RU2489361C1 - Water cleaner - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to tertiary treatment of whatever partially fit drinking water. Water cleaner for production of melt drinking water comprises water freezing zone with annular freezer, defrosting zone and cutout device. Freezing zone and defrosting zone are integrated. Note here that said cutout device is composed of perforated cylinder furnished with device for its removal from defrosting zone and vibrator for micro displacement of perforated cylinder walls for acceleration of lifting of cylinder with admixtures from lengthwise vessel.

EFFECT: higher efficiency and higher quality of water.

1 dwg

Description

The invention relates to a device for the purification of tap, artesian, well and other conditionally drinking water.

A known device for water purification, including a zone of freezing water located in one longitudinal vessel with an annular freezer, a zone of transition of water from solid to liquid with an annular heating element, separate pipes for removing impurities (FR 2858607 A1, 02/11/2005).

The disadvantage of this device is the insufficient quality of water treatment associated with the technological complexity of the process of cooling and heating.

Closest to the proposed device is a water purifier for producing melt drinking water, including a freezing zone located in the same longitudinal vessel with an annular freezer, a defrosting zone, and an uncoupling device (RU No. 2368571, BI No. 27, 2009).

The disadvantage of this device is the low productivity and degree of purity of water, which is explained by the principle of separation of impurities disconnecting device.

The technical problem to which the invention is directed is to increase the productivity and degree of purity of water.

This problem is solved in that in a water purifier for producing melt drinking water, including a freezing zone with an annular freezer located in one longitudinal vessel, a defrosting zone, and an uncoupling device according to the invention, the freezing and thawing zones are combined, wherein the uncoupling device is perforated cylinder equipped with a device for removing it from the defrost zone and a vibrator, micromoving the walls of the perforated cylinder to accelerate the rise perforated cylinder with impurities from a longitudinal vessel.

The combination of freezing and thawing zones is combined when the uncoupling device is a perforated cylinder equipped with a device for removing it from the defrosting zone, increases the productivity and purity of water, since the presence of a perforated cylinder gives a more reliable and quick removal of impurities.

The equipment of the perforated cylinder with a vibrator accelerates the operation of separating impurities due to micro-displacement of its walls and reduces the resistance of separation of the perforated cylinder from clean water, which increases productivity.

The invention is illustrated in the drawing, which shows a diagram of the operation of the water purifier with the main structural elements of the device.

The water purifier contains a vertical longitudinal vessel 1 made of stainless material, in the freezing zone of which an annular freezer is installed 2. In the displacement zone of impurities, a perforated cylinder 4 is placed in the center of the frozen rod 3 with a vibrator 5 for micromoving the walls of the perforated cylinder to accelerate the rise of the perforated cylinder with impurities from the longitudinal vessel. In the upper part of the perforated cylinder 4 there is a cover-handle 6.

Known constructions with regulators 7 are used to supply water to the water purifier.

The principle of operation of the device is the production of melt water, according to the time and temperature scheme, repeating the process of formation of melt water in nature. Freezing too fast will not allow water to be cleaned of harmful impurities, and defrosting too quickly will disrupt the structuring of melt water, as a result of which the biological activity property will be reduced to zero.

Water, for example, tap water enters vessel 1, where it is frozen at a slow pace through an annular freezer 2, at which the gaps between ice crystals are filled with new crystals, and the solution of salts and other harmful substances in water manages to pass through the holes of the perforated cylinder 4 and concentrates in the central parts of the frozen rod 3. After complete freezing of water in the freezing zone, turn on the vibrator 5 and rotate the perforated cylinder 4 around its axis, due to which there is a mechanical skoe extraction of impurities which are removed by the removal of perforated cylinder 4 from frozen rod 3 (lifting perforated cylinder 4 of the vessel 1). Then the remaining water is thawed into melt drinking water. A perforated cylinder removal device may be implemented, for example, in the form of a screw pair (not shown).

The performance of the proposed water purifier depends on the overall dimensions and is 5 hours for a volume of 2-4 l, 5 hours for a volume of 6-10 l.

The proposed design of a water purifier allows to increase the productivity and purity of water due to reliable separation and removal of impurities by a perforated cylinder.

Claims (1)

A water purifier for producing thawed drinking water, including a freezing zone located in the same longitudinal vessel with an annular freezer, a defrosting zone and an uncoupling device, characterized in that the freezing and thawing zone are combined, the uncoupling device being a perforated cylinder equipped with a device for removing it from the defrost zone and the vibrator of the micromotion of the walls of the perforated cylinder to accelerate the rise of the perforated cylinder from the impurity and of longitudinal vessel.

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