CN115013735B - 一种适调密封型电解液输送装置 - Google Patents
一种适调密封型电解液输送装置 Download PDFInfo
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Abstract
本发明公开了一种适调密封型电解液输送装置,涉及电池生产技术领域,包括:主管道、L型管道;所述主管道内设置有流速控制组件;所述流速控制组件包括:外壳、检测装置、流控装置,所述检测装置用于检测管道内的电解液流速大小;所述流控装置用于调节管道内电解液流速;随后工作人员通过控制器控制检测装置启动,电解液流动的过程中,遇到检测装置;检测装置随即对主管道中的电解液流速进行检测,控制器根据检测装置检测出的流速信号,实时控制流控装置改变管径大小,使得电解液从主管道进入L型管道中的流速平稳,避免电解液流速过高,导致L型管道受到高流速的冲击而出现管道振动现象;进而保障了管道内电解液输送的稳定性。
Description
技术领域
本发明涉及电池生产技术领域,具体为一种适调密封型电解液输送装置。
背景技术
电解液是电池中离子传输的载体,为他们的正常工作提供离子,并保证工作中发生的化学反应是可逆的,使用电解液做阴极有不少好处,首先在于液体与介质的接触面积较大,这样对提升电容量有帮助,其次是使用电解液制造的电解电容,能耐高温,这样就可以通过波峰焊,同时耐压性也比较强;电解液一般由高纯度的有机溶剂、电解质锂盐、必要的添加剂等原料,在一定条件下、按一定比例配制而成的;
现有技术中,对电解液进行输送过程中,通常采用真空泵进行输送,在电解液输送过程中,真空泵由于长时间持续工作,由于工作损耗出现故障,一时无法找到替换方式,此时又不可以将输送线停止,出现故障的真空泵在对电解液进行输送时,无法稳定电解液输送的流速,电解液流速过快,容易使输送管道产生振动,进而影响管道的质量,无法保障管道平稳的输送电解液。
发明内容
本发明的目的在于提供一种适调密封型电解液输送装置,以解决上述背景技术中提出的问题。
为了解决上述技术问题,本发明提供如下技术方案:
一种适调密封型电解液输送装置,包括:主管道,所述主管道一端连通真空泵,所述主管道另一端连通L型管道;所述主管道内设置有流速控制组件,所述流速控制组件用于调节管道内的电解液流速;
所述流速控制组件包括:外壳,所述外壳设置在主管道的外侧,所述外壳包括检测腔和变径腔;所述检测腔内设置有检测装置,所述检测装置用于检测管道内的电解液流速大小;所述变径腔内设置有流控装置,所述流控装置用于调节管道内电解液流速;
工作人员通过控制器启动真空泵,真空泵将电解液抽取至主管道中,电解液沿主管道流动;随后工作人员通过控制器控制检测装置启动,电解液流动的过程中,遇到检测装置;检测装置随即对主管道中的电解液流速进行检测,检测装置将流速信号转变为电信号传递至控制器,控制器控制流控装置启动,控制器根据检测装置检测出的流速信号,实时控制流控装置改变管径大小,通过流控装置的管径实时对电解液的流速进行调节,使得电解液从主管道进入L型管道中的流速平稳,避免电解液流速过高,导致L型管道受到高流速的冲击而出现管道振动现象,从而使得管道出现损坏;进而保障了管道内电解液输送的稳定性。
优选的,所述检测装置包括:导流板,所述导流板设置在主管道内,所述导流板上设置有导杆,所述导流板与导杆的中心线存在夹角;所述导杆穿过主管道的侧壁连接有固定块,所述导杆上设置有弹簧,所述固定块靠近主管道一侧的导杆上设置有密封环;所述主管道上设置有转动架,所述转动架上转动连接有转动杆,所述转动杆一端连接固定块,所述转动杆另一端设置有压力块,所述检测腔内设置有压力传感器;
当真空泵出现故障,真空泵抽取电解液时的流速亦随之发生改变;电解液流动的过程中,电解液遇到导流板,电解液从导流板表面流过;当主管道中电解液流速增大时,由于导流板与导杆存在夹角,随着电解液的流速增大,导流板上表面的压力大于导流板下表面的压力,导流板在电解液流速的作用下移动,导流板向远离导杆的一侧移动,导流板拉动导杆移动,导杆带动固定块移动,固定块移动的过程中,固定块带动转动杆转动,转动杆沿转动架转动,转动杆的另一端在杠杆力的作用下抬升,转动杆带动压力块抬升,压力块将压力作用在压力传感器上,压力传感器将压力块的压力信号转变为电信号传递至控制器,控制器对电信号进行分析,随后控制器控制流控装置增大管道直径,通过变径增大管道的截面面积,进而使得管道内的电解液压力降低,进而使得管道内的电解液流速下降,使得电解液从主管道进入L型管道中的流速平稳,避免电解液流速过高,导致L型管道受到高流速的冲击而出现管道振动现象,从而使得管道出现损坏;进而保障了管道内电解液输送的稳定性;
当主管道中电解液流速减小时,检测装置将压力信号转变电信号,电信号传递至控制器控制流控装置减小管道直径,通过变径减小管道的截面面积,进而使得管道内的电解液压力提高,进而使得管道内的电解液流速提高,使得电解液从主管道进入L型管道中的流速平稳。
优选的,所述流控装置包括:内壁管,所述内壁管与主管道连通,所述内壁管外侧设置有外壁管,所述外壁管外壁上环绕设置有若干个伸缩杆,所述伸缩杆电连接控制器;所述伸缩杆远离检测腔的一端连接有移动环,所述移动环远离伸缩杆的一侧设置有变径装置。
优选的,所述变径装置包括:移动槽,所述移动槽设置在内壁管和外壁管之间的空腔中;所述移动槽内滑动连接有若干个斜向变径板,所述斜向变径板沿内壁管轴线环绕布置。
优选的,所述斜向变径板远离移动槽的一侧铰接有若干个变径长板和变径斜板,所述变径长板和变径斜板沿内壁管轴线环绕布置;所述变径长板两侧对称设置有变径斜板;所述变径斜板表面设置有铰接杆,所述铰接杆连接移动环。
优选的,所述变径长板表面对称设置有两个固定杆,所述变径斜板表面对称设置有四个滑动杆;所述固定杆上设置有导向片,所述滑动杆与导向片中的导向槽滑动连接。
优选的,所述内壁管与斜向变径板一端连接有密封橡胶环;所述变径长板两侧设置有密封片,所述密封片与变径斜板表面滑动;所述变径长板与L型管道之间连接有密封环。
优选的,所述内壁管内壁中设置有温度传感器;所述变径斜板靠近铰接杆的一侧设置有半导体片,所述半导体片上连通有冷凝管,所述冷凝管穿过外壳连接冷凝器;
当主管道中电解液流速增大时,控制器根据检测装置传递的电信号,控制伸缩杆启动,伸缩杆收缩带动移动环移动,移动环带动铰接杆移动,铰接杆带动变径斜板移动,变径斜板移动的过程中,变径斜板上的滑动杆沿导向片中的导向槽移动,滑动杆向远离固定杆的一侧滑动,随着变径斜板随铰接杆的移动而不断展开,使得管道内的直径增大,通过变径增大管道的截面面积,进而使得管道内的电解液压力降低,进而使得管道内的电解液流速下降,使得电解液从主管道进入L型管道中的流速平稳,避免电解液流速过高,导致L型管道受到高流速的冲击而出现管道振动现象,从而使得管道出现损坏;进而保障了管道内电解液输送的稳定性;变径斜板移动的过程中,变径长板两侧设置的密封片沿变径斜板表面滑动,使得变径长板与变径斜板接缝处实现密封,避免电解液通过接缝处泄露;
当变径斜板围成的近似圆直径扩大时,变径长板随变径斜板的移动而移动,变径长板在移动的过程中,带动斜向变径板移动,斜向变径板沿移动槽移动,斜向变径板向靠近移动槽的一侧移动,斜向变径板移动的过程中,带动密封橡胶环移动,密封橡胶环移动的过程中,使得内壁管与变径装置之间密封,避免电解液从内壁管和变径装置之间的缝隙中流出,进而造成电解液的浪费;
电解液在内壁管中流动时,控制器控制温度传感器启动,温度传感器将电解液的温度信号转变为电信号传递至控制器,控制器控制半导体片启动,半导体片启动制冷,冷温传递至变径斜板,随后通过变径斜板传递至流动中的电解液中,使得电解液在流动中冷却,冷却有效的保障了电解液输送装置输送电解液的质量;半导体片进行制冷的过程中,控制器控制冷凝器启动,冷凝器将冷却水抽入冷凝管中,通过冷凝管对半导体片进行降温冷却,进而保障了电解液的冷却效果。
与现有技术相比,本发明所达到的有益效果是:
1、控制器根据检测装置传递的电信号,控制伸缩杆启动,伸缩杆收缩带动移动环移动,移动环带动铰接杆移动,铰接杆带动变径斜板移动,变径斜板移动的过程中,变径斜板上的滑动杆沿导向片中的导向槽移动,滑动杆向远离固定杆的一侧滑动,随着变径斜板随铰接杆的移动而不断展开,使得管道内的直径增大,通过变径增大管道的截面面积,进而使得管道内的电解液压力降低,进而使得管道内的电解液流速下降,使得电解液从主管道进入L型管道中的流速平稳,避免电解液流速过高,导致L型管道受到高流速的冲击而出现管道振动现象,从而使得管道出现损坏;进而保障了管道内电解液输送的稳定性.
2、电解液在内壁管中流动时,控制器控制温度传感器启动,温度传感器将电解液的温度信号转变为电信号传递至控制器,控制器控制半导体片启动,半导体片启动制冷,冷温传递至变径斜板,随后通过变径斜板传递至流动中的电解液中,使得电解液在流动中冷却,冷却有效的保障了电解液输送装置输送电解液的质量;半导体片进行制冷的过程中,控制器控制冷凝器启动,冷凝器将冷却水抽入冷凝管中,通过冷凝管对半导体片进行降温冷却,进而保障了电解液的冷却效果。
附图说明
附图用来提供对本发明的进一步理解,并且构成说明书的一部分,与发明的实施例一起用于解释本发明,并不构成对本发明的限制。在附图中:
图1是本发明的主体图;
图2是本发明的内部结构示意图;
图3是本发明的剖视结构示意图;
图4是变径装置的结构示意图;
图5是变径装置的正视图;
图6是变径装置管径变小时的结构示意图;
图7是变径装置管径变小时的正视图;
图8是变径装置管径变大时的结构示意图;
图9是变径装置管径变大时的正视图
图中:1、主管道;11、L型管道;2、流速控制组件;
21、外壳;22、检测腔;23、变径腔;
3、检测装置;31、导流板;32、导杆;33、固定块;34、转动架;35、转动杆;36、压力块;
4、流控装置;41、内壁管;42、外壁管;43、伸缩杆;44、移动环;
45、变径装置;451、移动槽;452、斜向变径板;453、变径长板;4531、固定杆;4532、导向片;454、变径斜板;4541、滑动杆。
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-图9,本发明提供技术方案:
一种适调密封型电解液输送装置,包括:主管道1,所述主管道1一端连通真空泵,所述主管道1另一端连通L型管道11;所述主管道1内设置有流速控制组件2,所述流速控制组件2用于调节管道内的电解液流速;
所述流速控制组件2包括:外壳21,所述外壳21设置在主管道1的外侧,所述外壳21包括检测腔22和变径腔23;所述检测腔22内设置有检测装置3,所述检测装置3用于检测管道内的电解液流速大小;所述变径腔23内设置有流控装置4,所述流控装置4用于调节管道内电解液流速;
工作人员通过控制器启动真空泵,真空泵将电解液抽取至主管道1中,电解液沿主管道1流动;随后工作人员通过控制器控制检测装置3启动,电解液流动的过程中,遇到检测装置3;检测装置3随即对主管道1中的电解液流速进行检测,检测装置3将流速信号转变为电信号传递至控制器,控制器控制流控装置4启动,控制器根据检测装置3检测出的流速信号,实时控制流控装置4改变管径大小,通过流控装置4的管径实时对电解液的流速进行调节,使得电解液从主管道1进入L型管道11中的流速平稳。
作为本发明的一种具体实施方式,所述检测装置3包括:导流板31,所述导流板31设置在主管道1内,所述导流板31上设置有导杆32,所述导流板31与导杆32的中心线存在夹角;所述导杆32穿过主管道1的侧壁连接有固定块33,所述导杆32上设置有弹簧,所述固定块33靠近主管道1一侧的导杆32上设置有密封环;所述主管道1上设置有转动架34,所述转动架34上转动连接有转动杆35,所述转动杆35一端连接固定块33,所述转动杆35另一端设置有压力块36,所述检测腔22内设置有压力传感器;
当真空泵出现故障,真空泵抽取电解液时的流速亦随之发生改变;电解液流动的过程中,电解液遇到导流板31,电解液从导流板31表面流过;当主管道1中电解液流速增大时,由于导流板31与导杆32存在夹角,随着电解液的流速增大,导流板31上表面的压力大于导流板31下表面的压力,导流板31在电解液流速的作用下移动,导流板31向远离导杆32的一侧移动,导流板31拉动导杆32移动,导杆32带动固定块33移动,固定块33移动的过程中,固定块33带动转动杆35转动,转动杆35沿转动架34转动,转动杆35的另一端在杠杆力的作用下抬升,转动杆35带动压力块36抬升,压力块36将压力作用在压力传感器上,压力传感器将压力块36的压力信号转变为电信号传递至控制器,控制器对电信号进行分析,随后控制器控制流控装置4增大管道直径,通过变径增大管道的截面面积,进而使得管道内的电解液压力降低,进而使得管道内的电解液流速下降,使得电解液从主管道1进入L型管道11中的流速平稳;
当主管道1中电解液流速减小时,检测装置3将压力信号转变电信号,电信号传递至控制器控制流控装置4减小管道直径,通过变径减小管道的截面面积,进而使得管道内的电解液压力提高,进而使得管道内的电解液流速提高,使得电解液从主管道1进入L型管道11中的流速平稳。
作为本发明的一种具体实施方式,所述流控装置4包括:内壁管41,所述内壁管41与主管道1连通,所述内壁管41外侧设置有外壁管42,所述外壁管42外壁上环绕设置有若干个伸缩杆43,所述伸缩杆43电连接控制器;所述伸缩杆43远离检测腔22的一端连接有移动环44,所述移动环44远离伸缩杆43的一侧设置有变径装置45。
作为本发明的一种具体实施方式,所述变径装置45包括:移动槽451,所述移动槽451设置在内壁管41和外壁管42之间的空腔中;所述移动槽451内滑动连接有若干个斜向变径板452,所述斜向变径板452沿内壁管41轴线环绕布置。
作为本发明的一种具体实施方式,所述斜向变径板452远离移动槽451的一侧铰接有若干个变径长板453和变径斜板454,所述变径长板453和变径斜板454沿内壁管41轴线环绕布置;所述变径长板453两侧对称设置有变径斜板454;所述变径斜板454表面设置有铰接杆,所述铰接杆连接移动环44。
作为本发明的一种具体实施方式,所述变径长板453表面对称设置有两个固定杆4531,所述变径斜板454表面对称设置有四个滑动杆4541;所述固定杆4531上设置有导向片4532,所述滑动杆4541与导向片4532中的导向槽滑动连接。
作为本发明的一种具体实施方式,所述内壁管41与斜向变径板452一端连接有密封橡胶环;所述变径长板453两侧设置有密封片,所述密封片与变径斜板454表面滑动;所述变径长板453与L型管道11之间连接有密封环。
作为本发明的一种具体实施方式,所述内壁管41内壁中设置有温度传感器;所述变径斜板454靠近铰接杆的一侧设置有半导体片,所述半导体片上连通有冷凝管,所述冷凝管穿过外壳21连接冷凝器;
当主管道1中电解液流速增大时,控制器根据检测装置3传递的电信号,控制伸缩杆43启动,伸缩杆43收缩带动移动环44移动,移动环44带动铰接杆移动,铰接杆带动变径斜板454移动,变径斜板454移动的过程中,变径斜板454上的滑动杆4541沿导向片4532中的导向槽移动,滑动杆4541向远离固定杆4531的一侧滑动,随着变径斜板454随铰接杆的移动而不断展开,使得管道内的直径增大,通过变径增大管道的截面面积,进而使得管道内的电解液压力降低,进而使得管道内的电解液流速下降,使得电解液从主管道1进入L型管道11中的流速平稳;变径斜板454移动的过程中,变径长板453两侧设置的密封片沿变径斜板454表面滑动,使得变径长板453与变径斜板454接缝处实现密封,避免电解液通过接缝处泄露;
当变径斜板454围成的近似圆直径扩大时,变径长板453随变径斜板454的移动而移动,变径长板453在移动的过程中,带动斜向变径板452移动,斜向变径板452沿移动槽451移动,斜向变径板452向靠近移动槽451的一侧移动,斜向变径板452移动的过程中,带动密封橡胶环移动,密封橡胶环移动的过程中,使得内壁管41与变径装置45之间密封,避免电解液从内壁管41和变径装置45之间的缝隙中流出,进而造成电解液的浪费;
电解液在内壁管41中流动时,控制器控制温度传感器启动,温度传感器将电解液的温度信号转变为电信号传递至控制器,控制器控制半导体片启动,半导体片启动制冷,冷温传递至变径斜板454,随后通过变径斜板454传递至流动中的电解液中,使得电解液在流动中冷却;半导体片进行制冷的过程中,控制器控制冷凝器启动,冷凝器将冷却水抽入冷凝管中,通过冷凝管对半导体片进行降温冷却。
本发明的工作原理:
工作人员通过控制器启动真空泵,真空泵将电解液抽取至主管道1中,电解液沿主管道1流动;随后工作人员通过控制器控制检测装置3启动,电解液流动的过程中,遇到检测装置3;检测装置3随即对主管道1中的电解液流速进行检测;
当真空泵出现故障,真空泵抽取电解液时的流速亦随之发生改变;电解液流动的过程中,电解液遇到导流板31,电解液从导流板31表面流过;当主管道1中电解液流速增大时,由于导流板31与导杆32存在夹角,随着电解液的流速增大,导流板31上表面的压力大于导流板31下表面的压力,导流板31在电解液流速的作用下移动,导流板31向远离导杆32的一侧移动,导流板31拉动导杆32移动,导杆32带动固定块33移动,固定块33移动的过程中,固定块33带动转动杆35转动,转动杆35沿转动架34转动,转动杆35的另一端在杠杆力的作用下抬升,转动杆35带动压力块36抬升,压力块36将压力作用在压力传感器上,压力传感器将压力块36的压力信号转变为电信号传递至控制器,控制器对电信号进行分析,随后控制器控制流控装置4增大管道直径,通过变径增大管道的截面面积,进而使得管道内的电解液压力降低,进而使得管道内的电解液流速下降,使得电解液从主管道1进入L型管道11中的流速平稳;
当主管道1中电解液流速增大时,控制器根据检测装置3传递的电信号,控制伸缩杆43启动,伸缩杆43收缩带动移动环44移动,移动环44带动铰接杆移动,铰接杆带动变径斜板454移动,变径斜板454移动的过程中,变径斜板454上的滑动杆4541沿导向片4532中的导向槽移动,滑动杆4541向远离固定杆4531的一侧滑动,随着变径斜板454随铰接杆的移动而不断展开,使得管道内的直径增大,通过变径增大管道的截面面积,进而使得管道内的电解液压力降低,进而使得管道内的电解液流速下降,使得电解液从主管道1进入L型管道11中的流速平稳;变径斜板454移动的过程中,变径长板453两侧设置的密封片沿变径斜板454表面滑动,使得变径长板453与变径斜板454接缝处实现密封,避免电解液通过接缝处泄露;
当变径斜板454围成的近似圆直径扩大时,变径长板453随变径斜板454的移动而移动,变径长板453在移动的过程中,带动斜向变径板452移动,斜向变径板452沿移动槽451移动,斜向变径板452向靠近移动槽451的一侧移动,斜向变径板452移动的过程中,带动密封橡胶环移动,密封橡胶环移动的过程中,使得内壁管41与变径装置45之间密封,避免电解液从内壁管41和变径装置45之间的缝隙中流出,进而造成电解液的浪费;
当主管道1中电解液流速减小时,检测装置3将压力信号转变电信号,电信号传递至控制器控制流控装置4减小管道直径,通过变径减小管道的截面面积,进而使得管道内的电解液压力提高,进而使得管道内的电解液流速提高,使得电解液从主管道1进入L型管道11中的流速平稳;
电解液在内壁管41中流动时,控制器控制温度传感器启动,温度传感器将电解液的温度信号转变为电信号传递至控制器,控制器控制半导体片启动,半导体片启动制冷,冷温传递至变径斜板454,随后通过变径斜板454传递至流动中的电解液中,使得电解液在流动中冷却;半导体片进行制冷的过程中,控制器控制冷凝器启动,冷凝器将冷却水抽入冷凝管中,通过冷凝管对半导体片进行降温冷却。
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。
最后应说明的是:以上所述仅为本发明的优选实施例而已,并不用于限制本发明,尽管参照前述实施例对本发明进行了详细的说明,对于本领域的技术人员来说,其依然可以对前述各实施例所记载的技术方案进行修改,或者对其中部分技术特征进行等同替换。凡在本发明的精神和原则之内,所作的任何修改、等同替换、改进等,均应包含在本发明的保护范围之内。
Claims (7)
1.一种适调密封型电解液输送装置,其特征在于:包括:主管道(1),所述主管道(1)一端连通真空泵,所述主管道(1)另一端连通L型管道(11);所述主管道(1)内设置有流速控制组件(2),所述流速控制组件(2)用于调节管道内的电解液流速;
所述流速控制组件(2)包括:外壳(21),所述外壳(21)设置在主管道(1)的外侧,所述外壳(21)包括检测腔(22)和变径腔(23);所述检测腔(22)内设置有检测装置(3),所述检测装置(3)用于检测管道内的电解液流速大小;所述变径腔(23)内设置有流控装置(4),所述流控装置(4)用于调节管道内电解液流速;
导流板(31),所述导流板(31)设置在主管道(1)内,所述导流板(31)上设置有导杆(32),所述导流板(31)与导杆(32)的中心线存在夹角;所述导杆(32)穿过主管道(1)的侧壁连接有固定块(33),所述导杆(32)上设置有弹簧,所述固定块(33)靠近主管道(1)一侧的导杆(32)上设置有密封环;所述主管道(1)上设置有转动架(34),所述转动架(34)上转动连接有转动杆(35),所述转动杆(35)一端连接固定块(33),所述转动杆(35)另一端设置有压力块(36),所述检测腔(22)内设置有压力传感器。
2.根据权利要求1所述的一种适调密封型电解液输送装置,其特征在于:所述流控装置(4)包括:内壁管(41),所述内壁管(41)与主管道(1)连通,所述内壁管(41)外侧设置有外壁管(42),所述外壁管(42)外壁上环绕设置有若干个伸缩杆(43),所述伸缩杆(43)电连接控制器;所述伸缩杆(43)远离检测腔(22)的一端连接有移动环(44),所述移动环(44)远离伸缩杆(43)的一侧设置有变径装置(45)。
3.根据权利要求2所述的一种适调密封型电解液输送装置,其特征在于:所述变径装置(45)包括:移动槽(451),所述移动槽(451)设置在内壁管(41)和外壁管(42)之间的空腔中;所述移动槽(451)内滑动连接有若干个斜向变径板(452),所述斜向变径板(452)沿内壁管(41)轴线环绕布置。
4.根据权利要求3所述的一种适调密封型电解液输送装置,其特征在于:所述斜向变径板(452)远离移动槽(451)的一侧铰接有若干个变径长板(453)和变径斜板(454),所述变径长板(453)和变径斜板(454)沿内壁管(41)轴线环绕布置;所述变径长板(453)两侧对称设置有变径斜板(454);所述变径斜板(454)表面设置有铰接杆,所述铰接杆连接移动环(44)。
5.根据权利要求4所述的一种适调密封型电解液输送装置,其特征在于:所述变径长板(453)表面对称设置有两个固定杆(4531),所述变径斜板(454)表面对称设置有四个滑动杆(4541);所述固定杆(4531)上设置有导向片(4532),所述滑动杆(4541)与导向片(4532)中的导向槽滑动连接。
6.根据权利要求4所述的一种适调密封型电解液输送装置,其特征在于:所述内壁管(41)与斜向变径板(452)一端连接有密封橡胶环;所述变径长板(453)两侧设置有密封片,所述密封片与变径斜板(454)表面滑动;所述变径长板(453)与L型管道(11)之间连接有密封环。
7.根据权利要求6所述的一种适调密封型电解液输送装置,其特征在于:所述内壁管(41)内壁中设置有温度传感器;所述变径斜板(454)靠近铰接杆的一侧设置有半导体片,所述半导体片上连通有冷凝管,所述冷凝管穿过外壳(21)连接冷凝器。
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