CN201704414U - 一种电解水壶 - Google Patents
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Abstract
本实用新型公开了一种电解水壶,属于电化学领域。该装置壶体、阳极电极、阴极电极和直流电解电源,阳极电极主要由活性炭构成,阴极电极主要由金属构成,阳极电极和阴极电极通过导线与直流电解电源连接。该装置无电解隔离膜,免除了膜被污染,所采用的电极制得的功能水效果好,成本低,节省材料,并且该装置无电解隔离膜,电解水杯的寿命长。
Description
技术领域
本实用新型属于电化学领域,具体涉及一种电解水壶。
背景技术
水是人们在日常生活中最常接触到的,近年来随着人们保健意识的增强,开始意识到自来水在输送、加压、储存过程中细菌和重金属的二次污染问题,而煮沸后只能将部分细菌杀死,水中的杂质仍然存在。
电解水又称离子水。在世界范围内,日本的科学工作者最早进行了电解离子水的研究。如今的日本市场上,已经开发出各种各样的电解水设备,它们纷纷进入家庭、产业和医院,并且得到了社会的认可和广泛的应用。1966年,日本厚生省批准文书认定为饮用碱性离子水,对于“胃酸过多、消化不良、肠内异常发酵、慢性痢疾”有医疗效果。目前,电解水已由日本传入美国、韩国等地,并在美国食品和药品管理局、韩国健康与福利部都获得政府认证。
水(H2O)被电解生成电解水。电流通过水(H2O)时,氢气在阴极形成,氧气则在阳极形成。带正电荷的离子向阴极移动,溶于水中的矿物质钙、镁、钾、钠等带正电荷的离子,便在阴极形成,就是我们所喝的碱性水;而带负电的离子,在阳极生成。添加在自来水里的氯也被排于阳极的酸性水中了。电解酸性水因为有前置过滤系统、内置抗菌载银活性炭的重重把关,酸性水中是几乎检测不到氯的踪迹。电解的原理看似简单,但要快速并且安全生成电解水却并不容易,厂家经过不断的改良,才开始使用安全稳定的钛金属为电极。
电解水机一般利用活性炭作为过滤层,过滤自来水,使之净化达标(达到国家饮用水标准),再通过电解生成两种活性的水,即电解水。集中于阴极流出来的为碱性电解水(供饮用);集中于阳极流出来的为酸性电解水。
市场上的电解水壶,结构复杂,常会使用隔离膜进行过滤处理,除去杂质,使用隔离膜所带来的问题是使用时间减少。
实用新型内容
1、要解决的技术问题
本实用新型提供了一种快速稳定制取碱性还原水的电解水壶,该装置无电解隔离膜,免除了膜被污染,并且所采用的阳极电极主要由活性炭构成,阴极电极主要由金属构成,装置简单,耐用,成本低,使用寿命长。
2、技术方案
一种电解水壶,包括壶体、阴极电极、阳极电极和直流电解电源,阳极电极主要由活性炭构成,阴极电极主要由金属构成,阳极电极和阴极电极通过导线与直流电解电源连接。
所述活性炭是烧结活性炭或压结活性炭。
所述活性炭是纳米级活化的椰炭、果炭或竹炭,并含有导电剂。
所述的阳极电极是活性炭和金属构成的电极,活性炭和金属紧密连接。
所述的阳极电极是活性炭和与活性炭紧密连接的涂敷有铂族元素氧化物的钛基电极。
所述的壶体是阴极电极,主要由金属构成。
所述的电解水壶设置有底座。
所述的底座顶部设置有插头,直流电解电源和控制器设置在底座,直流电解电源和控制器通过导线与插头连接。
所述的电解水壶设置有内胆。
所述的内胆是阴极电极,主要由金属构成。
所述的电解水壶还包括设置在内胆和壶体之间的电加热装置,电加热装置通过导线与直流电解电源连接。
3、有益效果
本实用新型无电解隔离膜,免去隔离膜被污染。
本实用新型活性炭成本低,进一步节省了材料。
本实用新型无电解隔离膜,电解水杯的寿命长。
附图说明
图1为本实用新型带有底座的电解水壶
其中,1-壶体;2-底座;3-外壳;4-内胆;5-阳极电极;6-电加热装置;7-直流电解电源;8-控制器;9-底座的插头;10-1-壶体插座;10-2-底座插头;11-上盖。
图2为本实用新型无底座的电解水壶
其中,1-壶体;3-外壳;4-内胆;5-阳极电极;6-电加热装置;7-直流电解电源;8-控制器;9-底座的插头
具体实施方式
以下实施例的测试条件:
实验中均保持100mA恒定直流电解电流值;测试仪表为上海仪表三厂产品:PBH-4型PH/ORP/温度计,分辨率0.01,PH为±0.1%F.S.。
电水壶加热功率1800W,内容积2升,满容积水从常温至烧开约8分钟,之后处于降加热功率保温状态。测试时从通电烧水至保温,每5分钟断电取样测量一次。
实施例1
如图1所示,一种电解水壶,实验样壶为304材质的不锈钢电水壶,包括壶体1的外壳3、内胆4和底座2,壶体1的内胆4设置有阳极电极5,该阳极电极5是活性炭,呈饼状,烧结而成,直径650mm,高20mm,置于壶内底部,与不锈钢壶内胆(阴极)绝缘陶瓷,壶体1的底部设置有壶体插座10-1,阳极电极5和作为阴极电极的内胆4通过导线与壶体插座10-1连接,底座2顶部设置有与壶体插座10-1相匹配的底座插头10-2,底座2内设置有直流电解电源7和控制器8,通过导线与底座插头10-2相连接。
源水为南京市供自来水,TDS=198mg/L,PH=7.4,ORP=370mV。注入杯内水容积为400mL,水温为23℃,电解电流平均为100mA。连续电解30分钟后测量,PH=8.5,ORP=-630mV。
表1水质为南京自米水被电解的实验数据
实施例2
如图2所示,一种电解水壶,包括壶体1的外壳3和内胆4,壶体1的内胆4设置有阳极电极5,该阳极电极5是活性炭和与活性炭紧密连接的涂敷有氧化釕的网状钛基电极,活性炭是纳米级活化的椰碳,活性炭压结而成,并含有导电剂,阳极电极5和内胆4设置有绝缘陶瓷。直流电解电源7和控制器8设置在壶体1的外壳3和内胆4之间,通过导线与阳极电解5和内胆4相连接,壶体1的外壳3和内胆4之间还设置有电加热装置6。
源水为市售桶装纯净水,TDS=0mg/L,PH=6.0,ORP=235mV。注入杯内水容积为400mL,水温为23℃,电解电流平均为100mA。连续电解30分钟后测量,PH=8.5,ORP=-468mV。
表2水质为市售桶装纯净水被电解的实验数据
实施例3
如图1所示,一种电解水壶,包括壶体1的外壳3、内胆4和底座2,壶体1的内胆4设置有阳极电极5,该阳极电极5是纳米级活化的竹碳,并含有导电剂,阳极电极5和内胆4设置有绝缘陶瓷。壶体1的底部设置有壶体插座10-1,阳极电极5和作为阴极电极的内胆4通过导线与壶体插座10-1连接,底座2顶部设置有与壶体插座10-1相匹配的底座插头10-2,底座2内设置有直流电解电源7和控制器8,通过导线与底座插头10-2相连接,壶体1的外壳3和内胆4之间还设置有电加热装置6。
源水为南京市供自来水,TDS=198mg/L,PH=7.4,ORP=370mV。注入杯内水容积为400mL,水温为23℃,电解电流平均为100mA。连续电解30分钟后测量,PH=8.8,ORP=-635mV。
表3水质为南京自来水被电解的实验数据
实施例4
如图2所示,一种电解水壶,包括壶体1的外壳3和内胆4,壶体1的内胆4设置有阳极电极5,该阳极电极5是活性炭和与活性炭紧密连接的钛金属,阳极电极5和内胆4设置有绝缘陶瓷。直流电解电源7和控制器8设置在壶体1的外壳3和内胆4之间,通过导线与阳极电解5和内胆4相连接,壶体1的外壳3和内胆4之间还设置有电加热装置6。
源水为南京市供自来水,TDS=198mg/L,PH=6.0,ORP=235mV。注入杯内水容积为400mL,水温为23℃,电解电流平均为100mA。连续电解30分钟后测量,PH=8.1,ORP=-375mV。
表4水质为市售桶装纯净水被电解的实验数据
本实用新型无隔离膜纯电解水壶,当实际制水若干次后,因钙镁离子的析出,壶壁上将可能结有软垢。为此将电解电极组供电极性反接,按清洗工作模式制水适当时间,即可将垢清洗干净。实际视我国南方和北方水质硬度不同,以南京市供自来水为例,约制水70次后就需反极性清洗一次。
Claims (10)
1.一种电解水壶,其特征在于:所述的电解水壶包括壶体、阳极电极、阴极电极和直流电解电源,所述的阳极电极主要由活性炭构成,阴极电极主要由金属构成,阳极电极和阴极电极通过导线与直流电解电源连接。
2.根据权利要求1所述的电解水壶,其特征在于:所述的活性炭是烧结活性炭或压结活性炭。
3.根据权利要求1所述的电解饮水机,其特征在于:所述的活性炭是纳米级活化的椰炭、果炭或竹炭,并含有导电剂。
4.根据权利要求1至3任意一项所述的电解水壶,其特征在于:所述的阳极电极是活性炭和金属构成的电极,活性炭和金属紧密连接。
5.根据权利要求1至3任意一项所述的电解水壶,其特征在于:所述的阳极电极是活性炭和与活性炭紧密连接的涂敷有铂族元素氧化物的钛基电极。
6.根据权利要求1至3任意一项所述的电解水壶,其特征在于:所述的电解水壶设置有底座。
7.根据权利要求6所述的电解水壶,其特征在于:所述的底座顶部设置有插头,直流电解电源和控制器设置在底座,直流电解电源和控制器通过导线与插头连接。
8.根据权利要求1至3任意一项所述的电解水壶,其特征在于:所述的壶体是阴极电极,主要由金属构成。
9.根据权利要求1至3任意一项所述的电解水壶,其特征在于:所述的电解水壶内设置有内胆。
10.根据权利要求9所述的电解水壶,其特征在于:所述的内胆是阴极电极,主要由金属构成。
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Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109008627A (zh) * | 2018-08-31 | 2018-12-18 | 大连双迪创新科技研究院有限公司 | 一种茶水装置及其泡茶方法、洗泡茶方法和洗茶垢方法 |
| CN109044105A (zh) * | 2018-08-31 | 2018-12-21 | 大连双迪创新科技研究院有限公司 | 可洗茶垢的泡茶装置及其洗茶垢后泡茶方法 |
| CN109090993A (zh) * | 2018-08-31 | 2018-12-28 | 大连双迪创新科技研究院有限公司 | 可洗茶的泡茶装置及其洗泡茶方法和洗茶垢方法 |
| CN109497790A (zh) * | 2018-08-31 | 2019-03-22 | 大连双迪创新科技研究院有限公司 | 茶水装置及其泡茶方法、洗泡茶方法和洗茶垢方法 |
-
2010
- 2010-03-24 CN CN201020139372XU patent/CN201704414U/zh not_active Expired - Lifetime
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109008627A (zh) * | 2018-08-31 | 2018-12-18 | 大连双迪创新科技研究院有限公司 | 一种茶水装置及其泡茶方法、洗泡茶方法和洗茶垢方法 |
| CN109044105A (zh) * | 2018-08-31 | 2018-12-21 | 大连双迪创新科技研究院有限公司 | 可洗茶垢的泡茶装置及其洗茶垢后泡茶方法 |
| CN109090993A (zh) * | 2018-08-31 | 2018-12-28 | 大连双迪创新科技研究院有限公司 | 可洗茶的泡茶装置及其洗泡茶方法和洗茶垢方法 |
| CN109497790A (zh) * | 2018-08-31 | 2019-03-22 | 大连双迪创新科技研究院有限公司 | 茶水装置及其泡茶方法、洗泡茶方法和洗茶垢方法 |
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