RU12393U1 - LIQUID DISINFECTION DEVICE - Google Patents

Abstract

A device for disinfecting a liquid, comprising a liquid disinfecting chamber with inlet and outlet nozzles, a bactericidal radiation source, a screen transmitting this radiation and separating the radiation source from the liquid disinfecting chamber, characterized in that it is provided with a tank for ensuring vertical movement of the liquid along the radiation source with the inlet and an outlet pipe and a holder of said chamber mounted on the front wall of the tank, wherein the liquid disinfection chamber is made in the form of a vertical installed in the pipe holder with the inlet pipe located in its lower part and the outlet pipe in its upper part, and threaded bushings with external screw caps are fixed at the pipe ends, while the screen is made in the form of a transparent tube concentrically fixed to the bushings inside the chamber with the formation between the camera and the screen of a ring-shaped in cross section of a narrow channel, the input and output of which are connected to the corresponding nozzles of the camera, and the source of bactericidal radiation is placed in the price D camera on its geometrical axis.

Description

Liquid disinfecting device

A utility model relates to devices for disinfecting a liquid, for example, water, milk. Used to disinfect drinking water in a passenger car.

It is known that when boiling water (up to 100 ° C) most of the non-spore bayeraria die. Bactericidal irradiators, where, for example, ultraviolet radiation are used, are used to destroy spore-bearing bayeteria. Known devices based on argon-mercury quartz lamps, the spectrum of which is dominated by ultraviolet radiation.

Thus, it is known a water sterilization device in a passenger carriage (1), comprising a water sterilization chamber with inlet and outlet nozzles and an ultraviolet radiation source, the latter being separated from the sterilization chamber by a screen transparent to ultraviolet radiation. The water sterilization chamber is multi-channel and has the form of a flat tank with longitudinal and transverse partitions rigidly fixed in it and between each other, forming cells with a depth equal to the depth of the tank, the channels are connected in series, for example, like a coil, and are formed by a system of slotted holes between the bottom and the bases corresponding cells. Additionally introduced sources of ultraviolet radiation - respectively, the number of channels. From above, a transparent screen is installed on the tank with the formation of an air gap between the surface of the water in each cell of each channel and the plane of the screen.

The screen is mounted on the sealing element. Sources (at least 10 lamps) of ultraviolet radiation are fixed in a casing above the screen. The inner surface of the casing is made reflective ultraviolet radiation. The casing is detachably connected to the flat tank.

The disadvantages of this known device are as follows. The device has a complex design, due to the presence of many nodes, parts and their relationships, namely: several (at least 10 pcs.) UV lamps, a complex multi-channel sterilization chamber, the complex design of the mount of the transparent screen on the tank.

Another disadvantage of the device is that its design is low efficient in the use of ultraviolet radiation. This is due to the fact that the design of the device allows using only radiation that comes from the surface portion of the lamp facing the screen to disinfect water. Thus, most of the radiating energy of the lamps is wasted. From this it follows that this design of the device has a low efficiency and is uneconomical in relation to the use of electricity.

The closest in technical essence to the claimed object is a device for disinfecting water in a passenger car (2). This device comprises a water sterilization chamber with inlet and outlet openings, a source of bactericidal radiation, a screen transmitting this radiation and separating a source of bactericidal radiation from the water sterilization chamber. The water sterilization chamber is made in the form of a flat tank horizontally open at the top with a device for twisting the direction of water movement along the bottom of the tank from the inlet to the outlet, and these openings are sized , C02FV32

laid at the bottom of the tank, and one of them simultaneously serves to drain air from the tank and determines the level of its filling with water and the thickness of the air pocket that prevents water from contacting the screen.

A device for curving the direction of water along the bottom of the tank is made in the form of longitudinal and transverse partitions of the tank with holes between the bottom of the tank and the lower bases of the corresponding partitions. The hermetic clamp of the screen to the tank is made in the form of a seal, laid under the screen along the contour of the side walls of the tank, a housing mounted on the screen with a support along the same circuit and a screw jack that tightens the housing with the tank by means of two L-shaped legs, one of which is fixed articulated.

The disadvantages of this device are the following:

low efficiency of the device due to the incomplete use of bactericidal radiation of ultraviolet lamps;

-lack of the possibility of this design to save energy;

- the lack of compactness in the design, which makes it bulky, the need to use a large area, as well as the cost of the device.

The problem to which the claimed utility model is directed is to create an inexpensive and simple in design device for disinfecting liquids, providing high efficiency of the device. In this case, the achievement of the following technical and economic results should be ensured:

- the maximum possible use of bactericidal radiation from an ultraviolet lamp;

-increase in energy saving;

-high performance and fast enough payback.

A device is proposed for disinfecting a liquid, for example, drinking water in a passenger carriage, comprising a liquid disinfecting chamber with inlet and outlet nozzles, a bactericidal radiation source, a screen transmitting this radiation and separating the radiation source from the water disinfection chamber.

The achievement of these technical results is achieved due to the fact that it is equipped with a tank installed at the same level with the liquid disinfection chamber to ensure vertical movement of the liquid along the radiation source. In this case, the tank wall is equipped with a holder for the liquid disinfection chamber, and the outlet pipe of the tank is located under the inlet and is connected to the inlet pipe of the liquid disinfection chamber, which is made in the form of a pipe vertically installed in the holder with the inlet pipe in its lower part and the output in the upper part, and threaded bushings are fixed at its ends, on which screw caps are installed on the outside. The screen is made in the form of a transparent tube concentrically mounted on the bushings inside the chamber with the formation of a narrow tube with an inlet and outlet openings connected to the corresponding chamber nozzles, the source of bactericidal radiation being placed in the center of the said tube on its geometric axis.

The inventive utility model can be recognized as meeting the requirements of novelty, since no analogue has been found, characterized by features identical to all the essential features of the proposed utility model.

the proposed utility model meets the requirements of industrial applicability, since it is manufactured and used in industry to ensure that the technical result seen in this application is achieved.

The essence of the claimed device for disinfecting liquids is illustrated by the following drawings;

FIG. 1 is a general view of a device for disinfecting a liquid;

FIG. 2 is the same, view A;

FIG. 3 - the same, remote element (section) B;

FIG. 4 - the same, external element B.

The proposed device for disinfecting a liquid contains (see FIG. 1, 2, 3, 4) a chamber 1 for disinfecting a liquid, a source 2 of bactericidal radiation (see FIG. 3), a screen 3 see FIG. 3, 4), which transmits this radiation and separates the radiation source 2 from the liquid disinfection chamber 1, the tank 4 to ensure vertical movement of the liquid along the radiation source 2. Tank 4 (see Fig. 1, 2) has an upper input 5 and lower output 6 the nozzles, as well as the holder 8 (see Fig. 2) of the camera 1 fixed on the front wall of the tank 4 of the camera 1. The camera 1 is made in the form of a pipe 9 vertically installed in the holder 8 (see Fig. 2, 3, 4) with its located the lower part of the inlet 10 pipe, and in its upper part - the output 11 pipe, and at the ends of the pipe 9 closed slivers threaded sleeve 12 (with internal and external thread) with external screw-cap 13 (see FIGS. 1, 2, 3, 4). The screen 3 is made (see Fig. 3, 4) in the form of a transparent tube (for example, quartz) concentrically mounted on the sleeves 12 inside the chamber 1 with the formation of a narrow channel 14, annular in cross section, with an input and output connected with the corresponding nozzles of the chamber 1 (the input of the channel 14 is connected to the input 10 of the pipe, and the output of the channel 14 is connected to the output of the camera 1). A bactericidal radiation source 2 is placed in the center of the chamber 1 (in other words, in the center of the pipe 9) on its geometric axis.

As the source 2 of bactericidal radiation can be used, for example, quartz ultraviolet emitter. The emitter 2 using a cable 15 is connected to the power supply unit 16 mounted on the free wall of the tank 4.

As a tank 4, a thermoelectric cooler (OTE, TU 42-97, DGIL 70.1412001 TU) is used, in which there is drinking chilled boiled water for a train car. The outlet pipe 11 of the chamber 1 is connected to a taps (not shown in FIG.).

A device for disinfecting a liquid works as follows (see Fig. 1, 2, 3, 4). The toggle switch of the power supply 16 includes a voltage supply to the bactericidal radiation source 2. After 10 sec. the radiation source 2 enters the operating mode, in which a stream of ultraviolet radiation is formed, which ensures the maximum possible elimination of bacteria in the irradiated liquid. After that, through the outlet 6 of the pipe 4 of the tank 4 turn on the water supply (for example, chilled boiled water) into the chamber 1 through the inlet pipe 10. In this case, the water enters a narrow, annular in cross section channel 14 between the screen 3 and the camera 1 and with its vertical movement along the radiation source 2, flowing around the surface of the screen 3 (i.e., the surface of the transparent tube), the water is treated with ultraviolet radiation from the entire surface of the bactericidal radiation source 2. The dimensions of the annular in cross section of the narrow channel 14 are designed so that

at a fluid speed of 30 l / h in the chamber, the emitter provides the maximum possible elimination of bacteria in the water.

Disinfected water is fed through the pipe 11 of the chamber 1 to a water tap, from which water is poured, for example, into a glass or a decanter.

Thus, from the foregoing, the following advantages of the proposed device for disinfecting liquids are obvious:

- The design is simple and low cost;

- ensures the maximum possible use of the entire surface of the source of bactericidal radiation;

-construction provides view performance, complete elimination of bacteria in the disinfected liquid, reliability in operation;

-economic energy consumption.

Sources used in the description of the utility model:

1. A device for sterilizing water in a passenger carriage. Utility model. Certificate of the Russian Federation No. 4721, M.cl. 1996

2. A device for disinfecting water in a passenger car. Utility model. Certificate of the Russian Federation No. 5966, M.cl. 1997 (Prototype).

Applicant: AOOT RIF General Director of AOOT RIF

Authors:

you.

new A.S. Varlamov S.A. Didenko I.B. Sanin V.N.

Claims (1)

A device for disinfecting a liquid, comprising a liquid disinfecting chamber with inlet and outlet nozzles, a bactericidal radiation source, a screen transmitting this radiation and separating the radiation source from the liquid disinfecting chamber, characterized in that it is provided with a tank for ensuring vertical movement of the liquid along the radiation source with the inlet and an outlet pipe and a holder of said chamber mounted on the front wall of the tank, wherein the liquid disinfection chamber is made in the form of a vertical installed in the pipe holder with the inlet pipe located in its lower part and the outlet pipe in its upper part, and threaded bushings with external screw caps are fixed at the pipe ends, while the screen is made in the form of a transparent tube concentrically fixed to the bushings inside the chamber with the formation between the camera and the screen of a ring-shaped in cross section of a narrow channel, the input and output of which are connected to the corresponding nozzles of the camera, and the source of bactericidal radiation is placed in the price D camera on its geometrical axis.