RU2756004C1 - Reservoir for bactericidal storage of water - Google Patents

Abstract

FIELD: packaging and storage.SUBSTANCE: invention relates to reservoir for bactericidal water storage, which is intended for long-term storage of water and drinking water supply. Reservoir comprises vertically oriented housing comprising bottom and side wall, which do not transmit light, and cover, hermetically connected to side wall, a water feed branch pipe, a water discharge branch pipe located in the reservoir bottom area, a light-transmitting protective tube installed inside the reservoir housing in the area of its bottom and parallel to it, and an ultraviolet radiation lamp placed in the protective pipe. Protective pipe is tightly fixed on side wall of reservoir with possibility of free access to its inner cavity from outer side of side wall. Reservoir housing cover is made with possibility of ultraviolet radiation visible control over reservoir inner surface state.EFFECT: invention provides high intensity of ultraviolet treatment of water in the branch pipe, prolonged bactericidal storage of water, continuous visual inspection of the condition of inner walls of the reservoir housing, simplified installation of the bactericidal lamp and its replacement.7 cl, 4 dwg

Description

The technical field to which the invention relates

SUBSTANCE: invention relates to reservoirs for drinking water supply, intended for long-term storage of water in a reservoir and simultaneous bactericidal treatment of this water with ultraviolet light during its storage, as well as distribution of treated drinking water for domestic or similar local water supply.

State of the art

A well-known tank for ultraviolet disinfection of water, including a vertical cylindrical body with spaced height pipes for supplying and discharging water, as well as a protective pipe (protective quartz cover, flask) for placing a germicidal lamp of ultraviolet radiation in it, while the protective pipe is installed coaxially inside the body (vertically) and above the water outlet (see the description of the invention to the USSR Inventor's Certificate No. 1678769 A1, IPC C02F1 / 32, published 09.23.1991 Bull. No. 35).

The features of the known reservoir, which are common with the features of the claimed technical solution, consist in the presence of a vertically oriented body with nozzles spaced apart along the height and a protective tube designed to accommodate a germicidal ultraviolet radiation lamp.

The reason that prevents the technical result obtained in the known reservoir, which is provided by the claimed technical solution, lies in the coaxial arrangement of the protective pipe, which significantly complicates the reservoir's performance of the functions of long-term storage of drinking water, simultaneous bactericidal treatment of drinking water with ultraviolet light during its storage, visual monitoring of the state of internal the surface of the case.

A well-known reservoir for ultraviolet disinfection of water (prototype), including a vertically oriented cylindrical body with spaced in height nozzles: the upper one for supplying and the lower one for draining water, a protective pipe (protective quartz cover) for placing in it a bactericidal quartz lamp, while a protective the pipe is installed coaxially (vertically) in the body cavity, and an inlet annular chamber is made between the upper inlet pipe and the body wall, so that the exit from the chamber through the body wall is made in the form of "n" pairs of inlet nozzles, with adjacent nozzles directed in pairs towards each other ( see the description of the invention to the patent RU No. 2225364 C1, IPC C02F 1/32, C02F 103/02, published 10.03.2004 Bul. No. 7).

The features of the known reservoir, which are common with the features of the claimed technical solution, consist in the presence of a vertically oriented body with nozzles spaced apart along the height (the upper one for supplying and the lower one for removing water) and a protective tube installed inside the body for placing a bactericidal ultraviolet radiation lamp in it.

The reason that prevents the technical result obtained in the known reservoir, which is provided by the claimed technical solution, lies in the coaxial (vertical) arrangement of the protective cover and the use of inlet nozzles, which significantly complicates the reservoir's performance of the functions of bactericidal storage of water (i.e., long-term storage without consumption and without decrease in the quality of stored water), since for the implementation of bactericidal treatment of water in a known tank, the mode of formation of cavitation vacuum micro-caverns is used, designed to form a water-gas emulsion in the tank without the possibility of visual control of the processes occurring in the tank and the state of the inner surface of the tank.

The technical problem to be solved by the technical solution claimed for patent is the need to provide the possibility of long-term bactericidal storage of water in the tank while simplifying the operation of the tank and simplifying the control over the state of the inner surface of the tank body.

Disclosure of the essence of the invention

The technical result, which mediates the solution of this technical problem, consists in a relative increase in the intensity of ultraviolet treatment of water in the area of the water outlet with a constant possibility of visual monitoring of the state of the inner walls of the tank body (for the presence of plaque, sediment) without turning off the germicidal lamp and without dismantling the body cover. The technological operation of installing a bactericidal lamp and its replacement is also simplified, and it also creates the possibility of using an additional source of illumination of the internal cavity of the tank body without carrying out dismantling technological operations.

The technical result is achieved by the fact that the tank for bactericidal storage of water is made in the form of a vertically oriented body, including a bottom and a side wall made of light-proof material, as well as a cover hermetically connected to the side wall, while the tank contains pipes for supply and discharge water spaced apart in height so that the water drainage pipe is located in the area of the bottom of the tank, as well as a protective tube made of light-transmitting material installed inside the tank body, designed to accommodate a germicidal lamp of ultraviolet radiation, while the protective tube is located in the area of the bottom of the tank in parallel this bottom and is hermetically fixed on the side wall of the tank with the possibility of free access to the inner cavity of this pipe from the outer side of this side wall, and the cover of the tank body is made with the possibility of visual control protected from ultraviolet radiation through this roof the condition of the inner surface of the tank body.

The technical result is also achieved in that the specified cover is made either entirely of monolithic polycarbonate protected from ultraviolet radiation, or it is made of a material that does not transmit light and contains an opening in which a sheet of monolithic polycarbonate protected from ultraviolet radiation is hermetically installed.

The technical result is also achieved in that the tank body is made in the form of a straight circular cylinder, and the said protective pipe is made either so that it is fixed with its first end on one generatrix of the side wall of this cylinder with the possibility of free access to the inner cavity of this pipe from the side of this pipe. the first end, while its second end is made muffled; or so that the said protective tube with its first end is fixed on one generatrix of the side wall of this cylinder, and with its second end - on the opposite generatrix of the side wall of this cylinder, so that it is possible to freely access the inner cavity of this tube from its both ends.

The technical result is also achieved in that the body of the tank is made in the form of a rectangular parallelepiped, and the said protective pipe is made either so that it is fixed with its first end on one side edge of this parallelepiped with the possibility of free access to the inner cavity of this pipe from the side of its first end, while its second end is made muffled; or so that the said pipe is fixed with its first end on one side face of this parallelepiped, and with its second end on the opposite lateral face of this parallelepiped, so that it is possible to freely access the inner cavity of this pipe from its both ends.

Brief Description of Drawings

Figures 1 ÷ 4 show diagrams of embodiments of a tank for bactericidal storage of water:

- figure 1 shows a diagram of a tank, the body cover of which is entirely made of monolithic polycarbonate, and the protective pipe is attached to the side wall of the tank body from only one end of this pipe;

- Fig. 2 shows a diagram of a tank, the casing cover of which is made of stainless steel (or other opaque material), while the cover has a hole in which a sheet of monolithic polycarbonate is installed, and the protective pipe is attached to the side wall of the tank casing only at one end this pipe;

- Fig. 3 shows a diagram of a tank, the body cover of which is entirely made of monolithic polycarbonate, and a protective pipe is attached to the side wall of the tank body at both ends of this pipe;

- Fig. 4 shows a diagram of a tank, the housing cover of which is made of stainless steel (or other opaque material), while the cover has a hole in which a sheet of monolithic polycarbonate is installed, and a protective pipe is attached to the side wall of the tank housing at both ends of this pipes.

Implementation of the invention

The first embodiment of a tank for bactericidal storage of water (figure 1) is characterized in that this tank contains a vertically oriented body 1, made in the form of either a straight circular cylinder or a straight rectangular parallelepiped. In this case, the housing includes a bottom 2 and a side wall 3 made of an opaque material, for example, stainless steel, as well as a cover 4, which is hermetically connected to the side wall 3 in its upper part. The lid 4 is made with the possibility of protected from ultraviolet radiation visual control through this lid of the state of the inner surface of the housing 1. In the considered (first) embodiment of the reservoir, the lid 4 is made entirely of a sheet of monolithic polycarbonate that transmits visible light, but is protected from ultraviolet radiation. This protection is due to the presence of protective coatings on both surfaces of the polycarbonate sheet, which have the property of absorbing (filtering) ultraviolet radiation. The reservoir also contains pipes for supplying and removing water, spaced apart in height so that the pipe for supplying water is located in the area of the cover 4, i.e. in the upper part of the housing 1, and the water outlet is located in the area of the bottom 2, i.e. in the lower part of the housing 1 (nozzles are not shown in the figures). The reservoir also contains a protective pipe 5, which is located inside the housing 1 in the area of the bottom 2 and parallel to the bottom 2. In this case, in the considered (first) embodiment of the reservoir, the pipe 5 is hermetically fixed on the side wall 3 of the housing 1 with one of its ends (right-hand in the figure). the possibility of free access to the inner cavity of the pipe 5 from the outer side of the side wall 3, so that the specified free access is carried out from the right according to the drawing (i.e., open) end of the pipe 5; while the other (left) end of the pipe is closed, i.e. muffled. The tube 5 is made of a light-transmitting material, namely a material that freely transmits light of the ultraviolet and visible ranges, for example, quartz glass, and is intended to accommodate an ultraviolet radiation germicidal lamp (the lamp is not shown in the figures). If necessary, the pipe 5 can additionally be placed sources of visible light, for example, LEDs in order to more intense illumination of the inner surface of the housing 1 with visible light.

The second embodiment of the reservoir (Fig. 2) differs from the first in the embodiment of the cover 4: it is made of an opaque material, for example, stainless steel, and contains an opening (window) 6, in which a sheet of monolithic polycarbonate protected from ultraviolet radiation ( similar to the first option).

The third embodiment of the reservoir (Fig. 3) differs from the first in the design of the protective pipe 5: this pipe with its first end is hermetically fixed on one generatrix (or side edge) of the side wall 3, and its second end is hermetically sealed on the opposite generatrix (opposite side edge) side wall 3, so that it is possible to freely access the inner cavity of the pipe 5 from the outside of the side wall 3 from both ends of the pipe 5.

The fourth embodiment of the reservoir (Fig. 4) is characterized in that the cover 4 is made similar to the above-described second embodiment, and the pipe 5 is made similar to the above-described third embodiment.

The use of the reservoir is as follows (using the example of the reservoir shown in Fig. 1).

Through the water supply pipe (pipe not shown), drinking water purified from mechanical and chemical impurities enters the tank, where further in the tank the water is subjected to a permanent bactericidal treatment using a permanently switched on ultraviolet lamp located in the protective pipe 5. The water supply is regulated by an automatic supply system water in order to constantly maintain a given water level in the body 1 of the tank. Since the lamp is located in the lower part of the housing 1, it is the lower volume of water that is processed with maximum intensity, which is actually delivered directly to the consumer at his request through the water outlet pipe (the pipe is not shown). Requests from consumers, as a rule, come irregularly, which is the reason for the relatively long time a certain volume of water is in the tank body 1. The lack of movement of water for a period of time creates the risk of known stagnation in the water, making the water unfit for drinking. However, a permanently operating bactericidal lamp located in the protective tube 5 prevents microorganisms from multiplying in water, exposing to the maximum ultraviolet effect exactly that volume of water (lower), which is intended for its direct delivery to the consumer upon his request. In this case, the consumer (or service personnel, if any) has a constant opportunity to monitor the state of the inner surface of the housing 1, observing this surface either through the entire cover 4 (Fig. 1, 3), or through the corresponding window 6 in this cover (Fig. 2, 4). This possibility eliminates the need to dismantle the cover 4 in order to control the inner surface of the housing 1, which greatly simplifies the operation of the tank and increases the reliability of the specified control, without which it is impossible to ensure the proper quality of water. Maintenance of the reservoir is also simplified by the fact that the device of the protective pipe 5 proposed here greatly simplifies the installation and replacement of the germicidal lamp, since it completely eliminates the need to dismantle the cover 4 for this purpose; and also makes it possible to easily install an additional source of visible light in order to improve the illumination of the inner surface of the housing 1.

Claims (5)

1. A tank for bactericidal storage of water, made in the form of a vertically oriented body, including a bottom and a side wall made of a material that does not transmit light, as well as a lid tightly connected to the side wall, while the tank contains nozzles for supplying and removing water, spaced apart in height so that the branch pipe for draining water is located in the area of the bottom of the tank, as well as a protective tube made of light-transmitting material installed inside the body of the tank, designed to accommodate a germicidal lamp of ultraviolet radiation, characterized in that the protective tube is located in the area of the bottom of the tank parallel to this bottom and hermetically fixed on the side wall of the tank with the possibility of free access to the inner cavity of this pipe from the outer side of this side wall, and the cover of the tank body is made with the possibility of a UV protected visual control through this cover of the state internally the th surface of the tank body, in which the specified cover is made of a material that does not transmit light and contains an opening in which a sheet of monolithic polycarbonate protected from ultraviolet radiation is hermetically installed. 2. The reservoir according to claim 1, which is made in the form of a straight circular cylinder, and said protective pipe with its first end is fixed on one generatrix of the side wall of this cylinder with the possibility of free access to the inner cavity of this pipe from the side of its first end, while its the second end is plugged. 3. The reservoir according to claim 1, the body of which is made in the form of a straight circular cylinder, and the said protective tube with its first end is fixed on one generatrix of the side wall of this cylinder, and with its second end - on the opposite generatrix of the side wall of this cylinder so that it is possible free access to the inner cavity of this pipe from both ends. 4. The reservoir according to claim 1, the body of which is made in the form of a straight rectangular parallelepiped, and said protective pipe with its first end is fixed on one side edge of this parallelepiped with the possibility of free access to the internal cavity of this pipe from the side of this first end, while its the second end is plugged. 5. The reservoir according to claim 1, the body of which is made in the form of a straight rectangular parallelepiped, and the said protective tube with its first end is fixed on one side face of this parallelepiped, and with its second end on the opposite side face of this parallelepiped so that free access is provided into the inner cavity of this pipe from its both ends.

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