RU2548976C1 - Water purification and disinfection apparatus - Google Patents

Abstract

FIELD: chemistry.SUBSTANCE: water purification and disinfection apparatus includes a housing fitted with a cover, a filter element, an inlet nozzle and a settling tank. An outlet pipe is fitted on the cover. A ring is mounted in the upper part of the housing, the outer surface of the ring being in contact with the inner surface of the housing. Ultraviolet LEDs are mounted on the inner surface of the cover. The settling tank is in the form of a hollow hemisphere, facing with the centre downwards. The inlet nozzle is mounted at the centre of the settling tank. A pipe connected to the inlet nozzle is mounted vertically in the housing. The pipe is fitted with a deflector in the form of a helix, wherein the axis of symmetry of the deflector coincides with the axis of symmetry of the pipe. The pipe has a slit whose length is equal to that of the deflector, wherein the upper edge of the slit is located on the level of the upper edge of the deflector. The deflector is fitted with a circular plate, the diameter of which is equal to the external diameter of the deflector. The ring is mounted over the plate and ledges are placed on the lower surface of the cover. The filter element is in the form of a cylinder, the diameter of which is equal to the internal diameter of the housing, and is placed between the ring and the ledges. Between the upper surface of the filter element and the ledges there is a perforated circular plate, the diameter of which is equal to the internal diameter of the housing. The upper surface of the perforated plate, the lower surface of the cover and the area of the housing between the perforated plate and the cover are mirrored.EFFECT: invention improves the quality of purifying and disinfecting water.2 dwg

Description

The invention relates to mechanical engineering and can be used to purify and disinfect water.

A device for cleaning and disinfecting water [Device for cleaning and disinfecting water. - Patent RU No. 2465211. - Publ. 10/27/2012, bull. No. 30], comprising a housing provided with a lid made removable in the form of a plate, turned upside down, a filter element, an inlet fitting, an outlet pipe installed in the lid, a sump having the shape of a funnel facing down a narrow part, equipped with a plug for draining dirt, installed in its lower part. A cylindrical glass with holes made in its bottom along the circumference along the generatrices is installed in the housing. A ring is installed in the upper part of the casing, the outer surface of which is in contact with the inner surface of the casing, and the inner surface of the ring is in contact with the outer surface of the cylindrical cup. The filter element is made in the form of a cylinder with a hole along the axis of the cylinder and is installed inside a cylindrical glass. An ultraviolet lamp is installed inside the filter element along its axis. The inlet fitting is connected to a tube curved in the form of a spiral placed in an annular gap between the inner surface of the housing and the outer surface of the cylindrical glass. The tube is equipped with nozzles installed at an acute angle to it in the direction of winding the spiral.

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

The purpose of the invention is to improve the quality of water purification and disinfection.

This goal is achieved by the fact that ultraviolet LEDs are installed on the inner surface of the lid. The sump is made in the form of a hollow hemisphere facing downwards, with the inlet fitting installed in the center of the sump. A tube connected to the inlet fitting is vertically mounted in the housing. A deflector made in the form of a spiral is installed on the tube, and the axis of symmetry of the deflector coincides with the axis of symmetry of the tube. In addition, a slit is made in the tube with a length equal to the length of the deflector, and the upper edge of the slit is located at the level of the upper edge of the deflector. A circular plate with a diameter equal to the outer diameter of the deflector is mounted on the deflector. The ring is mounted above the plate. On the bottom surface of the lid set ledges. The filter element is installed between the ring and the ledges. The filter element is in the form of a cylinder, the diameter of which is equal to the inner diameter of the housing. Between the upper surface of the filter element and the ledges set a perforated plate of round shape, the diameter of which is equal to the inner diameter of the housing. The upper surface of the perforated plate, the lower surface of the lid and the portion of the housing between the perforated plate and the lid are mirrored.

Figure 1 shows a device for cleaning and disinfecting water, figure 2 is the same, a section along aa.

A device for cleaning and disinfecting water includes a housing 1 provided with a cover 2 made removable, a filter element 3, an inlet 4, an outlet pipe 5 installed in the cover 2, and a sump 6 having the shape of a hollow hemisphere facing downwards. The inlet fitting 4 is installed in the center of the sump 6. In the upper part of the housing 1, a ring 7 is installed, the outer surface of which contacts the inner surface of the housing 1. Ultraviolet LEDs are installed on the inner surface of the cover 2. 8. A tube 9 is vertically mounted in the housing 1 and connected to the inlet 4. A deflector 10, made in the form of a spiral, is mounted on the tube 9, the axis of symmetry of the deflector 10 coinciding with the axis of symmetry of the tube 9. In the tube 9, a slit is made with a length equal to the length of the deflector 10, with the upper edge the second slit is located at the level of the upper edge of the deflector 10. A plate of round shape 11 is installed on the deflector 10, the diameter of which is equal to the outer diameter of the deflector 10. A ring 7 is installed above the plate 11. On the lower surface of the cover there are ledges 12. The filter element 3, made in the form of a cylinder , the diameter of which is equal to the inner diameter of the housing 1, is installed between the ring 7 and the ledges 12. Between the upper surface of the filter element 3 and the ledges 12 there is a perforated plate of circular shape 13, the diameter of which is equal to the inside the diameter of the housing 1, the upper surface of the perforated plate 13, the lower surface of the cover 2 and the portion of the housing 1 between the perforated plate 13 and the cover 2 are made mirror.

The device operates as follows.

Water under pressure through the inlet fitting 4 enters the tube 9 and then through the slot in the tube 9 enters the cavity of the deflector 10, where it is involved in the rotational movement in a spiral from the axis of symmetry of the deflector 10 to its periphery. When the water rotates in the deflector 10, the contaminant particles in the liquid are discarded under the action of centrifugal force to the surfaces of the deflector 10 and the housing 1, then they lose their speed and precipitate, falling into the sump 6. After passing through the spiral of the deflector 10, the water changes its direction of motion, also loses its speed and passes through the filter element 3, where it is further cleaned. Then, the water purified from impurities passes through a perforated plate of circular shape 13 and falls into the gap between the perforated plate 13 and the inner surface of the cover 2, where it is disinfected by the ultraviolet rays emitted by ultraviolet LEDs 8. After that, water is removed to the outside of the device through the outlet 5 installed in the cover 2. The impurities present in the water accumulate in the sump 6 and in the filter element 3. Periodically, the cover 2 is removed and the filter element 3 is replaced, and the dirt from the sump 6 is removed through the inlet 4 installed at the bottom of the sump 6.

The presence in the case of a vertical tube connected to the inlet fitting, placement of a deflector made in the form of a spiral on the tube, coincidence of the axis of symmetry of the deflector with the axis of symmetry of the tube, the creation of a slit in the tube with a length equal to the length of the deflector, and the location of the upper edge of the slit at the level of the upper edge of the deflector The installation of a circular plate on the deflector, the diameter of which is equal to the external diameter of the deflector, as well as the presence of a sump made in the form of a hollow hemisphere, imparts rotational motion to a thin layer of water with following a sharp decrease in its speed and change of direction. This ensures the high-quality separation of large particles of contaminants from the water and the capture of smaller particles by the filter element. The presence on the lower surface of the lid of the ledges and fixing the filter element between the ring and the ledges prevents the filter element from moving in the direction of water movement, and the implementation of the filter element in the form of a cylinder, the diameter of which is equal to the inner diameter of the housing, allows maximum use of the cross-sectional area of the filter element during water treatment. The presence of ultraviolet LEDs installed on the inner surface of the lid makes it possible to more effectively disinfect water, since the quality of ultraviolet treatment improves with increasing purity of water, and the device processes water that has already undergone a complete cleaning cycle.

Placing between the upper surface of the filter element and the ledges of a perforated plate of circular shape, the diameter of which is equal to the inner diameter of the housing, and the implementation of the upper surface of the perforated plate, the lower surface of the lid and the portion of the housing between the perforated plate and the lid mirror allows you to improve the quality of ultraviolet disinfection of water, since ultraviolet rays , reflected from mirror surfaces, repeatedly pass through the treated water.

Claims (1)

A device for cleaning and disinfecting water, comprising a housing provided with a cover, a filter element, an inlet fitting, a settling tank, an outlet pipe installed in the cover, a ring installed in the upper part of the housing, the outer surface of which contacts the inner surface of the housing, characterized in that on the inner surface ultraviolet LEDs are installed on the lid, the sump is made in the form of a hollow hemisphere facing downwards, and the inlet fitting is installed in the center of the sump, in the housing vertically o a tube is installed connected to the inlet fitting, a deflector made in the form of a spiral is installed on the tube, the axis of symmetry of the deflector coinciding with the axis of symmetry of the tube, in addition, a slit is made in the tube with a length equal to the length of the deflector, and the upper edge of the gap is located at the level of the upper the edges of the deflector, a circular plate is installed on the deflector, the diameter of which is equal to the outer diameter of the deflector, the ring is installed above the plate, ledges are installed on the bottom surface of the cover, and the filter element is installed between the ring and the ledges, the filter element is made in the form of a cylinder, the diameter of which is equal to the inner diameter of the housing, between the upper surface of the filter element and the ledges there is a perforated round plate with a diameter equal to the inner diameter of the housing, the upper surface of the perforated plate, the lower surface of the lid and the section cases between the perforated plate and the cover are made mirrored.

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