CN105522836A - 数码喷墨印花方法 - Google Patents
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Abstract
本发明公开了一种数码喷墨印花方法,织物渗化率的测定,染料表面张力的测定,根据选用织物的渗化率及选定的染料的表面张力值设定打印喷头的压电压力以控制打印喷头的墨水喷射量,喷墨印花,印后烘干,汽蒸,水洗,烘干。本发明跳出本领域的思维定势,将一直以来的如何防止渗化变为引导、利用渗化,反向思维的创造,很好地解决了染料墨水在织物之间毛细管间扩散而引起渗化的现象,并且节省了墨水的用量。
Description
技术领域
本发明涉及喷印领域,尤其涉及一种数码喷墨印花方法。
背景技术
随着当今世界经济水平的整体提高,人们对服装、纺织品等的需求越来越趋于个性化和多样化,这对传统纺织业带来了一定积极的影响,要求生产制造领域也必须转变为多品种和小批量化的生产过程。数码印花技术的出现正好符合并适应这种新型的市场需求,数码印花技术是将精密机械、计算机和光电一体化等先进技术进行融合的产物,是对传统印花技术的一次重大突破。由于顾客对于不同织物类型的数码印花产品特别是高档类织物的数码印花产品的需求量在大幅度的增加,尤其是对高档羊绒织物的需求量在大幅度的增加,而以往的羊绒织物图案单一,数码印花图案的多样性与丰富性极大地填补了这一劣势。但在数码喷墨印花中,数码印花颜色传递介质是墨水,如果直接将墨水喷印在涤纶织物上,墨水会顺这涤纶织物的经纬线逐步渗化,产生墨点相互交融变成模糊一片,就不会有清晰的印花图案和层次感。因此目前业界普遍采用对织物预处理的方式来使得后续喷印上的墨水不渗化,如在预处理液中添加防渗化剂等,但防渗化的效果一般,因为渗化不可能不出现,织物纤维间必定存在毛细管,想要杜绝毛细现象的发生是不可能的,如果能够跳出这个思维定势,充分利用渗化也许能起到意想不到的效果。
发明内容
本发明主要解决的技术问题在于,提供一种定量利用渗化且染料墨水用量少的新型数码喷墨印花方法。
本发明解决其技术问题所采用的技术方案是:数码喷墨印花方法,包括如下步骤:织物渗化率的测定,染料表面张力的测定,根据选用织物的渗化率及选定的染料的表面张力值设定打印喷头的压电压力以控制打印喷头的墨水喷射量,喷墨印花,印后烘干,汽蒸,水洗,烘干。这样的印花方法不再如以前的一味防止渗化、减小渗化,而是充分利用渗化,并且将不同织物的不同染料上染的不同渗化率测定下来,根据具体的渗化率来确定压电式喷墨印花机的压电压力,以此来控制打印喷头的喷射(墨)量,利用喷射的墨水之后渗化在织物上的情况最后形成所要的图案,因为具体的某种染料在具体的某个织物上的渗化率的值是固定的,这样可以在喷射时减小墨水的用量而同样打出所要的图形,不仅不用考虑如何防止渗化的出现,且能极大地减少染料墨水的用量,污染少且降低了成本。
作为本发明数码喷墨印花方法的进一步改进,在织物渗化率的测定之前对织物进行预处理,其中,预处理液各成分的重量分数为:2%的糊料A-9、2%的SW-MN-08、3.5%的甘油、4.5%的尿素、10%的元明粉、0.4%的弱氧化剂、0.1%的酒石酸和0.5%的碳酸钙粉末;所述糊料A-9、SW-MN-08的配制步骤为:称好糊料A-9和SW-MN-08的重量,保持搅拌的情况下,向软水中加入已称量好的糊料A-9和SW-MN-08,再继续搅拌至均匀;所述预处理液的配制步骤为:根据处理液的量计算所需的尿素的量放入温水中,后加入甘油、元明粉和若氧化剂,搅拌至全溶后逐量加入所需糊料,不停搅拌至糊料溶涨且无团状颗粒,过程中预处理液温度不超过60℃,冷却至室温后再加入酒石酸调节PH值至5-6,再搅拌均匀,最后经60—80目锦纶丝网过滤后备用。虽然可以不用对织物预处理,但对于有些渗化率的值浮动较大的织物,可以采用预处理之后(这样处理后的植物其渗化率的值浮动很小,即方差小),便于定量利用织物的渗化。
作为本发明数码喷墨印花方法的进一步改进,织物渗化率的测定具体如下:通过电脑绘制点样,采用同样的织物试样若干块各20圆点,每圆点直径为一个标准值,然后通过数码印花机将该图样打印在织物上;常温下晾干后分别处理,通过图像分析软件如image-pro或CPAS可得点样样品中墨点的面积,以此20个墨水点样的平均面积值作为渗化程度的评价指标;渗化率=(工艺处理后的点样面积-打印后的点样面积)/打印后的点样面积×100%。渗化率的测定方法很多,不仅仅限于上述方法,其测定属本领域公知常识,比如还有测定经纬的不同收缩率,将其作为一个考量更精确地测定渗化率,其测定方式在本领域已公开很多,只要是为更精确测定渗化率的,均可参照,不赘述。
作为本发明数码喷墨印花方法的进一步改进,表面张力的测定具体为:使用表面张力仪,用吊环法对喷墨印花商品墨水的表面张力进行测定,每个样品测量3次,计算平均值。染料表面张力的测定方法很多,不仅仅限于上述方法,其测定方式在本领域已公开很多,均可参照,不赘述。
本发明将防止渗化变为引导、定量利用渗化,很好地解决了染料墨水在织物之间毛细管间扩散而引起渗化的现象,并且节省了墨水的用量;在印花前对需印花的织物进行精细测定计算,对不同染料墨水在不同织物上的渗化率测定并充分利用,根据具体的渗化率来确定压电式喷墨印花机的压电压力,以此来控制打印喷头的喷射量,利用喷射的墨水之后渗化在织物上的情况最后形成所要的图案。
具体实施方式
实施例1:
数码喷墨印花方法,包括如下步骤:织物渗化率的测定,染料表面张力的测定,根据选用织物的渗化率及选定的染料的表面张力值设定打印喷头的压电压力以控制打印喷头的墨水喷射量,喷墨印花,印后烘干,汽蒸,水洗,烘干。织物渗化率的测定具体如下:通过电脑绘制点样,采用同样的织物试样若干块各20圆点,每圆点直径为一个标准值,然后通过数码印花机将该图样打印在织物上;常温下晾干后分别处理,通过图像分析软件如image-pro或CPAS可得点样样品中墨点的面积,以此20个墨水点样的平均面积值作为渗化程度的评价指标;渗化率=(工艺处理后的点样面积-打印后的点样面积)/打印后的点样面积×100%。表面张力的测定具体为:使用表面张力仪,用吊环法对喷墨印花商品墨水的表面张力进行测定,每个样品测量3次,计算平均值。
羊绒织物采用连续式蒸化机,温度为100℃-105℃,湿度为105%,时间为30min。
实施例2:
与实施例1不同之处在于:在织物渗化率的测定之前对织物进行预处理,其中,预处理液各成分的重量分数为:2%的糊料A-9、2%的SW-MN-08、3.5%的甘油、4.5%的尿素、10%的元明粉、0.4%的弱氧化剂、0.1%的酒石酸和0.5%的碳酸钙粉末;所述糊料A-9、SW-MN-08的配制步骤为:称好糊料A-9和SW-MN-08的重量,保持搅拌的情况下,向软水中加入已称量好的糊料A-9和SW-MN-08,再继续搅拌至均匀;所述预处理液的配制步骤为:根据处理液的量计算所需的尿素的量放入温水中,后加入甘油、元明粉和若氧化剂,搅拌至全溶后逐量加入所需糊料,不停搅拌至糊料溶涨且无团状颗粒,过程中预处理液温度不超过60℃,冷却至室温后再加入酒石酸调节PH值至5-6,再搅拌均匀,最后经60—80目锦纶丝网过滤后备用。预处理液的涂覆方式采用80目网刮2遍。
以上内容是结合具体的优选技术方案对本发明所作的进一步详细说明,不能认定本发明的具体实施只局限于这些说明。对于本发明所属技术领域的普通技术人员来说,在不脱离本发明构思的前提下,还可以做出若干简单推演或替换,都应当视为属于本发明的保护范围。
Claims (4)
1.数码喷墨印花方法,其特征在于,包括如下步骤:织物渗化率的测定,染料表面张力的测定,根据选用织物的渗化率及选定的染料的表面张力值设定打印喷头的压电压力以控制打印喷头的墨水喷射量,喷墨印花,印后烘干,汽蒸,水洗,烘干。
2.根据权利要求1所述的数码喷墨印花方法,其特征在于,在所述织物渗化率的测定之前对织物进行预处理,其中,预处理液各成分的重量分数为:2%的糊料A-9、2%的SW-MN-08、3.5%的甘油、4.5%的尿素、10%的元明粉、0.4%的弱氧化剂、0.1%的酒石酸和0.5%的碳酸钙粉末;所述糊料A-9、SW-MN-08的配制步骤为:称好糊料A-9和SW-MN-08的重量,保持搅拌的情况下,向软水中加入已称量好的糊料A-9和SW-MN-08,再继续搅拌至均匀;所述预处理液的配制步骤为:根据处理液的量计算所需的尿素的量放入温水中,后加入甘油、元明粉和若氧化剂,搅拌至全溶后逐量加入所需糊料,不停搅拌至糊料溶涨且无团状颗粒,过程中预处理液温度不超过60℃,冷却至室温后再加入酒石酸调节PH值至5-6,再搅拌均匀,最后经60—80目锦纶丝网过滤后备用。
3.根据权利要求2所述的数码喷墨印花方法,其特征在于,所述织物渗化率的测定具体如下:通过电脑绘制点样,采用同样的织物试样若干块各20圆点,每圆点直径为一个标准值,然后通过数码印花机将该图样打印在织物上;常温下晾干后分别处理,通过图像分析软件如image-pro或CPAS可得点样样品中墨点的面积,以此20个墨水点样的平均面积值作为渗化程度的评价指标;渗化率=(工艺处理后的点样面积-打印后的点样面积)/打印后的点样面积×100%。
4.根据权利要求1所述的数码喷墨印花方法,其特征在于,所述表面张力的测定具体为:使用表面张力仪,用吊环法对喷墨印花商品墨水的表面张力进行测定,每个样品测量3次,计算平均值。
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