CN110179335A - 一种全玻璃电热养生煲及其制造方法 - Google Patents
一种全玻璃电热养生煲及其制造方法 Download PDFInfo
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Abstract
本发明涉及一种全玻璃电热养生煲及其制造方法,全玻璃电热养生煲可包括玻璃煲体和底座,所述玻璃煲体的底部外表面上附接有加热盘,所述加热盘包括第一金属导热涂层、加热元件和第二金属导热涂层,所述第一金属导热涂层通过PVD工艺喷涂在所述玻璃煲体的底部外表面上,所述加热元件焊接在所述第一金属导热层上,所述第二金属导热涂层采用冷喷涂工艺喷涂在所述第一金属导热涂层和所述加热元件上,所述底座设有与所述加热元件电连接的电路板。本发明的全玻璃电热养生煲由于整个煲体都是玻璃的,因此可以直观看到内部食材情况并且能够用于烹饪养生药膳。此外通过第二金属导热层,使得整个加热盘的传热效率大大提升,提高了能耗水平。
Description
技术领域
本发明属于厨具领域,具体地涉及一种全玻璃电热养生煲及其制造方法。
背景技术
随着人们生活水平的提高,对养生越来越重视,相应地养生煲的市场需求量也越来越大,因此市场上也出现了各种各样的电热养生煲。但现有的电热养生煲的煲体要么采用陶瓷内胆要么采用不锈钢底和玻璃组合形成。对应陶瓷内胆来说,一方面传热效率低,另一方面无法直观看到内部食材情况。而对于具有不锈钢底的玻璃养生煲来说,存在不能用于烹饪养生药膳的问题。
发明内容
本发明旨在提供一种全玻璃电热养生煲及其制造方法,以解决上述技术问题。为此,本发明采用的具体技术方案如下:
根据本发明的一方面,提供了一种全玻璃电热养生煲,可包括玻璃煲体和底座,所述玻璃煲体的底部外表面上附接有加热盘,所述加热盘包括第一金属导热涂层、加热管和第二金属导热涂层,所述第一金属导热涂层通过PVD工艺喷涂在所述玻璃煲体的底部外表面上,所述加热管焊接在所述第一金属导热层上,所述第二金属导热涂层采用冷喷涂工艺喷涂在所述第一金属导热涂层和所述加热管上,所述底座设有与所述加热管电连接的电路板。
进一步地,所述加热盘还包括陶瓷隔热层,所述陶瓷隔热层包覆在所述第二金属导热层上。
更进一步地,所述陶瓷隔热层采用等离子喷涂工艺喷涂在所述第二金属导热层上。
更进一步地,所述陶瓷隔热层由氧化铝、氧化镉或氧化锆制成。
更进一步地,所述陶瓷隔热层的厚度为0.3至0.5毫米。
进一步地,所述第一金属导热涂层为铝、银、锌或锡等涂层。
进一步地,所述第一金属导热涂层的厚度为10至20纳米。
进一步地,所述第二金属导热涂层为铝涂层。
进一步地,所述第二金属导热涂层的厚度为1-2毫米。
根据本发明的另一方面,提供了一种全玻璃电热养生煲的制造方法,其特征在于,包括以下过程:
S1.提供玻璃煲体、加热管和底座,所述底座内设有电路板;
S2.在所述玻璃煲体底部外表面上加工出加热盘,具体过程包括:
S21.在所述玻璃煲体底部外表面上通过PVD工艺喷涂第一金属导热涂层;
S22.将加热管焊接在所述第一金属导热层上;
S23.采用冷喷涂工艺在所述第一金属导热涂层和所述加热管上喷涂第二金属导热层;
S3.将所述加热管与所述电路板电连接。
进一步地,S2还包括S24.采用等离子喷涂工艺在所述第二金属导热层上喷涂陶瓷隔热层。
本发明采用上述技术方案,具有的有益效果是:本发明的全玻璃电热养生煲由于整个煲体都是玻璃的,因此可以直观看到内部食材情况并且能够用于烹饪养生药膳。此外通过第二金属导热层,使得整个加热盘的传热效率大大提升,提高了能效水平。
附图说明
为进一步说明各实施例,本发明提供有附图。这些附图为本发明揭露内容的一部分,其主要用以说明实施例,并可配合说明书的相关描述来解释实施例的运作原理。配合参考这些内容,本领域普通技术人员应能理解其他可能的实施方式以及本发明的优点。图中的组件并未按比例绘制,而类似的组件符号通常用来表示类似的组件。
图1是本发明的全玻璃电热养生煲的示意图;
图2是图1所示的全玻璃电热养生煲的制造方法的流程图,其中a为主流程图,b为分流程S2的具体流程图。
具体实施方式
现结合附图和具体实施方式对本发明进一步说明。
参照图1,描述本发明的全玻璃电热养生煲1。全玻璃电热养生煲1可包括玻璃煲体10和底座(未示出)。玻璃煲体10和底座可以是分体式的,也根据是安装成一体的。玻璃煲体10由耐高温玻璃制成。底座上可设有电路板、操作面板、电源插座或插头等。底座的结构为本领域技术人员所熟知的,这里不再进行描述。
玻璃煲体10的底部外表面上附接有加热盘20。加热盘20的大小形状与玻璃煲体10的底部的大小形状一致。具体地,加热盘20可包括第一金属导热涂层210、加热管220和第二金属导热涂层230。第一金属导热涂层210通过PVD(物理气相沉积)工艺喷涂在玻璃煲体10的底部外表面上。第一金属导热涂层210可以是铝、银、锌或锡等导热系数较高的金属构成的涂层,其厚度在10至20纳米。第一金属导热涂层210使得玻璃煲体10的底部具有焊接能力。
加热管220焊接(例如,通过钎焊等)在第一金属导热层210上并与底座上的电路板电连接。在底座与玻璃煲体10为分体式情况下,加热管220与底座通过相应的接插件连接。而在底座和玻璃煲体10安装成一体的情况下,加热管220可以通过导线与电路板连接或直接将加热管220的端子焊接在电路板的相应触点上。加热管220的形状为市场上常见的,例如单环形、多环形、U形或W形等。加热管220的横截面可以是圆形、矩形或梯形等。
第二金属导热涂层230采用冷喷涂工艺喷涂在第一金属导热涂层210和加热管220上。由于第二金属导热涂层230能够将加热管220产生的热量充分且均匀地传递给玻璃煲体10,不仅能够大大提高加热盘20的能效水平,而且使玻璃煲体10内的食材受热均匀。在加热管220较粗的情况下,第二金属导热涂层230的表面可以不齐平,如图1所示,以节省材料成本。
优选地,第二金属导热涂层230为铝涂层。铝一方面具有良好的导热性,另一方面成本较低。第二金属导热涂层的厚度为1-2毫米。
为了进一步提高加热管220的传热效率,加热盘20还可包括陶瓷隔热层240,所述陶瓷隔热层240包覆在第二金属导热层230上,以避免加热管220产生的热量向外散发。陶瓷隔热层240可以由氧化铝、氧化镉或氧化锆等制成。在所示实施例中,陶瓷隔热层240的表面是齐平的,但在加热管220较粗的情况下,陶瓷隔热层240的表面也可以不齐平,以节省材料成本。
陶瓷隔热层240可以采用等离子喷涂工艺喷涂在第二金属导热层230上。优选地,等离子喷涂工艺为真空等离子喷涂工艺。
优选地,陶瓷隔热层的厚度为0.3至0.5毫米。
参照图2,描述一种全玻璃电热养生煲的制造方法,可包括以下过程:
S1.提供玻璃煲体、加热管和底座。所述底座内设有电路板、操作面板、电源插座或插头等。玻璃煲体、加热管和底座的结构及其制造为本领域技术人员所熟知,这里不再描述。
S2.在所述玻璃煲体底部外表面上加工出加热盘,具体过程包括:
S21.在所述玻璃煲体底部外表面上通过PVD工艺喷涂第一金属导热涂层。第一金属导热涂层可以是铝、银、锌或锡等导热系数较高的金属构成的涂层,其厚度在10至20纳米。
S22.将加热管焊接在所述第一金属导热层上。
S23.采用冷喷涂工艺在所述第一金属导热涂层和所述加热管上喷涂第二金属导热层。优选地,第二金属导热涂层为铝涂层。铝一方面具有良好的导热性,另一方面成本较低。第二金属导热涂层的厚度为1-2毫米。
S24.采用等离子喷涂工艺在所述第二金属导热层上喷涂陶瓷隔热层。在某些实施例中,也可以不喷涂陶瓷隔热层。陶瓷隔热层可以是氧化铝、氧化镉或氧化锆等,厚度为0.3至0.5毫米。
S3.将所述加热管与所述电路板电连接。在底座与玻璃煲体为分体式情况下,需要在加热底盘上安装一绝缘座,绝缘座上具有公接头或母插座,该公接头或母插座一端连接加热管的电源连接端,另一端用于与底座上的母插座或公接头对接,以实现加热管与电路板电连接。而在底座和玻璃煲体安装成一体的情况下,可以采用本领域技术人员所熟知的电气连接方式来实现加热管与电路板电连接,例如通过导线将加热管的电源连接端与电路板的相应触点相连接、直接将加热管的电源连接端焊接在电路板的相应触点上、将加热管的电源连接端与电路板的相应触点直接抵接或者通过相应接插件等。
应该理解,上述的PVD工艺、冷喷涂工艺和等离子喷涂工艺均为公知的,本领域技术人员可根据实际情况选择具体工艺参数。
尽管结合优选实施方案具体展示和介绍了本发明,但所属领域的技术人员应该明白,在不脱离所附权利要求书所限定的本发明的精神和范围内,在形式上和细节上可以对本发明做出各种变化,均为本发明的保护范围。
Claims (10)
1.一种全玻璃电热养生煲,其特征在于,包括玻璃煲体和底座,所述玻璃煲体的底部外表面上附接有加热盘,所述加热盘包括第一金属导热涂层、加热管和第二金属导热涂层,所述第一金属导热涂层通过PVD工艺喷涂在所述玻璃煲体的底部外表面上,所述加热管焊接在所述第一金属导热层上,所述第二金属导热涂层采用冷喷涂工艺喷涂在所述第一金属导热涂层和所述加热管上,所述底座设有与所述加热管电连接的电路板。
2.如权利要求1所述的全玻璃电热养生煲,其特征在于,所述加热盘还包括陶瓷隔热层,所述陶瓷隔热层包覆在所述第二金属导热层上。
3.如权利要求2所述的全玻璃电热养生煲,其特征在于,所述陶瓷隔热层采用等离子喷涂工艺喷涂在所述第二金属导热层上。
4.如权利要求2所述的全玻璃电热养生煲,其特征在于,所述陶瓷隔热层由氧化铝、氧化镉或氧化锆制成。
5.如权利要求2或3或4所述的全玻璃电热养生煲,其特征在于,所述陶瓷隔热层的厚度为0.3至0.5毫米。
6.如权利要求1所述的全玻璃电热养生煲,其特征在于,所述第一金属导热涂层为铝、银、锌或锡涂层。
7.如权利要求1所述的全玻璃电热养生煲,其特征在于,所述第一金属导热涂层的厚度为10至20纳米。
8.如权利要求1所述的全玻璃电热养生煲,其特征在于,所述第二金属导热涂层为铝涂层。
9.如权利要求1所述的全玻璃电热养生煲,其特征在于,所述第二金属导热涂层的厚度为1-2毫米。
10.一种全玻璃电热养生煲的制造方法,其特征在于,包括以下过程:
S1.提供玻璃煲体、加热管和底座,所述底座内设有电路板;
S2.在所述玻璃煲体底部外表面上加工出加热盘,具体过程包括:
S21.在所述玻璃煲体底部外表面上通过PVD工艺喷涂第一金属导热涂层;
S22.将加热管焊接在所述第一金属导热层上;
S23.采用冷喷涂工艺在所述第一金属导热涂层和所述加热管上喷涂第二金属导热层;
S3.将所述加热管与所述电路板电连接。
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