CN111397731A - 一种便携式紫外可见分光光度计 - Google Patents
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Abstract
本发明公开了一种便携式紫外可见分光光度计,它涉及环境检测技术领域。该便携式紫外可见分光光度计包括对半开合的上箱体和下箱体,所述下箱体内卡接有分光光度计本体,所述上箱体内安装有锂电池,所述分光光度计本体一侧设置有接电插孔,所述接电插孔贯穿所述下箱体侧壁,所述锂电池一侧设置有输电插孔,所述输电插孔贯穿所述上箱体侧壁,所述输电插孔与所述接电插孔之间通过外置的输电线可插拔连接,所述输电插孔与所述接电插孔位于同一侧;所述下箱体底面设置有可折放的支撑部件。本发明携带方便,非常适用于将分光光度计本体搬出野外进行样品检测分析,节约检测时间,提高工作效率。
Description
技术领域
本发明涉及环境检测技术领域,具体涉及一种便携式紫外可见分光光度计。
背景技术
随着国家对环境保护越来越重视,尤其是对水源的保护和管理更加严格。环境监测人员需要经常深入到野外水源地去采集水样,带回实验室分析化验。目前,在水质的常规监测中,紫外可见分光光度法占有较大的比重。现有的紫外分光光度计一般都是放置于实验室内,环境监测人员需要从野外返回实验室才能进行水质分析,来回时间较长,不能在现场取证出结果,工作效率低;因此,有必要设计一款适用于野外现场检测的紫外可见分光光度计。
发明内容
针对现有技术上存在的不足,本发明提供一种便携式紫外可见分光光度计。
为了实现上述目的,本发明是通过如下的技术方案来实现:
一种便携式紫外可见分光光度计,包括对半开合的上箱体和下箱体,所述下箱体内卡接有分光光度计本体,所述上箱体内安装有锂电池,所述分光光度计本体一侧设置有接电插孔,所述接电插孔贯穿所述下箱体侧壁,所述锂电池一侧设置有输电插孔,所述输电插孔贯穿所述上箱体侧壁,所述输电插孔与所述接电插孔之间通过外置的输电线可插拔连接,所述输电插孔与所述接电插孔位于同一侧;所述下箱体底面设置有可折放的支撑部件。
进一步地,所述支撑部件分为对称的两部分构件,每部分构件包括一门形凹槽,所述门形凹槽的几何开口处朝向所述下箱体外侧,所述门形凹槽的几何开口处两端分别对称设有一安装台,所述门形凹槽内放置有形状与之相同的一支撑架,所述支撑架的几何开口处两端分别铰接在所述安装台端面上,所述下箱体的侧边两端各对称安装有一挡块,所述挡块与所述安装台位于所述下箱体的同一侧边,所述支撑架向外旋转120度后与所述挡块相抵触;两个所述支撑架均通过同一卡栓部件来限制其转动。
进一步地,所述卡栓部件包括设置在所述下箱体底面几何中心处的转陀,所述转陀可以周向旋转,所述转陀两侧面对称连接有一卡闩,所述卡闩通过位置旋转来控制所述支撑架的转动。
进一步地,所述上箱体与下箱体之间一侧通过合页铰接,相对的另一侧通过卡扣连接。
进一步地,所述上箱体内还设有带拉链的置物槽。
相较于现有技术,本发明的有益效果在于:
本发明将分光光度计本体置于带支撑部件的箱式结构中,并配以锂电池进行供电,可折放的支撑部件适用于野外架设,可以防止仪器受潮;本发明携带方便,非常适用于将分光光度计本体搬出野外进行样品检测分析,节约检测时间,提高工作效率。
附图说明
下面结合附图和具体实施方式来详细说明本发明:
图1为本发明的结构示意图;
图2为本发明中下箱体的仰视图。
附图标记说明:1-下箱体;2-上箱体;3-合页;4-分光光度计本体;401-接电插孔;5-锂电池;501-输电插孔;6-输电线;7-支撑部件;701-门形凹槽;702-安装台;703-支撑架;704-挡块;8-卡栓部件;801-转陀;802-卡闩;9-置物槽;901-拉链;10-卡扣。
具体实施方式
为使本发明实现的技术手段、创作特征、达成目的与功效易于明白了解,下面结合具体实施方式,进一步阐述本发明。
如图1~2所示,其示出了本发明的一种便携式紫外可见分光光度计,包括对半开合的上箱体2和下箱体1,下箱体1内卡接有分光光度计本体4,上箱体2内安装有锂电池5,分光光度计本体4一侧设置有接电插孔401,接电插孔401贯穿下箱体1侧壁,锂电池5一侧设置有输电插孔501,输电插孔501贯穿上箱体2侧壁,输电插孔501与接电插孔401之间通过外置的输电线6可插拔连接,输电插孔501与接电插孔401位于同一侧;下箱体1底面设置有可折放的支撑部件7。
如图2所示,在一种优选地实施方式中,支撑部件7分为对称的两部分构件,每部分构件包括一门形凹槽701,门形凹槽701的几何开口处朝向下箱体1外侧,门形凹槽701的几何开口处两端分别对称设有一安装台702,门形凹槽701内放置有形状与之相同的一支撑架703,支撑架703的几何开口处两端分别铰接在安装台702端面上,下箱体1的侧边两端各对称安装有一挡块704,挡块704与安装台702位于下箱体1的同一侧边,支撑架703向外旋转120度后与挡块704相抵触;两个支撑架703均通过同一卡栓部件8来限制其转动。
如图2所示,在一种优选地实施方式中,卡栓部件8包括设置在下箱体1底面几何中心处的转陀801,转陀801可以周向旋转,转陀801两侧面对称连接有一卡闩802,卡闩8002通过位置旋转来控制支撑架703的转动。
如图1所示,在一种优选地实施方式中,上箱体2与下箱体1之间一侧通过合页3铰接,相对的另一侧通过卡扣10连接。
如图1所示,在一种优选地实施方式中,上箱体2内还设有带拉链901的置物槽9,用于放置用于检测的试剂与辅助工具。
根据上述构造,本发明在使用时,首先将卡闩802旋转至与门形凹槽701平行,然后旋转放下支撑架703,使得两个支撑架703同时向外侧旋转120度后与所述挡块704相抵触,这样支撑架703便可以支撑住下箱体1,然后打开上箱体2,将分光光度计本体4与锂电池5之间通过输电线6接通,分光光度计本体4便可开始正常步骤的检测分析工作。
以上所述仅是本发明的优选实施方式,本发明的保护范围并不仅局限于上述实施例,凡属于本发明思路下的技术方案均属于本发明的保护范围。应当指出,对于本技术领域的普通技术人员来说,在不脱离本发明原理前提下的若干改进和润饰,这些改进和润饰也应视为本发明的保护范围。
Claims (5)
1.一种便携式紫外可见分光光度计,其特征在于:包括对半开合的上箱体和下箱体,所述下箱体内卡接有分光光度计本体,所述上箱体内安装有锂电池,所述分光光度计本体一侧设置有接电插孔,所述接电插孔贯穿所述下箱体侧壁,所述锂电池一侧设置有输电插孔,所述输电插孔贯穿所述上箱体侧壁,所述输电插孔与所述接电插孔之间通过外置的输电线可插拔连接,所述输电插孔与所述接电插孔位于同一侧;所述下箱体底面设置有可折放的支撑部件。
2.根据权利要求1所述的便携式紫外可见分光光度计,其特征在于:所述支撑部件分为对称的两部分构件,每部分构件包括一门形凹槽,所述门形凹槽的几何开口处朝向所述下箱体外侧,所述门形凹槽的几何开口处两端分别对称设有一安装台,所述门形凹槽内放置有形状与之相同的一支撑架,所述支撑架的几何开口处两端分别铰接在所述安装台端面上,所述下箱体的侧边两端各对称安装有一挡块,所述挡块与所述安装台位于所述下箱体的同一侧边,所述支撑架向外旋转120度后与所述挡块相抵触;两个所述支撑架均通过同一卡栓部件来限制其转动。
3.根据权利要求2所述的便携式紫外可见分光光度计,其特征在于:所述卡栓部件包括设置在所述下箱体底面几何中心处的转陀,所述转陀可以周向旋转,所述转陀两侧面对称连接有一卡闩,所述卡闩通过位置旋转来控制所述支撑架的转动。
4.根据权利要求3所述的便携式紫外可见分光光度计,其特征在于:所述上箱体与下箱体之间一侧通过合页铰接,相对的另一侧通过卡扣连接。
5.根据权利要求1所述的便携式紫外可见分光光度计,其特征在于:所述上箱体内还设有带拉链的置物槽。
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