler 10-1, a second rectangular water cooler 10-2, 10-3 third rectangular water cooler provided at the upper end of the small box 22, a first plano-convex cylindrical lens ultraviolet wavelength 13- 1 disposed under the second water cooler oblong 10-2, a second ultraviolet wavelength planoconvex cylindrical lens 13-2 is arranged below the third oblong water cooler 10-3, a first oblong water cooler 10-1 , water cooler 10-2 and a second oblong rectangular bottom surface and an upper surface of the third water cooler 10-3 are parallel to the paper surface of the label paper 18 is provided at a front end surface of the first rectangular water cooler 10-1 there inlet hole 9-1, the rear end face 10-1 of the first water cooler is provided with a rectangular outlet hole 9-2, the rectangular front end surface of the second water cooler 10-2 is provided with the water inlet 9- 3, the second rectangular water cooler is provided with a rear end face 10-2 outlet hole 9-4, the third rectangular water cooler 10 -3的前端面上设置有进水孔9-5,在第三长方形水冷散热器10-3后端面上设置有出水孔9-6,冷水从进水孔流入各长方形水冷散热器,热水从出水孔流出各长方形水冷散热器, Is provided with a front end surface of the inlet hole -3 9-5, a third rectangular surface of the water cooler is provided with a rear end of the nozzle holes 10-3 9-6, each of the cold water inlet from the water cooler rectangular inlet hole, hot water each rectangular water cooler effluent from the nozzle holes,

在图4和图5中,第一面光源由整齐的焊接在第一块陶瓷基光源板15-1正面上的多个紫外光发光二极管构成,第一块陶瓷基光源板15-1的背面通过导热胶粘贴在第一长方形水冷散热器10-1的底面上,第一块陶瓷基光源板15-1上的紫外光发光二极管被分为小平面光源1-1、小平面光源1-2、小平面光源1-3、小平面光源1-4、小平面光源1-5、小平面光源1-6、小平面光源1-7、小平面光源1-8、小平面光源1-9、小平面光源1-10、小平面光源1-11、小平面光源1-12、小平面光源1-13、小平面光源1-14、小平面光源1-15、小平面光源1-16、小平面光源1-17、小平面光源1-18、小平面光源1-19、小平面光源1-20、小平面光源1-21、小平面光源1-22、小平面光源1-23,各小平面光源长宽相同,每一小平面光源内的紫外光发光二极管电串联后与光源控制器11的光源驱动部分电连接,23组小平面光源和23个光 4 and 5, a first plurality of ultraviolet light emitting diodes surface light source 15-1 on the front surface of a ceramic base plate is constituted by a light source welding neat, the back surface of a ceramic base plate 15-1 of the light source by a thermally conductive glue on the bottom surface of the first water cooler 10-1 in a rectangle, the ultraviolet light emitting diode based light source of a ceramic plate is divided into facets 15-1 1-1 light source, the light source facet 1- 2, the small planar light source 1-3, 1-4 small planar light source, a small planar light source 1-5, 1-6 small planar light source, a small planar light source 1-7, 1-8 small planar light source, the light source facet 1-9 , small planar light source 1-10, 1-11 small planar light source, a small planar light source 1-12, 1-13 small planar light source, the light source 1-14 facet, facet light source 1-15, 1-16 small planar light source, small planar light source 1-17, 1-18 small planar light source, a small planar light source 1-19, 1-20 small planar light source, a small planar light source 1-21, 1-22 small planar light source, the light source 1-23 facets, each same length and width of the small planar light source, the ultraviolet light emitting diode electrically connected in series within each planar light source with a small light source driving part electrically connected to the controller 11, the group of small planar light source 23 and light 23 对管一一对齐的等距离一字排列,并且各组小平面光源由与其对齐排列的光电对管控制, Eleven-line on the tube aligned equidistantly, and each of the control group on the photoelectric facet light source consists of aligned therewith,

在图4和图6中,第二面光源由整齐的焊接在第二块陶瓷基光源板15-2正面上的多个紫外光发光二极管构成,第二块陶瓷基光源板15-2的背面通过导热胶粘贴在第二长方形水冷散热器10-2的底面上,第二块陶瓷基光源板15-2上的紫外光发光二极管被分为小平面光源2-1、小平面光源2-2、小平面光源2-3、小平面光源2-4、小平面光源2-5、小平面光源2-6、小平面光源2-7、小平面光源2-8、小平面光源2-9、小平面光源2-10、小平面光源2-11、小平面光源2-12、小平面光源2-13、小平面光源2-14、小平面光源2-15、小平面光源2-16、小平面光源2-17、小平面光源2-18、小平面光源2-19、小平面光源2-20、小平面光源2-21、小平面光源 In FIG. 4 and FIG. 6, a second plurality of ultraviolet light emitting diodes surface light source on the front surface of the second block 15-2 ceramic base plate is constituted by a light source welding neat, ceramic substrate back surface light source panel of the second block 15-2 by a thermally conductive glue on the bottom surface of the second rectangular water cooler 10-2, second ultraviolet light emitting diode based light source block ceramic plate is divided into facets 15-2 2-1 light source, the light source facet 2- 2, the small planar light source 2-3, 2-4 small planar light source, a small planar light source 2-5, 2-6 small planar light source, a small planar light source 2-7, 2-8 small planar light source, the light source facet 2-9 , small planar light source 2-10, 2-11 small planar light source, a small planar light source 2-12, 2-13 small planar light source, the light source 2-14 facet, facet light source 2-15, 2-16 small planar light source, small planar light source 2-17, 2-18 small planar light source, the light source 2-19 facet, facet light source 2-20, 2-21 small planar light source, the light source facet

2-22、小平面光源2-23,各小平面光源长宽相同,每一小平面光源内的紫外光发光二极管电串联后与光源控制器11的光源驱动部分电连接,23组小平面光源和23个光电对管一一对齐的等距离一字排列,并且各组小平面光源由与其对齐排列的光电对管控制, 2-22, 2-23 small planar light source, the same length and width of each facet light, ultraviolet light emitting diode electrically connected in series within each planar light source with a small light source driving part electrically connected to the controller 11, the group of small planar light source 23 23 and a photoelectric tube eleven-line alignment of equidistant and control groups on the photoelectric facet of aligned therewith by a light source,

在图4和图7中,第三面光源由整齐的焊接在第三块陶瓷基光源板15-3正面上的多个紫外光发光二极管构成,第三块陶瓷基光源板15-3的背面通过导热胶粘贴在第三长方形水冷散热器10-3的底面上,第三块陶瓷基光源板15-3上的紫外光发光二极管被分为小平面光源 In FIG. 4 and FIG. 7, the third surface light source is constituted by a plurality of welding neat ultraviolet light emitting diodes 15-3 on the front face of the third block based light source ceramic plate, a ceramic substrate back surface of the third block of the light source panel 15-3 by a thermally conductive glue on the bottom surface of the third rectangular water cooler 10-3, ultraviolet light emitting diode based light source a third monolithic ceramic plate is divided into facets 15-3 source

3-1、小平面光源3-2、小平面光源3-3、小平面光源3-4、小平面光源3_5、小平面光源3_6、小平面光源3-7、小平面光源3-8、小平面光源3-9、小平面光源3-10、小平面光源3-11、小平面光源3-12、小平面光源3-13、小平面光源3-14、小平面光源3-15、小平面光源3-16、小平面光源3-17、小平面光源3-18、小平面光源3-19、小平面光源3-20、小平面光源3-21、小平面光源3-22、小平面光源3-23,每一小平面光源内的紫外光发光二极管电串联后与光源控制器11的光源驱动部分电连接,23组小平面光源和23个光电对管一一对齐的等距离一字排列,并且各组小平面光源由与其对齐排列的光电对管控制, 3-1, 3-2 small planar light source, a small planar light source 3-3, 3-4 small planar light source, a small planar light source 3_5, 3_6 small planar light source, a small planar light source 3-7, 3-8 small planar light source, a small 3-9 planar light source, the light source 3-10 facet, facet light source 3-11, 3-12 small planar light source, a small planar light source 3-13, 3-14 small planar light source, the light source 3-15 facet, facet a light source 3-16, 3-17 small planar light source, a small planar light source 3-18, 3-19 small planar light source, the light source 3-20 facet, facet light source 3-21, 3-22 small planar light source, the light source facet 3-23, the ultraviolet light emitting diode electrically connected in series within each facet of the light sources and the light source driving portion 11 is electrically connected to the controller 23 and the group of small planar light source 23 on the photoelectric eleven equidistantly aligned inline and each planar light source by a small group of aligned therewith on the photoelectric control,

在图4中,第一面光源发出的平行光直接照射在标签纸张18的纸面上,对标签纸张18上油墨19的表层进行固化, In FIG. 4, parallel to the first surface directly irradiated with light emitted from a light source on paper label paper 18, the label sheet 18 on the surface 19 of the ink is cured,

在图4中,第一紫外波长平凸柱面透镜13-1与标签纸张18的纸面平行的设置在第二长方形水冷散热器10-2的正下方,并且第一紫外波长平凸柱面透镜13-1的焦线f位于标签纸张18的张面下端,第二块陶瓷基光源板15-2的正面正对第一紫外波长平凸柱面透镜13-1,使得第二块陶瓷基光源板15-2正面上的各组小平面光源发出的平行光穿过第一紫外波长平凸柱面透镜13-1照射在标签纸张18的纸面上,在标签纸张18的纸面上形成一束光强倍增的强光带,对标签纸张18上油墨19的浅表层进行固化, In FIG. 4, parallel to the plane of the first ultraviolet wavelength planoconvex cylindrical lens 13-1 and the label paper 18 is disposed directly below the second rectangular water cooler 10-2, and the first ultraviolet wavelength planoconvex cylindrical f lens 13-1 is located in the focal line of the lower end surface of the sheets of label paper 18, the front second light source block ceramic base plate 15-2 of the first ultraviolet wavelength being a plano-convex cylindrical lens 13-1, a ceramic substrate such that the second block each group of small parallel planar light source on the front surface light source panel 15-2 through 13-1 emitted from the light irradiating a first ultraviolet wavelength plano-convex cylindrical lens is formed on paper of the label paper 18 on the paper sheet 18 of the label with a strong beam of light multiplied, shallow surface 18 on the label paper 19, the ink is cured,

在图4中,第二紫外波长平凸柱面透镜13-2与标签纸张18的纸面平行的设置在第三长方形水冷散热器10-3的正下方,并且第二紫外波长平凸柱面透镜13-2的焦线F位于标签纸张18的张面上,第三块陶瓷基光源板10-3的正面正对第二紫外波长平凸柱面透镜13-2,使得第三块陶瓷基光源板10-3正面上的各组小平面光源发出的平行光穿过第二紫外波长平凸柱面透镜13-2聚焦在标签纸张18的纸面上,在标签纸张18的纸面上形成光强倍增的线状强光,对标签纸张18上油墨19的深层进行固化, In FIG. 4, a second ultraviolet wavelength planoconvex cylindrical lens 13-2 and the label paper 18 is disposed parallel to the paper immediately below the third oblong water cooler 10-3 and a second ultraviolet wavelength planoconvex cylindrical F is the lens focal line 13-2 positioned face sheets of label paper 18, the front plate of the third light source 10-3 monolithic ceramic substrate of a second ultraviolet wavelength being a plano-convex cylindrical lens 13-2, a ceramic substrate such that the third block each group of small parallel planar light source 10-3 on the front panel emitted light passes through a second ultraviolet wavelength 13-2 focusing planoconvex cylindrical lens, is formed on paper of the label paper 18 on the paper sheet 18 of the label multiplying the linear light intensity, the label sheet 18 of the deep ink 19 is cured,

N个紫外线强光源发生器的结构、各项尺寸和工作过程都与第一个紫外线强光源发生器完全相同, Structure, the size and operation of the N strong ultraviolet light generators are identical to the first strong ultraviolet light generator,

当一定宽度的标签纸张18经长方形的进纸孔7-1和出纸孔7-2穿过中间部分光电对管的发射管和接收管之间时,该部分光电对管的发射管发出的光线被标签纸张18隔断不能到达接收管,该部分光电对管处于断开状态,其余光电对管处于导通状态,各光电对管的状态被送到光源控制器11的光照宽度检测部分,N个紫外线强光源发生器中与处于断开状态的光电对管对齐排列的各组小平面光源通过光源控制器11的光源驱动部分加电发光,其余各组小平面光源不加电发光, When the label paper 18 of a predetermined width through the rectangular aperture feed the paper holes 7-2 and 7-1 through the intermediate portion between the pair of photoelectric tubes launch tube and receiver tube, the portion of the photoelectric emission emitted Tubing label paper 18 is cut off the light can not reach the receiver tube, the portion on the photoelectric is off, on the photoelectric remaining in the oN state, the state of each photoelectric tube is supplied to the light source controller 11 width detecting section, N a strong ultraviolet light generator and the photo in the OFF state light source drive control section 11 of the light emitting power, the rest of the group of small planar light source without EL planar light source for each group of small tubes through the aligned,

速度传感器12设置在下箱体17内,并且速度传感器12位于长方形的进纸孔7-1的下端,速度传感器12与光源控制器11的光照强度检测部分电连接,速度传感器12紧贴标签纸张18,当标签纸张18在标签印刷机的带动下,以速度V穿过长方形的进纸孔7-1和长方形的出纸孔7-2时,标签纸张18的移动速度信号通过速度传感器12被送到光源控制器11的光照强度检测部分,由光源控制器11根据速度传感器12检测到的速度信号,调整N个紫外线强光源发生器中各组加电发光的小平面光源的光照强度。 Speed ​​sensor 12 is provided within the lower housing 17, and the speed sensor 12 is located at the lower end of a rectangular feed holes 7-1, the portion is electrically connected with the speed sensor 12 detects the light intensity of the light source controller 11, speed sensor 12 firmly against the sheet 18 , when the label paper label printer 18 is driven at a speed V through the rectangular holes 7-1 and feed the paper when the rectangular hole 7-2, the moving speed of the signal of the label paper 18 is fed by a speed sensor 12 light intensity to the light intensity detecting section 11 is a light source controller, the light source controller 11 in accordance with the speed signal detected by the speed sensor 12, to adjust the power of N generator ultraviolet light intensity of each group of the light emitting facet of the light source.

Claims (1)

1.一种标签印刷机平凸柱面透镜多级快速紫外线固化装置,由一个长方形箱体、一个光源控制器、N个紫外线强光源发生器、一个宽度检测机构和一个速度传感器构成,其特征是:各个紫外线强光源发生器的结构和各项尺寸相同,长方形箱体分为上箱体和下箱体两部分,上箱体和下箱体通过一组合页相连接,在下箱体的上部开有一个长方形的进纸孔和长方形的出纸孔,标签纸张在标签印刷机的带动下,以速度V穿过长方形的进纸孔和长方形的出纸孔, 光源控制器由光照宽度检测部分、光照强度检测部分、光源驱动部分构成,光照宽度检测部分用来实时检测标签纸张宽度,并由光源控制器根据标签纸张宽度实时调整调整平面光源的照射范围,光照强度检测部分用来实时检测标签纸张的移动速度,并由光源控制器根据标签纸张的移动速度实时调整调整平面 1. A label printer planoconvex cylindrical lens ultraviolet curable multistage flash means consists of a rectangular housing, a light source controller, N a strong ultraviolet light generator, a width detecting means and a speed sensor is constituted, characterized in is: the same structure and dimensions of each of the strong ultraviolet light generator, a rectangular box is divided into upper case and lower case in two parts, the upper case and lower case are connected by a combination of pages, an upper portion of the lower housing a feed aperture is opened, and a rectangular oblong hole the paper, label paper label printers driven at a speed V through the rectangular holes and feed the paper rectangular hole, the width of the light source detected by the controller portion light intensity detection section, a light source driving parts, the width of the light detection section for real-time detection of the label paper width by adjusting the irradiation range of the light source controller planar light source in real time to adjust the width of the label sheet according to the light intensity detection section for real-time detection tag the moving speed of the sheet by the plane light source controller real-time adjustment to adjust the moving speed of the label paper 源的照射照射强度,光源驱动部分通过光照宽度检测部分和光照强度检测部分的检测结果,对平面光源提供电能, 光源控制器和N个紫外线强光源发生器都设置在上箱体内,光源控制器设置在上箱体的上端,N个紫外线强光源发生器整齐的并排设置在光源控制器的下面,各个紫外线强光源发生器的底面都与标签纸张平面平行,并且各个紫外线强光源发生器的底面与标签纸张的距离相等, 宽度检测机构由M个光电对管构成,每个光电对管都有一个光发射管和一个光接收管,M个光电对管都与光源控制器的光照宽度检测部分电连接,M个光电对管沿着出纸孔整齐的等距离一字排列,各光电对管的发射管设置在长方形的出纸孔的上端,各光电对管的接收管设置在长方形的出纸孔的下端, 第一个紫外线强光源发生器由小箱体、第一长方形水冷散热器、第二长方 Intensity irradiation sources, a light source driving part by the width of the detection result of light detection section and the light intensity detection section, providing power to the planar light source, the light source controller and N are strong ultraviolet light generator disposed on the housing, a light source controller provided on the upper end of the casing, N a strong ultraviolet light generator neatly arranged side by side below the light source controller, and the bottom surface of each of the strong ultraviolet light generator are parallel with the plane of the paper label, and a bottom surface of each of the strong ultraviolet light generator equal to the distance from the label paper, width detection means by M photoelectric tubes, each tube has a photoelectric light pipe and a light receiver, the light source controller are part of the width detecting light on the photoelectric emission of M electrically connected, the upper end of the photoelectric M bore tube sheet of paper neatly holes equidistantly arranged along a word, each photoelectric tube disposed rectangular launch tube, the tube is provided for each photoelectric receiving tubes in a rectangular the lower end of the paper holes, a first ultraviolet light generator consists of a small box strong, a first oblong water cooler, a second rectangular 形水冷散热器、第三长方形水冷散热器、第一面光源、第二面光源、第三面光源、第一紫外波长平凸柱面透镜和第二紫外波长平凸柱面透镜构成,第一长方形水冷散热器、第二长方形水冷散热器、第三长方形水冷散热器、第一面光源、第二面光源、第三面光源、第一紫外波长平凸柱面透镜、第二紫外波长平凸柱面透镜都设置在小箱体内,第一长方形水冷散热器、第二长方形水冷散热器、第三长方形水冷散热器设置在小箱体的上端,第一紫外波长平凸柱面透镜设置在第二长方形水冷散热器的下面,第二紫外波长平凸柱面透镜设置在第三长方形水冷散热器的下面,第一长方形水冷散热器、第二长方形水冷散热器和第三长方形水冷散热器的底面和上表面都与标签纸张平面平行,在第一长方形水冷散热器、第二长方形水冷散热器和第三长方形水冷散热器的 Shaped water cooler, water cooler third rectangle, the first surface light source, a second light source surface, a third surface light source, a first ultraviolet wavelength planoconvex cylindrical lens and the second ultraviolet wavelength planoconvex cylindrical lens, a first water cooler rectangular, oblong second water cooler, water cooler third rectangle, the first surface light source, a second light source surface, a third surface light source, a first ultraviolet wavelength planoconvex cylindrical lens, a plano-convex second ultraviolet wavelength a cylindrical lens are arranged in a small housing, a first oblong water cooler, a second rectangular water cooler, water cooler provided third rectangular small box at the upper end, a first ultraviolet wavelength planoconvex cylindrical lens provided in the first the following two rectangular water-cooled heat sink, a second ultraviolet wavelength plano-convex cylindrical lens is disposed under the third rectangular water-cooled heat sink, the bottom surface of the first rectangular water-cooled heat sink, a second and a third rectangular oblong water cooler of water-cooled heat sink and the upper surfaces are parallel to the plane of the paper labels, the first rectangular water cooler, second and third oblong rectangular water cooler of water-cooled heat sink 后两端面上都设置有一个进水孔和一个出水孔,冷水从各进水孔流入第一长方形水冷散热器、第二长方形水冷散热器和第三长方形水冷散热器,热水从各出水孔流出第一长方形水冷散热器、第二长方形水冷散热器和第三长方形水冷散热器,第一面光源由整齐的焊接在第一块陶瓷基光源板正面上的多个紫外光发光二极管构成,第一块陶瓷基光源板的背面通过导热胶粘贴在第一长方形水冷散热器的底面上,第一块陶瓷基光源板上的紫外光发光二极管被分为长宽相同的M组小平面光源,M组小平面光源和M个光电对管一一对齐的沿着出纸孔等距离一字排列,并且各组小平面光源由与其对齐排列的光电对管控制,每一组小平面光源内的紫外光发光二极管电串联后与光源控制器的光源驱动部分电连接, 第二面光源由整齐的焊接在第二块陶瓷基光源板正面上的多 After both end faces is provided with a bore inlet and a bore outlet, a first cold water inlet from the water cooler of each rectangular inlet hole, the second and third oblong rectangular water cooler water cooler, water from each nozzle holes out of the first water cooler rectangular, second and third oblong rectangular water cooler water cooler, the first surface light source is constituted by a plurality of welding neat ultraviolet light emitting diodes on the front plate of a ceramic based light source, the first a back surface of the ceramic base plate by a thermally conductive source glue rectangular bottom surface of the first water cooler, and a second ultraviolet light emitting diode based light source ceramic plate is divided into M sets of the same length and width smaller planar light source, M sets of light sources and M facet photoelectric tube eleven-line aligned along a sheet equidistant holes, and each set of facets aligned with the light source arranged on the photoelectric control, within each group of small light plane after the ultraviolet light emitting diode in series with the light source driving portion is electrically connected to the controller, a second plurality of surface light source welding neatly on the front face of the second block based light source ceramic plate 紫外光发光二极管构成,第二块陶瓷基光源板的背面通过导热胶粘贴在第二长方形水冷散热器的底面上,第二块陶瓷基光源板上的紫外光发光二极管被分为长宽相同的M组小平面光源,M组小平面光源和M个光电对管一一对齐的沿着出纸孔等距离一字排列,并且各组小平面光源由与其对齐排列的光电对管控制,每一组小平面光源内的紫外光发光二极管电串联后与光源控制器的光源驱动部分电连接, 第三面光源由整齐的焊接在第三块陶瓷基光源板正面上的多个紫外光发光二极管构成,第三块陶瓷基光源板的背面通过导热胶粘贴在第三长方形水冷散热器的底面上,第三块陶瓷基光源板上的紫外光发光二极管被分为长宽相同的M组小平面光源,M组小平面光源和M个光电对管一一对齐的沿着出纸孔等距离一字排列,并且各组小平面光源由与其对齐排列的光电对 Ultraviolet light emitting diodes, the back surface of the second block based light source ceramic plate by a thermally conductive glue on the bottom surface of the second rectangular water-cooled radiator, a second ultraviolet light emitting diode based light source block ceramic plates are divided into the same length and width the M group of small planar light source, a planar light source group of small M and M on the photoelectric eleven equidistantly aligned holes of the papers are arranged along the word, and the photo of the control tube of each set of small planar light source aligned therewith, each ultraviolet light emitting diode in the rear facet a set of light source in series with the light source driving portion is electrically connected to the controller, the third surface light source by a plurality of welding neat UV light emitting diodes on the front side of the third light source block ceramic base plate configuration, the back surface of the third light source block ceramic base plate by a thermally conductive glue on the bottom surface of the third rectangular water-cooled heat sink, a third block ultraviolet light emitting diode based light source ceramic plate is divided into M sets of the same length and width smaller planar light source, flat light source and the group of small M M-line of photoelectric tubes are correctly aligned holes equidistantly along the paper, and each set of facets aligned therewith by a light source of a photoelectric 控制,每一组小平面光源内的紫外光发光二极管电串联后与光源控制器的光源驱动部分电连接, 第一面光源发出的平行光直接照射在标签纸张的纸面上,对标签纸张上油墨的表层进行固化, 第一紫外波长平凸柱面透镜与标签纸张的纸面平行的设置在第二长方形水冷散热器的正下方,并且第一紫外波长平凸柱面透镜的焦线f位于标签纸张的张面下端,第二块陶瓷基光源板的正面正对第一紫外波长平凸柱面透镜,使得第二块陶瓷基光源板正面上的各组小平面光源发出的平行光穿过第一紫外波长平凸柱面透镜照射在标签纸张的纸面上,在标签纸张的纸面上形成一束光强倍增的强光带,对标签纸张上油墨的浅表层进行固化, 第二紫外波长平凸柱面透镜与标签纸张的纸面平行的设置在第三长方形水冷散热器的正下方,并且第二紫外波长平凸柱面透镜的焦线F Control, ultraviolet light emitting diode in each group after a series of small planar light source driving part electrically connected to the controller of the light sources, the paper sheet on the label, the label paper parallel to the first surface directly irradiated with light emitted from a light source curing the ink surface, the first ultraviolet wavelength plano-convex cylindrical lens is parallel to the paper and label paper is disposed immediately below the second water cooler is rectangular, and the first ultraviolet wavelength planoconvex cylindrical lens is located in the focal line f the lower end of the label paper sheet surface, a second monolithic ceramic substrate front plate facing the light source a first ultraviolet wavelength planoconvex cylindrical lens, a light source such that each set of facets on the front side of the second ceramic substrate block light emitted from the light passing through the parallel plate a first ultraviolet wavelength planoconvex cylindrical lens is irradiated on the paper label sheet, forming a beam of light with light intensity multiplied on the label paper sheet, the ink on the surface of the shallow label paper is cured, a second ultraviolet immediately below the wavelength of a plano-convex cylindrical lens is parallel to the paper and label paper is disposed in the third rectangular water cooler, and a second focal line ultraviolet wavelength planoconvex cylindrical lens F 位于标签纸张的张面上,第三块陶瓷基光源板的正面正对第二紫外波长平凸柱面透镜,使得第三块陶瓷基光源板正面上的各组小平面光源发出的平行光穿过第二紫外波长平凸柱面透镜聚焦在标签纸张的纸面上,在标签纸张的纸面上形成光强倍增的线状强光,对标签纸张上油墨的深层进行固化, N个紫外线强光源发生器的结构、各项尺寸和工作过程都与第一个紫外线强光源发生器完全相同, 当一定宽度的标签纸张经过长方形的进纸孔和出纸孔穿过中间部分光电对管的发射管和接收管之间时,该部分光电对管的发射管发出的光线被标签纸张隔断不能到达接收管,该部分光电对管处于断开状态,其余光电对管处于导通状态,各光电对管的状态被送到光源控制器的光照宽度检测部分,N个紫外线强光源发生器中与处于断开状态的光电对管对齐排列的各组小平 Label paper sheets located in the surface of the ceramic substrate front surface light source panel of the third block of the second ultraviolet wavelength being a plano-convex cylindrical lens, so that each group of light sources on the front facet of the third block of the ceramic base plate parallel light emitted through the light a second ultraviolet wavelength through a plano-convex cylindrical lens is focused on the label paper the paper, forms a linear light intensity multiplied on the paper label paper, label paper on the deep ink is cured, the ultraviolet intensity of the N structure, size and operation of the light source and the generator are the same as the first ultraviolet light generator and strong, when the transmission through the label paper of a predetermined width and the paper feed bore hole through the intermediate portion of the rectangular photoelectric tube when receiving between the tube and the tube, the portion of the light emitting tube photoelectric emitted label paper tube is cut off does not reach the receiver tube, the portion on the photoelectric is off, remaining on the photoelectric photoelectric each in the oN state, state is supplied to the tube width detecting light source control section, N a strong ultraviolet light generator and the photo on the tube in the OFF state of each group aligned squares 面光源通过光源控制器的光源驱动部分加电发光,其余各组小平面光源不加电发光, 速度传感器设置在下箱体内,并且速度传感器位于长方形的进纸孔的下端,速度传感器与光源控制器的光照强度检测部分电连接,速度传感器紧贴标签纸张,当标签纸张在标签印刷机的带动下,以速度V穿过长方形的进纸孔和长方形的出纸孔时,标签纸张的移动速度信号通过速度传感器被送到光源控制器的光照强度检测部分,由光源控制器根据速度传感器检测到的速度信号调整N个紫外线强光源发生器中各组加电发光的小平面光源的光照强度。 Light sources the surface light source is driven by the controller portion of the light emitting power, the rest of the group of small EL planar light source without speed sensor provided on the lower housing, and a speed sensor located in the lower end of the rectangular aperture feed, speed sensor and light source controller when the light intensity detection section is electrically connected to a speed sensor close to the label sheet, the label sheet when the label printer is driven at a speed V through the rectangular holes and feed the paper rectangular hole, the label paper moving speed signal a light source light intensity is sent to the controller by the light intensity detection section speed sensor, the speed detected by the speed sensor consists of a light source control signal to adjust the power of N generator ultraviolet light intensity of each group of the light emitting facet of the light source.
CN201610362667.5A 2016-05-26 2016-05-26 Label printer planoconvex cylindrical lens multi-stage flash ultraviolet curing apparatus CN105856831B (en)

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