The utility model discloses an adjustable flow multi-channel amorphous crystallizer, which comprises a spindle, two ends of which are provided with a water intake blind hole and a water outlet blind hole, a plurality of water intake holes are arranged at the bottom circumferentially of the water intake blind hole, a plurality of water outlet sinks are arranged at the bottom circumferentially of the water outlet blind hole, a water distributor is arranged at the gap between the spindle, a water distributor is arranged at the outer clearance of the water distributor, and a water distributor is arranged at the bottom circumfer There are many rows of annular water intake holes arranged on the top, and there are many rows of annular water outlets arranged between the installation holes of the water outlet pipe and the water outlet seat of the water diversion ring, and the water outlet pipe is connected with the water outlet cavity; there is a flow regulating ring close to the inner side of the water diversion ring corresponding to each row of external water intake holes, and a flow regulating inlet hole is arranged on the flow regulating ring; The cooling temperature of the copper roll can be adjusted by adjusting the water flow through the inlet water hole. The temperature of the mold surface can be adjusted in different zones to meet the needs of process adjustment.
【技术实现步骤摘要】
可调流量多水路非晶结晶器
本技术涉及非晶薄带生产设备
,尤其涉及一种水路流量可调节的非晶结晶器。
技术介绍
非晶合金薄带的工艺,是将融化后的液态高温钢水通过喷嘴喷射到高速旋转的结晶器(冷却辊)上,以1×106℃/S冷却速度直接冷却形成0.02~0.04mm的固体薄带,结晶器的冷却效果及铜辊面的温差精度是决定非晶薄带质量的关键因素之一,现有结晶器的铜棍面冷却水路基本上为单水路(即一端进水一端出水)或中心进水两端出水结构,结晶器铜辊面在喷带时表面温差过大,造成带材厚度不均和性能的变化。
技术实现思路
本技术所要解决的技术问题是提供一种冷却效果好的可调流量多水路非晶结晶器。为解决上述技术问题,本技术的技术方案是:可调流量多水路非晶结晶器,包括主轴,所述主轴的两端分别设置有进水盲孔和出水盲孔,所述进水盲孔的底端周向设置有多个内进水分水孔,所述出水盲孔的底端周向设置有多个出水汇水孔;所述主轴上间隙套装有分水座,所述分水座的内周面上设置有与所述主轴密封连接的水路隔断凸环,所述内进水分水孔和所述出水汇水孔分别位于所述水路隔断凸环的两侧,所述水路隔断凸环两侧的所述分水座内分别设置有与所述内进水分水孔连通的进水腔和与所述出水汇水孔连通的出水腔;所述分水座的外侧间隙套装有分水圈,所述分水圈上设置有多排环状排列的、与所述进水腔连通的外进水分水孔,任意相邻两排所述外进水分水孔之间的所述分水圈上设置有一排呈环状排列的出水导管安装孔,所述分水圈通过所述出水导管安装孔与所述分水座之间安装有多排环状排列的出水导管,所述出水导管均与所述出水腔连通;所述分水圈的两个轴向端部均密封安装有与所述主 ...
【技术保护点】
1.可调流量多水路非晶结晶器,其特征在于:包括主轴,所述主轴的两端分别设置有进水盲孔和出水盲孔,所述进水盲孔的底端周向设置有多个内进水分水孔,所述出水盲孔的底端周向设置有多个出水汇水孔;所述主轴上间隙套装有分水座,所述分水座的内周面上设置有与所述主轴密封连接的水路隔断凸环,所述内进水分水孔和所述出水汇水孔分别位于所述水路隔断凸环的两侧,所述水路隔断凸环两侧的所述分水座内分别设置有与所述内进水分水孔连通的进水腔和与所述出水汇水孔连通的出水腔;所述分水座的外侧间隙套装有分水圈,所述分水圈上设置有多排环状排列的、与所述进水腔连通的外进水分水孔,任意相邻两排所述外进水分水孔之间的所述分水圈上设置有一排呈环状排列的出水导管安装孔,所述分水圈通过所述出水导管安装孔与所述分水座之间安装有多排环状排列的出水导管,所述出水导管均与所述出水腔连通;所述分水圈的两个轴向端部均密封安装有与所述主轴固定连接的端盖,所述分水圈的外侧间隙套装有冷却铜套,所述冷却铜套的两个轴向端部分别与两个所述端盖固定密封连接;紧贴所述分水圈的内侧对应每排所述外进水分水孔设置有一个流量调节环,所述流量调节环上设置有与所述外进水分水孔 ...
【技术特征摘要】
1.可调流量多水路非晶结晶器,其特征在于:包括主轴,所述主轴的两端分别设置有进水盲孔和出水盲孔,所述进水盲孔的底端周向设置有多个内进水分水孔,所述出水盲孔的底端周向设置有多个出水汇水孔;所述主轴上间隙套装有分水座,所述分水座的内周面上设置有与所述主轴密封连接的水路隔断凸环,所述内进水分水孔和所述出水汇水孔分别位于所述水路隔断凸环的两侧,所述水路隔断凸环两侧的所述分水座内分别设置有与所述内进水分水孔连通的进水腔和与所述出水汇水孔连通的出水腔;所述分水座的外侧间隙套装有分水圈,所述分水圈上设置有多排环状排列的、与所述进水腔连通的外进水分水孔,任意相邻两排所述外进水分水孔之间的所述分水圈上设置有一排呈环状排列的出水导管安装孔,所述分水圈通过所述出水导管安装孔与所述分水座之间安装有多排环状排列的出水导管,所述出水导管均与所述出水腔连通;所述分水圈的两个轴向端部均密封安装有与所述主轴固定连接的端盖,所述分水圈的外侧间隙套装有冷却铜套,所述冷却铜套的两个轴向端部分别与两个所述端盖固定密封连接;紧贴所述分水圈的内侧对应每排所述外进水分水孔设置有一个流量调节环,所述流量调节环上设置有与所述外进水分水孔一致的流量调节进水孔,所述流量调节环连接有调节驱动装置。2.如权利要求1所述的可调流量多水路非晶结晶器,其特征在于:相邻两排所述外进水分水孔和所述出水导管安装孔之间的所述分水圈的外壁上设置有挡水环。3.如权利...
【专利技术属性】
技术研发人员:边敦新,姜殿波,邹黎,刘志田,姜晓东,谭培红,
申请(专利权)人:山东理工大学,
类型:新型
国别省市:山东,37
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