WO2017079929A1 - 一种环保节能型制取玻壳的超纯水设备 - Google Patents
一种环保节能型制取玻壳的超纯水设备 Download PDFInfo
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- WO2017079929A1 WO2017079929A1 PCT/CN2015/094362 CN2015094362W WO2017079929A1 WO 2017079929 A1 WO2017079929 A1 WO 2017079929A1 CN 2015094362 W CN2015094362 W CN 2015094362W WO 2017079929 A1 WO2017079929 A1 WO 2017079929A1
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- reverse osmosis
- pure water
- filter
- water tank
- pressure pump
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- the utility model belongs to the field of mechanical equipment, and particularly relates to an ultra-pure water equipment for making an environmentally-friendly and energy-saving glass bulb.
- Ultra-pure water machine is a kind of laboratory water purification equipment. It is a water treatment device that removes all solid impurities, salt ions, bacteria and viruses in water through filtration, reverse osmosis, electrodialysis, ion exchanger, ultraviolet sterilization and other methods. Ultra-pure water equipment is widely used in medicine, electronics, chemical, biophysics laboratories and other industries. Laboratory ultra-pure water machines usually produce pure water and ultra-pure water. The traditional pure water machine will produce waste water in the process of water production. The RO reverse osmosis membrane of the pure water machine has a particularly small pore size. The small water must be driven by pressure, and the impurities of the RO membrane are discharged.
- the wastewater is produced, and the ultra-pure water equipment for environmentally-friendly and energy-saving glass bulbs is composed of three parts: a pretreatment system, a finishing system and a post-processing system.
- a pretreatment system such as quartz sand unit, activated carbon unit and water softener unit
- the content of suspended solids, colloid, organic matter, hardness and microorganisms in the water is greatly reduced to reduce the subsequent reverse osmosis, electric desalination and other fine treatment.
- the system handles the load and extends its service life.
- the purpose of the utility model is to provide an ultra-pure water equipment for manufacturing an environmentally-friendly and energy-saving glass bulb, so as to solve the deficiencies in the above scheme.
- An environmentally-friendly and energy-saving ultra-pure water equipment for obtaining glass bulbs mainly consisting of raw water tank, booster pump, multi-media filter, activated carbon filter, sodium ion softener, precision filter, high pressure pump I, first-stage reverse osmosis
- the main machine, the pure water tank, the high pressure pump II, the ultraviolet sterilizer and the second reverse osmosis main unit are arranged, the boosting pump is connected to the original water tank, and the multi-media filter is connected at one end to the other end of the booster pump to the activated carbon filter, and the sodium ion is softened.
- the precision filter is connected to the sodium ion softener
- the high pressure pump I is connected to the precision filter
- the first stage reverse osmosis unit is connected to the high pressure pump I
- the pure water tank is set on the first stage reverse osmosis main unit
- the high pressure pump is connected at one end to the pure One end of the water tank is connected to the ultraviolet sterilizer
- the second reverse osmosis main unit is connected to the ultraviolet sterilizer.
- the primary reverse osmosis water host comprises four reverse osmosis membrane modules.
- the secondary reverse osmosis water host comprises four reverse osmosis membrane modules.
- the precision filter has a titanium filter element and an activated carbon filter element.
- the utility model can continuously and stably produce high quality pure water without stopping due to resin regeneration. Pollution-free emissions are both environmentally friendly and save on investment in waste treatment.
- the device has a compact structure, small footprint, space saving, and energy saving advantages.
- Figure 1 is a schematic view of the structure of the present invention
- An ultra-pure water equipment for environmentally-friendly and energy-saving glass bulbs mainly from raw water tank 1, booster pump 2, multi-media filter 3, activated carbon filter 4, sodium ion softener 5, precision filter 6, high pressure pump I7, a first-stage reverse osmosis host 8, a pure water tank 9, a high pressure pump II10, an ultraviolet sterilizer 11 and a second-stage reverse osmosis main unit 12, the booster pump 2 is connected to the raw water tank 1, and the multi-media filter 3 is connected at one end.
- the other end of the booster pump 2 is connected to the activated carbon filter 4, the sodium ion softener 5 is connected to the activated carbon filter 4, the precision filter 6 is connected to the sodium ion softener 5, the high pressure pump I7 is connected to the precision filter 6, and the first stage reverse osmosis host 8 is connected.
- the high pressure pump I7, the pure water tank 9 is arranged on the first stage reverse osmosis host 8, the high pressure pump II10 is connected at one end of the pure water tank 9 to the ultraviolet sterilizer 11, and the second reverse osmosis main unit 12 is connected to the ultraviolet sterilizer 11;
- the reverse osmosis water main unit 8 comprises four reverse osmosis membrane modules;
- the second reverse osmosis water main unit 12 comprises four reverse osmosis membrane modules;
- the precision filter 6 is provided with a titanium filter element and an activated carbon filter element.
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- Separation Using Semi-Permeable Membranes (AREA)
- Physical Water Treatments (AREA)
- Water Treatment By Sorption (AREA)
Abstract
一种环保节能型制取玻壳的超纯水设备,主要由原水箱(1)、增压泵(2)、多介质过滤器(3),活性炭过滤器(4)、钠离子软化器(5)、精密过滤器(6)、高压泵I(7)、一级反渗透主机(8)、纯水箱(9)、高压泵II(10)、紫外线杀菌器(11)和二级反渗透主机(12)组成,增压泵(2)连接原水箱(1),多介质过滤器(3)一端连接增压泵(2)另一端连接活性炭过滤器(4),钠离子软化器(5)连接活性炭过滤器(4),精密过滤器(6)连接钠离子软化器(5),高压泵I(7)连接精密过滤器(6),一级反渗透主机(8)连接高压泵I(7),纯水箱(9)设置在一级反渗透主机(8)上,高压泵II(10)一端连接纯水箱(9)一端连接紫外线杀菌器(11),二级反渗透主机(12)连接紫外线杀菌器(11),可连续稳定生产纯水无需因树脂再生而停机,结构紧凑,占地面积小。
Description
本实用新型属于机械设备领域,具体涉及一种环保节能型制取玻壳的超纯水设备。
超纯水机是一种实验室用水净化设备,是通过过滤、反渗透、电渗析器、离子交换器、紫外灭菌等方法去除水中所有固体杂质、盐离子、细菌病毒等的水处理装置。超纯水设备大量应用于医药,电子,化工,生物理化实验室等行业。实验室超纯水机通常能产出纯水以及超纯水两种规格的水。传统纯水机在制水过程中会产生废水,纯水机的RO反渗透膜的孔径特别小,小的必须要靠压力把水打过去,对于经不过RO膜的杂质就排出去了,也就产生了废水,环保节能型制取玻壳的超纯水设备由预处理系统、精处理系统、后处理系统三大部分组成。原水经石英砂单元、活性炭单元、软水器单元等预处理系统后,使水中的悬浮物、胶体、有机物、硬度、微生物等杂质含量大大降低,以减轻后续的反渗透、电除盐等精处理系统的处理负荷,延长其使用寿命。
实用新型内容
本实用新型的目的是提供一种环保节能型制取玻壳的超纯水设备,以解决上述方案中存在的不足。
为了达到上述目的,本实用新型所采用的技术方案为:
一种环保节能型制取玻壳的超纯水设备,主要由原水箱、增压泵、多介质过滤器,活性炭过滤器、钠离子软化器、精密过滤器、高压泵I、一级反渗透主机、纯水箱、高压泵II、紫外线杀菌器和二级反渗透主机组成,所述的增压泵连接原水箱,多介质过滤器一端连接增压泵另一端连接活性炭过滤器,钠离子软化器连接活性炭过滤器,精密过滤器连接钠离子软化器,高压泵I连接精密过滤器,一级反渗透主机连接高压泵I,纯水箱设置在一级反渗透主机上,高压泵一端连接纯水箱一端连接紫外线杀菌器,二级反渗透主机连接紫外线杀菌器。
所述的一级反渗透水主机包含四个反渗透膜组件。
所述的二级反渗透水主机包含四个反渗透膜组件。
所述的精密过滤器内设有钛滤芯、活性炭滤芯。
本实用新型可连续、稳定的生产高品质纯水无需因树脂再生而停机。无污染排放,既环保又省去了废液处理的投资。设备结构紧凑,占地面积小,节省空间,同时还具有节能优点。
图1为本实用新型的结构示意图;
1-原水箱;2-增压泵;3-多介质过滤器;4-活性炭过滤器;5钠离子软化器;6-精密过滤器;7-高压泵I、8-一级反渗透主机;9-纯水箱;10-高压泵II;11-紫外线杀菌器;12-二级反渗透主机。
下面结合附图和具体实施方式对本实用新型作进一步的说明。
一种环保节能型制取玻壳的超纯水设备,主要由原水箱1、增压泵2、多介质过滤器3、活性炭过滤器4、钠离子软化器5、精密过滤器6、高压泵I7、一级反渗透主机8、纯水箱9、高压泵II10、紫外线杀菌器11和二级反渗透主机12组成,所述的增压泵2连接原水箱1,多介质过滤器3一端连接增压泵2另一端连接活性炭过滤器4,钠离子软化器5连接活性炭过滤器4,精密过滤器6连接钠离子软化器5,高压泵I7连接精密过滤器6,一级反渗透主机8连接高压泵I7,纯水箱9设置在一级反渗透主机上8,高压泵II10一端连接纯水箱9一端连接紫外线杀菌器11,二级反渗透主机12连接紫外线杀菌器11;所述的一级反渗透水主机8包含四个反渗透膜组件;所述的二级反渗透水主机12包含四个反渗透膜组件;所述的精密过滤器6内设有钛滤芯、活性炭滤芯。
Claims (4)
- 一种环保节能型制取玻壳的超纯水设备,主要由原水箱、增压泵、多介质过滤器,活性炭过滤器、钠离子软化器、精密过滤器、高压泵I、一级反渗透主机、纯水箱、高压泵II、紫外线杀菌器和二级反渗透主机组成,其特征在于:所述的增压泵连接原水箱,多介质过滤器一端连接增压泵另一端连接活性炭过滤器,钠离子软化器连接活性炭过滤器,精密过滤器连接钠离子软化器,高压泵I连接精密过滤器,一级反渗透主机连接高压泵I,纯水箱设置在一级反渗透主机上,高压泵一端连接纯水箱一端连接紫外线杀菌器,二级反渗透主机连接紫外线杀菌器。
- 根据权力要求1所述的环保节能型制取玻壳的超纯水设备,其特征在于:所述的一级反渗透水主机包含四个反渗透膜组件。
- 根据权力要求1所述的环保节能型制取玻壳的超纯水设备,其特征在于:所述的二级反渗透水主机包含四个反渗透膜组件。
- 根据权力要求1所述的环保节能型制取玻壳的超纯水设备,其特征在于:所述的精密过滤器内设有钛滤芯、活性炭滤芯。
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CN108033615A (zh) * | 2017-11-24 | 2018-05-15 | 傅远顺 | 一种人造富硒饮用水的配方及制造方法 |
CN110510791A (zh) * | 2019-09-30 | 2019-11-29 | 重庆博创水处理设备有限公司 | 一种超纯水制备系统 |
CN111453900A (zh) * | 2020-04-27 | 2020-07-28 | 苏州华新达饮品技术有限公司 | 一种超纯水处理工艺 |
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CN114835289A (zh) * | 2022-04-19 | 2022-08-02 | 湖南东晟环保有限公司 | 一种高盐高硬度水牺牲膜法处理工艺 |
CN114804467A (zh) * | 2022-04-26 | 2022-07-29 | 成都优越科技有限公司 | 一种双级反渗透双泵双膜超纯水器及超纯水制备工艺 |
CN115403199A (zh) * | 2022-08-29 | 2022-11-29 | 湖南龙新净水科技有限公司 | 一种检验用水联合使用ro+edi装置 |
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