CN112725770A - 镜片镀dlc+ar膜装置 - Google Patents
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Abstract
本发明公开了镜片镀DLC+AR膜装置,涉及红外光学领域技术领域,包括安装板,所述安装板的一侧面设置有顶部镀膜机构和底部镀膜机构,所述安装板的一侧面中部通过电机架固定连接有驱动电机。本发明通过设置顶部镀膜机构和底部镀膜机构,在对镜片进行镀膜的时候能够分别对镜片的上表面和下表面进行镀膜,并且两种镀膜机构能够对镜片的两个侧面分别镀上DLC膜和AR膜,简化了对镜片的镀膜工序,使镜片镀膜更加简单,通过设置驱动电机,能够带动两个镀膜机构进行工作,使两个镀膜机构同时进行工作,通过设置挡光板,能够控制移动盒中的抽气泵对密封环顶部的镜片吸紧和放松,从而自动对镜片进行转换,达到提高镀膜效率的目的。
Description
技术领域
本发明涉及红外光学领域技术领域,具体为镜片镀DLC+AR膜装置。
背景技术
硅材料由于其本身良好的红外透过率,被广泛用作红外保护窗口。为了增加硅窗口的透过率,达到更好的使用效果,通常会采用在硅基片的两个表面镀增透膜(AR膜)来增加透过率。但有些窗口片需要在非常恶劣的环境下使用,这时候就需要在镜片的其中一个面镀一层更加牢固耐磨的类金刚石碳膜(DLC膜)来起到抗磨损的效果。传统的方式是先镀两面的增透膜,再镀一层金刚石保护膜,但这样会使镜片的透过率下降很多,影响使用效果,而且工艺复杂,工序多,成本高。因此,传统的方式存在使镜片的透过率下降很多和工序复杂效率低的问题。为了解决此问题,我们经过反复研究实验在镜片的一面镀经我们设计的增透膜,在另一面镀经我们设计的金刚石碳膜,这样就解决了传统方法镀膜所造成的透过率下降严重影响使用的问题,同时因为镀膜的工序少,也降低了成本,一举两得。
发明内容
(一)解决的技术问题
针对现有技术的不足,本发明提供了镜片镀DLC+AR膜装置,具备能够减少镜片镀膜工序和降低镀膜对透过率影响等优点,解决了背景技术中提出的问题。
(二)技术方案
为实现上述能够减少镜片镀膜工序和降低镀膜对透过率影响的目的,本发明提供如下技术方案:镜片镀DLC+AR膜装置,包括安装板,所述安装板的一侧面设置有顶部镀膜机构和底部镀膜机构,所述顶部镀膜机构包括热风箱、镀膜机、离子风扇和传动机构,所述热风箱和离子风扇均通过连接板与安装板的一侧面固定连接,所述镀膜机通过连接架与安装板固定连接,且镀膜机设置在热风箱和离子风扇之间;所述传动机构包括传动带,所述传动带的内侧壁的两侧均设置有链轮槽,所述传动带的一侧面通过轴承活动连接有与链轮槽相适配的转动齿圈,所述安装板的一侧面固定连接有固定轴,所述固定轴的端部通过轴承活动连接有从动链轮,所述安装板的一侧面中部通过电机架固定连接有驱动电机,所述驱动电机的输出轴通过联轴器传动连接有转轴,所述转轴贯穿安装板,所述转轴的端部键连接有主动带轮,所述主动带轮通过皮带传动连接有减速带轮,所述减速带轮的中部固定连接有驱动轴,所述驱动轴贯穿安装板并固定连接有主动链轮,所述主动链轮和从动链轮均与链轮槽相适配;所述安装板的一侧面固定连接有连接杆,所述连接杆的一端固定连接有挡光板,所述传动带的外侧面固定连接有放料筒,所述传动带的底部固定连接有移动盒,所述移动盒的内顶壁固定连接有抽气泵,所述移动盒上设置有与挡光板相适配的挡光槽,所述挡光槽的一侧壁设置有激光器,所述移动盒的内部设置有与激光器相适配的光控开关。
优选的,所述顶部镀膜机构和底部镀膜机构结构相同,所述顶部镀膜机构和底部镀膜机构关于安装板的中心上下对角设置。
优选的,所述挡光板一端为与传动带相适配的半圆形,所述挡光板的另一端为矩形,所述挡光板的厚度为挡光槽宽度的一半。
优选的,所述放料筒和移动盒均有若干个,若干个所述放料筒和移动盒在传动带上等间距分布,所述放料筒和移动盒一一对应。
优选的,所述放料筒的顶部通过密封胶固定连接有密封环,所述密封环油橡胶制成。
优选的,所述镀膜机的顶部设置有控制键盘和显示器,所述镀膜机通过导线与外部电源电连接。
优选的,所述离子风扇和热风箱均通过导线与镀膜机上的控制键盘电连接,所述热风箱的内部设置有加热丝和电风扇。
优选的,所述移动盒的内壁固定连接有电池仓,所述电池仓的内部设置有干电池,所述移动盒的外部设置有与电池仓相适配的卡接盖,所述光控开关和激光器均通过导线与电池仓内部的干电池电连接,所述光控开关通过导线与抽气泵电连接。
优选的,所述抽气泵的顶部与放料筒相连通,所述抽气泵的一侧面固定连接有气管,所述气管贯穿移动盒。
三有益效果
与现有技术相比,本发明提供了镜片镀DLC+AR膜装置,具备以下有益效果:
1、该镜片镀DLC+AR膜装置,通过设置顶部镀膜机构和底部镀膜机构,在对镜片进行镀膜的时候能够分别对镜片的上表面和下表面进行镀膜,并且两种镀膜机构能够对镜片的两个侧面分别镀上DLC膜和AR膜,简化了对镜片的镀膜工序,使镜片镀膜更加简单。
2、该镜片镀DLC+AR膜装置,通过设置驱动电机,能够带动两个镀膜机构进行工作,使两个镀膜机构同时进行工作,通过设置挡光板,能够控制移动盒中的抽气泵对密封环顶部的镜片吸紧和放松,从而自动对镜片进行转换,达到提高镀膜效率的目的。
附图说明
图1为本发明主视立体结构示意图;
图2为本发明后视结构示意图;
图3为本发明侧视剖面结构示意图;
图4为本发明主视剖面结构示意图。
图中:1、安装板;2、热风箱;3、传动带;4、镀膜机;5、连接架;6、从动链轮;7、放料筒;8、挡光板;9、离子风扇;10、主动链轮;11、电机架;12、驱动电机;13、连接杆;14、移动盒;15、转动齿圈;16、减速带轮;17、驱动轴;18、主动带轮;19、转轴;20、皮带;21、激光器;22、光控开关;23、挡光槽;24、气管;25、电池仓;26、卡接盖;27、抽气泵;28、密封环。
具体实施方式
下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。
请参阅图1-4,镜片镀DLC+AR膜装置,包括安装板1,安装板1的一侧面设置有顶部镀膜机构和底部镀膜机构,顶部镀膜机构和底部镀膜机构结构相同,顶部镀膜机构和底部镀膜机构关于安装板1的中心上下对角设置,顶部镀膜机构包括热风箱2、镀膜机4、离子风扇9和传动机构,热风箱2和离子风扇9均通过连接板与安装板1的一侧面固定连接,镀膜机4通过连接架5与安装板1固定连接,且镀膜机4设置在热风箱2和离子风扇9之间;传动机构包括传动带3,传动带3的内侧壁的两侧均设置有链轮槽,传动带3的一侧面通过轴承活动连接有与链轮槽相适配的转动齿圈15,安装板1的一侧面固定连接有固定轴,固定轴的端部通过轴承活动连接有从动链轮6,安装板1的一侧面中部通过电机架11固定连接有驱动电机12,驱动电机12的输出轴通过联轴器传动连接有转轴19,转轴19贯穿安装板1,转轴19的端部键连接有主动带轮18,主动带轮18通过皮带20传动连接有减速带轮16,减速带轮16的中部固定连接有驱动轴17,驱动轴17贯穿安装板1并固定连接有主动链轮10,主动链轮10和从动链轮6均与链轮槽相适配;镀膜机4的顶部设置有控制键盘和显示器,镀膜机4通过导线与外部电源电连接,离子风扇9和热风箱2均通过导线与镀膜机4上的控制键盘电连接,热风箱2的内部设置有加热丝和电风扇,安装板1的一侧面固定连接有连接杆13,连接杆13的一端固定连接有挡光板8,传动带3的外侧面固定连接有放料筒7,放料筒7的顶部通过密封胶固定连接有密封环28,密封环28油橡胶制成,传动带3的底部固定连接有移动盒14,放料筒7和移动盒14均有若干个,若干个放料筒7和移动盒14在传动带3上等间距分布,放料筒7和移动盒14一一对应,移动盒14的内顶壁固定连接有抽气泵27,抽气泵27的顶部与放料筒7相连通,抽气泵27的一侧面固定连接有气管24,气管24贯穿移动盒14,移动盒14上设置有与挡光板8相适配的挡光槽23,挡光板8一端为与传动带3相适配的半圆形,挡光板8的另一端为矩形,挡光板8的厚度为挡光槽23宽度的一半,挡光槽23的一侧壁设置有激光器21,移动盒14的内部设置有与激光器21相适配的光控开关22,移动盒14的内壁固定连接有电池仓25,电池仓25的内部设置有干电池,移动盒14的外部设置有与电池仓25相适配的卡接盖26,光控开关22和激光器21均通过导线与电池仓25内部的干电池电连接,光控开关22通过导线与抽气泵27电连接。
在使用时,首先通过人工将没有经过镀膜的镜片放在密封环28的顶部,然后在驱动电机12的带动下由主动带轮18带动减速带轮16转动,从而使两个主动链轮10分别带动两个镀膜机构进行运动,使镜片被放料筒7携带移动,在移动盒14从挡光板8处移动出来之后,激光器21发出的激光将会照射在光控开关22上,由电池仓25内部的干电池供电使抽气泵27将放料筒7内部的空气抽出,使镜片牢固的吸附在密封环28的顶部,随着传动带3的运动经过离子风扇9的时候有离子风扇9将风吹向镜片,然后再由镀膜机4对镜片进行镀膜,之后热风箱2内部的电热丝将空气加热,有风扇将热空气吹向镜片,对镜片顶部的镀膜进行烘干,在传动带3的带动下镜片将会运动到传动带3的底部,由于放料筒7内部形成负压,能够保证镜片不会掉下,在挡光板8进入挡光槽23之后抽气泵27断电,使镜片自动落下落到底部镀膜机构的放料筒7上,然后由底部镀膜机构对反面进行镀膜。
综上,该镜片镀DLC+AR膜装置通过设置顶部镀膜机构和底部镀膜机构,在对镜片进行镀膜的时候能够分别对镜片的上表面和下表面进行镀膜,并且两种镀膜机构能够对镜片的两个侧面分别镀上DLC膜和AR膜,简化了对镜片的镀膜工序,使镜片镀膜更加简单,通过设置驱动电机12,能够带动两个镀膜机构进行工作,使两个镀膜机构同时进行工作,通过设置挡光板8,能够控制移动盒14中的抽气泵27对密封环28顶部的镜片吸紧和放松,从而自动对镜片进行转换,达到提高镀膜效率的目的。
需要说明的是,在本文中,诸如第一和第二等之类的关系术语仅仅用来将一个实体或者操作与另一个实体或操作区分开来,而不一定要求或者暗示这些实体或操作之间存在任何这种实际的关系或者顺序。而且,术语“包括”、“包含”或者其任何其他变体意在涵盖非排他性的包含,从而使得包括一系列要素的过程、方法、物品或者设备不仅包括那些要素,而且还包括没有明确列出的其他要素,或者是还包括为这种过程、方法、物品或者设备所固有的要素。在没有更多限制的情况下,由语句“包括一个”限定的要素,并不排除在包括所述要素的过程、方法、物品或者设备中还存在另外的相同要素。
尽管已经示出和描述了本发明的实施例,对于本领域的普通技术人员而言,可以理解在不脱离本发明的原理和精神的情况下可以对这些实施例进行多种变化、修改、替换和变型,本发明的范围由所附权利要求及其等同物限定。
Claims (9)
1.镜片镀DLC+AR膜装置,包括安装板(1),其特征在于:所述安装板(1)的一侧面设置有顶部镀膜机构和底部镀膜机构,所述顶部镀膜机构包括热风箱(2)、镀膜机(4)、离子风扇(9)和传动机构,所述热风箱(2)和离子风扇(9)均通过连接板与安装板(1)的一侧面固定连接,所述镀膜机(4)通过连接架(5)与安装板(1)固定连接,且镀膜机(4)设置在热风箱(2)和离子风扇(9)之间;所述传动机构包括传动带(3),所述传动带(3)的内侧壁的两侧均设置有链轮槽,所述传动带(3)的一侧面通过轴承活动连接有与链轮槽相适配的转动齿圈(15),所述安装板(1)的一侧面固定连接有固定轴,所述固定轴的端部通过轴承活动连接有从动链轮(6),所述安装板(1)的一侧面中部通过电机架(11)固定连接有驱动电机(12),所述驱动电机(12)的输出轴通过联轴器传动连接有转轴(19),所述转轴(19)贯穿安装板(1),所述转轴(19)的端部键连接有主动带轮(18),所述主动带轮(18)通过皮带(20)传动连接有减速带轮(16),所述减速带轮(16)的中部固定连接有驱动轴(17),所述驱动轴(17)贯穿安装板(1)并固定连接有主动链轮(10),所述主动链轮(10)和从动链轮(6)均与链轮槽相适配;所述安装板(1)的一侧面固定连接有连接杆(13),所述连接杆(13)的一端固定连接有挡光板(8),所述传动带(3)的外侧面固定连接有放料筒(7),所述传动带(3)的底部固定连接有移动盒(14),所述移动盒(14)的内顶壁固定连接有抽气泵(27),所述移动盒(14)上设置有与挡光板(8)相适配的挡光槽(23),所述挡光槽(23)的一侧壁设置有激光器(21),所述移动盒(14)的内部设置有与激光器(21)相适配的光控开关(22)。
2.根据权利要求1所述的镜片镀DLC+AR膜装置,其特征在于:所述顶部镀膜机构和底部镀膜机构结构相同,所述顶部镀膜机构和底部镀膜机构关于安装板(1)的中心上下对角设置。
3.根据权利要求1所述的镜片镀DLC+AR膜装置,其特征在于:所述挡光板(8)一端为与传动带(3)相适配的半圆形,所述挡光板(8)的另一端为矩形,所述挡光板(8)的厚度为挡光槽(23)宽度的一半。
4.根据权利要求1所述的镜片镀DLC+AR膜装置,其特征在于:所述放料筒(7)和移动盒(14)均有若干个,若干个所述放料筒(7)和移动盒(14)在传动带(3)上等间距分布,所述放料筒(7)和移动盒(14)一一对应。
5.根据权利要求1所述的镜片镀DLC+AR膜装置,其特征在于:所述放料筒(7)的顶部通过密封胶固定连接有密封环(28),所述密封环(28)油橡胶制成。
6.根据权利要求1所述的镜片镀DLC+AR膜装置,其特征在于:所述镀膜机(4)的顶部设置有控制键盘和显示器,所述镀膜机(4)通过导线与外部电源电连接。
7.根据权利要求6所述的镜片镀DLC+AR膜装置,其特征在于:所述离子风扇(9)和热风箱(2)均通过导线与镀膜机(4)上的控制键盘电连接,所述热风箱(2)的内部设置有加热丝和电风扇。
8.根据权利要求1所述的镜片镀DLC+AR膜装置,其特征在于:所述移动盒(14)的内壁固定连接有电池仓(25),所述电池仓(25)的内部设置有干电池,所述移动盒(14)的外部设置有与电池仓(25)相适配的卡接盖(26),所述光控开关(22)和激光器(21)均通过导线与电池仓(25)内部的干电池电连接,所述光控开关(22)通过导线与抽气泵(27)电连接。
9.根据权利要求1所述的镜片镀DLC+AR膜装置,其特征在于:所述抽气泵(27)的顶部与放料筒(7)相连通,所述抽气泵(27)的一侧面固定连接有气管(24),所述气管(24)贯穿移动盒(14)。
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