RU2734880C1 - Device for water purification and disinfection - Google Patents

Abstract

FIELD: water treatment.SUBSTANCE: device for water purification and disinfection comprises a housing provided with a lid with ledges on its lower surface, ultraviolet light-emitting diodes installed on its inner surface, ultrasonic emitters, a settler made in the form of a hollow hemisphere facing the center downwards, outlet branch pipe installed in cover, vertically installed in housing perforated tube, deflector installed on tube, made in form of logarithmic spiral, installed on bottom deflector bottom plate with perforated edges, which outer diameter is equal to inner diameter of housing, filter element made in the form of cylinder, as well as inlet nozzle. Outside the housing there is a tight casing repeating the housing shape. Lower end of the perforated tube is installed in the cavity between the housing and the casing. Inlet union is tangentially installed in horizontal plane in upper part of casing. Inlet tube opposite the inlet nozzle is installed tangentially. In the cavity between the housing and the casing an additional deflector is installed, which is made in the form of a flat spiral, the width of which is equal to the distance between the housing and the casing. Ultrasound emitters are installed on inner surface of casing. Inlet union is equipped with check valve.EFFECT: improved quality of water treatment and disinfection.1 cl, 2 dwg

Description

The invention relates to mechanical engineering and can be used for purification and disinfection of water.

Known device for purification and disinfection of water [Device for purification and disinfection of water. - Patent RU No. 144624. - Publ. 27.08.2014, Bul. No. 24], Patent RU No. 189132. - Publ. 05/13/2019, Bul. No. 14], containing a housing equipped with a lid, a filter element, an inlet fitting, a sump, an outlet pipe installed in the lid, a ring installed in the upper part of the housing, the outer surface of which contacts the inner surface of the housing. UV LEDs are installed on the inner surface of the cover. The sump is made in the form of a hollow hemisphere, centered downward, with the inlet fitting installed in the center of the sump. In the body, a perforated tube is vertically installed, connected to the inlet fitting, a deflector made in the form of a spiral is installed on the tube, and a round plate is installed on the deflector. The ring is installed above the plate, and there are ledges on the lower surface of the cover. The filter element is installed between the ring and the ledges and is made in the form of a cylinder, the diameter of which is equal to the inner diameter of the body.

The disadvantage of this device is the low quality of water purification and disinfection.

The achieved technical result is to improve the quality of water purification and disinfection.

The specified result is achieved in that a sealed casing is installed outside the housing, which follows the shape of the housing. The lower end of the perforated tube is installed in the cavity between the body and the casing. The inlet fitting is installed tangentially in the horizontal plane in the upper part of the casing and is equipped with a check valve. Opposite the inlet nozzle, the inlet nozzle is tangentially installed. In the cavity between

with the housing and the casing, an additional deflector is installed, which is made in the form of a flat spiral, the width of which is equal to the distance between the casing and the casing. Ultrasound emitters are installed on the inner surface of the casing.

FIG. 1 shows a device for cleaning and disinfecting water, FIG. 2 - the same, top view.

The device for water purification and disinfection contains a housing 1, equipped with a cover 2 with ledges on its lower surface, UV LEDs 3 installed on its inner surface, ultrasound emitters 4, a sump 5 made in the form of a hollow hemisphere facing the center down, an outlet 6, installed in the lid 2, vertically installed in the housing 1 perforated tube 7, installed on the tube 8, made in the form of a logarithmic spiral, mounted on the baffle 8 bottom down plate 9 with perforated edges, the outer diameter of which is equal to the inner diameter of the body 1, filter element 10 , made in the form of a cylinder, as well as the inlet fitting 11. Outside the housing 1, a sealed casing 12 is installed, repeating the shape of the housing 1. The lower end of the perforated tube 7 is installed in the cavity between the housing 1 and the casing 12. The inlet fitting 11 is tangentially installed in the horizontal plane in the upper parts of the casing 12. Opposite the inlet piece Cera 11 tangentially installed inlet pipe 13. In the cavity between the housing 1 and the casing 12 is installed an additional deflector 14, made in the form of a flat spiral, the width of which is equal to the distance between the casing and the casing. Ultrasound emitters 4 are installed on the inner surface of the casing 12. The inlet 11 is equipped with a check valve 15.

The device works as follows.

Water under pressure through the inlet 13 enters the cavity between the housing 1 and the casing 12, where an additional deflector 14 is installed, made in the form of a flat spiral, the width of which is equal to the distance between the casing and the casing. An additional deflector 14 gives the water a rotational

movement around the housing 1, increasing the residence time of water in the cavity between the housing 1 and the casing 12. Here, the water is disinfected using the ultrasonic waves generated by the ultrasound emitters 4 located on the inner surface of the casing 12, which cause a cavitation effect that contributes to the destruction of water polluting chemicals and microorganisms. An increase in the residence time of water in the cavity between the housing 1 and the casing 12 leads to an increase in the time of exposure to ultrasound on the treated water, which improves the quality of its disinfection. At the same time, ozone is supplied through the inlet 11, which is installed tangentially in the horizontal plane in the upper part of the casing 12 opposite the inlet 13. The presence of a check valve 15 in the inlet connection 11 prevents water from escaping from the device. When ozone enters the water, it oxidizes the dissolved ferrous iron in the water to the water-insoluble ferric iron, and the manganese ions in the water form the insoluble manganese dioxide. Ozone also disinfects, discolors and deodorizes water. Then the water through the perforated tube 7 and enters the inner cavity of the housing 1, where, with the help of the deflector 8, it is drawn into rotational motion along a logarithmic spiral from the center of the deflector 8 to its periphery. When the water rotates in the deflector 8, the particles of contaminants in the liquid are thrown under the action of centrifugal force to the surfaces of the deflector 8, and, then, to the walls of the housing 1 and fall into the sump 5. After the end of the spiral movement in the deflector 8, the water changes its direction of movement, loses its speed and passes through the filter element 10, where it is additionally cleaned of impurities and insoluble iron and manganese compounds contained in it. Then, the water, purified from impurities, enters the space between the upper part of the filter element 10 and the inner surface of the cover 2, where it is additionally disinfected under the action of ultraviolet rays emitted by ultraviolet LEDs 3. The presence of UV LEDs installed on the inner surface of the cover allows for more efficient

disinfect water, since the quality of ultraviolet treatment improves with increasing water purity, and already purified water is processed in the upper part of the device body. After that, the water is removed to the outside of the device through the outlet 6 installed in the cover 2. The impurities in the water accumulate in the sump 5 and in the filter element 10. Periodically, the cover 2 is removed, the filter element 10 is replaced and the dirt accumulated from the lower part of the housing 1 is removed.

Installation of a sealed casing outside the casing, repeating the shape of the casing, installation between the casing and the casing of an additional deflector made in the form of a flat spiral, the width of which is equal to the distance between the casing and the casing, installing the lower end of the perforated tube in the cavity between the casing and the casing, supplying the casing in the upper part inlet pipe tangentially located in the horizontal plane and installed tangentially in the horizontal plane in the upper part of the casing opposite the inlet pipe with an inlet pipe, as well as supplying the inlet pipe with a check valve, installation of ultrasound emitters on the inner surface of the casing allows for high-quality water purification from impurities and soluble substances contained in it compounds of iron and manganese and at the same time to disinfect it.

Claims (1)

A device for purifying and disinfecting water, comprising a housing equipped with a lid with ledges on its lower surface, ultraviolet LEDs installed on its inner surface, ultrasound emitters, a sump made in the form of a hollow hemisphere facing center down, an outlet pipe installed in the lid, installed in the body there is a vertically perforated tube, a deflector mounted on the tube, made in the form of a logarithmic spiral, a plate with perforated edges mounted on the deflector bottom down, the outer diameter of which is equal to the inner diameter of the body, a filter element made in the form of a cylinder, as well as an inlet fitting characterized by that a sealed casing is installed outside the casing, repeating the shape of the casing, the lower end of the perforated tube is installed in the cavity between the casing and the casing, the inlet fitting is installed tangentially in the horizontal plane in the upper part of the casing, opposite the inlet fitting tangentially installed n the inlet pipe, an additional deflector is installed in the cavity between the body and the casing, made in the form of a flat spiral, the width of which is equal to the distance between the body and the casing, ultrasound emitters are installed on the inner surface of the casing, and the inlet fitting is equipped with a check valve.

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