RU2046101C1 - Domestic apparatus for producing demineralized water "aquadistiller" - Google Patents

Abstract

FIELD: water processing equipment. SUBSTANCE: apparatus includes a transparent vessel of an elastic material, on bottom of which a layer of mixed anionite and cationite, modified by an acidic-basic thymol blew dyer with pH 8-9,6, is arranged. In an upper portion the above mentioned vessel has a pouring opening, closed by a cover, through which a flexible pipeline is passed with one end, having a filtering packing and being placed in the layer of ionite, and with other end, having a removable sealing packing. EFFECT: enhanced quality of demineralized water. 1 cl, 1 dwg

Description

 The invention relates to the field of desalination of natural waters, and more particularly to household ion-exchange desalination water from a water supply system and natural sources, used for filling batteries and household purposes, for example, when watering indoor plants and operating aquariums.

Desalination of water is usually carried out by ion exchange in a device consisting of serially connected filters with cation exchange resin and anion exchange resin, filtering through them desalinated water [1]
The disadvantage of this device is the technical complexity that makes it difficult to use in a domestic environment.

 The device is somewhat simplified when using a mixed layer of ion exchangers as a sorption mixture, which allows one filter to provide deep purification of water from ionic impurities dissolved in it.

 Closest to the claimed is a household device [2] which is an ion-exchange filter with a clamped mixed layer of ion exchangers, which are modified with an acid-base indicator phenolphthalein. An ion exchange filter is mounted in the bottom of a tank filled with water, which is filtered through an ion exchange filter into a tank of desalinated water, used as needed.

 The disadvantages of this device is the inability to accurately control the contact time of desalinated water with ion exchanger, which can lead to insufficiently deep water purification, multi-element, which leads to higher cost of the device, insufficient sorption strength on the dye-phenolphthalein anionite, as well as periodic drainage of the sorption filter, leading to channel formation and incompleteness use of exchange capacity.

 The purpose of the invention is to simplify the design of the device and increase its reliability.

 The drawing shows a device, a longitudinal section.

 A device for producing demineralized water contains a container 1 of elastic material with a filler hole 2 and a cover 3 with an opening 4 for hermetically accommodating a flexible pipe 5, one end of which has a filter nozzle 6, and the other removable sealing nozzle 7, which serves to close the opening 2 in storage condition. A layer 8 of cation exchanger and anion exchanger modified with acid-base dye thymol blue with a pH of 8-9.6 and a cation exchanger content of 3-5% higher than the anion exchanger content was experimentally established to obtain bidistillate from tap water, the layer volume ratio 8 ion exchanger and the volume of the tank 1 should be 1: 5-20. The input part of the flexible pipe 5, having a filter nozzle 6, has triangular notches and is immersed in an ion exchanger layer. Ring 9 is used to record the exhaustion of the exchange capacity of the ion exchanger.

 The device operates as follows.

 After removing the flexible pipe 5 from the sealing nozzle 7 and unscrewing the cover 3, fill the container 1 with desalinated water, then tightly close the cover 3. Turn the device upside down 10-15 times, weighing the suspension of ion exchangers in water and holding the device in the cover position up until deposition suspensions. If the device was filled with water the day before or earlier, then the mixing operation is not necessary. In the working position of the device (an ion exchanger layer is formed at the bottom of the container around the filter nozzle), squeezing the container 1 with the palm of the hand, direct a stream of water to the desired destination. After the water consumption decreases, the force of compression of the container is removed, while it is filled through the flexible pipe with air, compensating for the allocated volume of water and regenerating the filter nozzle 6. Again compressing the container with the palm of your hand and periodically compressing the force, carry out the necessary filling with demineralized water of the battery and other household devices. After exhaustion of the exchange capacity of the anion exchange resin, which is recorded using ring 9, when the color of the granules of the anion exchange resin changes from blue to yellow, it is necessary to change the loading of the ion exchange resin or purchase a new device.

 Significant differences of this device from analogues are the use of a new design of an ion-exchange filter made in the form of an elastic container, the ratio between the volumes of ion exchanger and desalinated solution, as well as between cation exchange resin and anion exchange resin, and the use of a new acid-base indicator to indicate the development of the ion-exchange charge. A new design element is the use of a self-regenerating particulate filter located in a flexible pipe.

 The invention can significantly improve the reliability of the device and the quality of water, since the demineralization of water in it proceeds very quickly due to the combination of static and dynamic modes of the process and the use of an acid-base indicator firmly adsorbed on the ion exchanger. An additional advantage of the device is the ability to use in it fine-grained fractions of ion exchangers, which are waste products, or to increase the desalination rate and reduce its cost. A refilled device can be stored in unheated conditions, because after thawing it does not lose its operability.

Claims (1)

 A household device for producing demineralized water, containing a container with a filling hole and a layer of mixed ion exchangers located in the container, modified with an ion exchange indicator, characterized in that the container is made of elastic material, equipped with a flexible pipe, one end of which has a filter nozzle and is located in the layer ion exchange resin, and another removable sealing nozzle, and a lid located in the filler hole with an opening for the tight placement of the flexible pipe, while The ratio of the volume of the ion exchanger layer and the volume of the capacitance is 1: 5–20; the layer is made of cation exchanger and anion exchanger modified with the acid-base dye thymol blue with a pH of 8–9.6 and a cation exchanger content exceeding the anion exchanger content by 3–5%

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