RU2616081C1 - Water purifier for producing melted drinking water - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: water purifier for producing melted drinking water comprises water supply zone, freezing zone with a freezing chamber 1, zone of water transition from solid to liquid state with an ice separating element and separate nozzles 2 for output of the melted drinking water. Water supply zone is designed as a part of a vertical metal ring 3 with a rotary drive. The metal ring is able to freeze before immersing in a water container 4 in the freezing chamber 1. The ice separating element is designed as pressure spiked drums 5 located above the separate nozzles 2. The rotary drive is designed as a pressure roller 7 with an elastic bandage and is located between the freezing chamber 1 and the pressure spiked drums 5 suitable for contact with the metal ring end. The pressure spiked drums 5 comprise a rotary drive 8. Splits 9 forming blades 10 are made inside the outer edge of the metal ring 3, suitable for blade 10 deformation under the action of the pressure spiked drums 5.

EFFECT: invention elables to improve water purifying performance.

1 dwg

Description

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

A known water purifier for producing melt drinking water, which includes a water supply zone, a freezing zone with a freezer and a zone of transition of water from solid to liquid with an ice separating element, separate nozzles for withdrawing melt drinking water (FR 2858607 A1, 02/11/2005).

A disadvantage of the known water purifier is low productivity due to structural imperfections caused by the cyclical process of obtaining melt drinking water, and the need to use additional devices to remove impurity concentrations in the form of brine, which does not allow to obtain a high degree of purity of water.

The closest in technical essence and the achieved result is a water purifier for producing thawed drinking water, which includes a water supply zone, a freezing zone with a freezer and a zone of transition of water from solid to liquid with an ice separating element, separate pipes for removing melt drinking water, this water supply zone is made in the form of a part of a vertical metal ring, which is immersed in the vessel and has a rotation drive, while the metal ring has the ability to freeze over d by immersion in a vessel with water in the freezer, and the ice-separating element is made in the form of pressure pockmarks located above separate nozzles with the possibility of breaking off ice from the surface of the metal ring, and the rotation drive is made in the form of a pressure roller with an elastic bandage located between the freezer and clamping rowanas with the possibility of contacting with the end of a metal ring (RF Patent for the invention No. 2561983, C02F 1/22, publ. 09/10/2015).

A disadvantage of the known device is the low efficiency of the water-separating elements - the pock-fry due to the hard surface of the metal ring, which reduces the performance of water treatment.

The technical problem to which the invention is directed is to increase the productivity of water treatment.

The problem is achieved in that in the proposed technical solution, including a water supply zone, a freezing zone with a freezer and a zone of transition of water from solid to liquid with an ice separating element, separate nozzles for withdrawing melt drinking water, while the water supply zone is made in in the form of a part of a vertical metal ring that is immersed in a vessel and has a rotation drive, while the metal ring can be frozen before immersion in a vessel with water in the freezer, and The ice-loading element is made in the form of clamping ruffles located above separate nozzles with the possibility of cutting ice from the surface of the metal ring, and the rotation drive is made in the form of a clamping roller with an elastic bandage located between the freezer and clamping ridges with the possibility of contacting with the end of the metal ring, in this case, the squeezing rowanas have a rotation drive according to the invention, slots are made from the outer edge of the metal ring to form the blades, with the possibility of deformation blades under the action of clamping Ryabukho.

The technical result coincides with the technical task.

The supply of the metal ring with the blades increases the speed and reliability of the separation of ice from the metal ring, as the grouse deform the blades and the ice easily breaks off the surface of the metal ring.

The invention is illustrated in the drawing.

It shows the operation of the water purifier with the main structural elements of the device.

The water purifier contains a water supply zone, a freezing zone with a freezer 1 and a zone of transition of water from solid to liquid with an ice separating element, separate nozzles 2 for withdrawing melt drinking water. The water supply zone is made in the form of a vertical metal ring 3 with a rotation drive, while the metal ring 3 passes through the freezer 1 before immersion in the vessel 4 with water, and the ice-separating element is made in the form of pressure pockets 5 located above separate pipes 2 with the possibility of ice-cutting from the surface of the metal ring 3 on both sides of the metal ring 3. The metal ring 3 is fixed on the axis 6 and has a rotation drive, which is made in the form of a pressure roller 7 with an elastic bandage between the freezer and clamping rowan with the possibility of contact with the end of the metal ring. Clamping rowan 5 has a rotation drive 8, for example in the form of an electromechanical transmission, the rotation speed of which is set experimentally, depending on the overall dimensions of the water purifier.

From the outer edge of the metal ring 3, slots 9 are formed to form the blades 10, with the possibility of deformation of the blades 10 under the action of clamping pockbacks 5.

The principle of operation of the device is the continuous production of melt water according to a strictly defined time and temperature scheme, repeating the process of formation of melt water in nature.

Water, for example tap water, will flow into the vessel 4, from where it is frozen onto the surface of the rotating metal ring 3 (the ring is cooled to a low temperature by passing through the freezer 1) and is fed to the pressure chambers 5, where clear ice is cut from the surface of the metal ring 3 due to their rotation, provided by the rotation drive 8. The cut pieces of ice during melting by means of separate nozzles 2 enter the container for collecting melt water. The temperature mode of operation of the freezer 1 is set experimentally, depending on the overall dimensions of the water purifier. By rotating the pinch roller with an elastic bandage, located between the freezer and the pinch, the metal ring rotates at a speed that allows ice to freeze on its surface. The rotation speed is set experimentally. The slots 9 at the edge of the metal ring 3 forming the blades 10, with the possibility of deformation of the blades 10 under the action of pressure pincers 5, provide easy separation of ice from the metal ring due to stresses arising between the ice surface and the surface of the blades 10.

The proposed design of the water purifier allows to increase productivity by reducing the time of the process of obtaining melt water by actively milling ice on the surface of the metal ring, with chipping of ice under the action of deformation of the blades.

Claims (1)

A water purifier for producing thawed drinking water, which includes a water supply zone, a freezing zone with a freezer and a zone of transition from solid to liquid state with an ice separating element, separate nozzles for withdrawing melt drinking water, while the water supply zone is made as part of the vertical the metal ring, which is immersed in the vessel and has a rotation drive, while the metal ring has the possibility of freezing before immersion in the vessel with water in the freezer, and the ice separating element in it is full in the form of clamping ridges located above separate nozzles with the possibility of cutting ice from the surface of the metal ring, and the rotation drive is made in the form of a clamping roller with an elastic bandage located between the freezer and clamping ridges with the possibility of contacting with the end face of the metal ring, while the clamping ridges have a rotation drive, characterized in that from the outer edge of the metal ring, slots are formed that form the blades, with the possibility of deformation of the blades under the action of m pinch wildfire.

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