BG1109U1 - Device for ultraviolet water treatment - Google Patents

Abstract

The device for ultraviolet water treatment is fit for disinfection of small quantities of water up of to 500 ml, and it is good for multiple use. It can be used in cases of problems concerning the purity of the drinking water. The device comprises ultraviolet light-emitting diodes (2) emitting dosed radiation in the antibacterial spectrum, and a mobile cylindrical light conductor (1), which serves for leading of the UV radiation and for its penetration into the whole volume of the vessel with the water. The light-emitting diodes (2) are charged by batteries or an accumulator (3) placed together with them inside a casing (4). The time of radiation of the UV light-emitting diodes (2) is set by a timer (5), while a key (6) serves to switch the device on and off.

Description

The utility model refers to a device for ultraviolet purification of small quantities of water and can be used in civil protection after natural disasters, when the problem of drinking water purity is present; in the army in the execution of various missions, as well as in expeditions carried out in conditions of problems with the purity of the water.

BACKGROUND OF THE INVENTION

Water treatment systems known to use low pressure cathode fluorescent mercury lamps emitting in the UV range described in US 6110424 and US 5 900 212 are known.

In these systems, the lamp requires high-voltage AC power, and the system is unusable when the lamp is burned.

In addition, mercury lamps have low mechanical strength, making them unsuitable for portable water treatment systems and needing a certain "warm-up" time, which in turn is associated with faster discharge of limited capacity batteries.

Also known is a portable, manual purification system for small batches of water that uses a dimensioned configuration of solid-state devices, such as ultraviolet LEDs, producing ultraviolet light in the antibacterial range (US 6579495 B1). This system works when the configuration of the LEDs is submerged in water and the instruments are turned on to purify it from the infectious agents. The LEDs are sealed and housed in a housing that is part of a watertight box. At the heart of the LED configuration is a fluid level sensor that protects the UV LEDs from turning on until they are fully immersed in water. The water treatment system may also include a timing circuit that will keep the instruments illuminated for a predetermined time and then turn them off. Using LED technology, the system solves most of the problems of the former, but the immersion of the LED configuration in the water necessitates the requirement for sealing the instrumentation, as well as having an additional level sensor. In addition, LEDs, such as point sources of UV radiation immersed in water, do not guarantee uniform radiation of the entire volume.

The technical nature of the utility model

The task of the utility model is to create a device for ultraviolet purification of small amounts of water (up to 500 ml), which allows even UV irradiation of water through UV LEDs without having to be submerged in water. The UV LEDs, as the source of radiation in the device, are selected to emit metered radiation in the range 250-370 pt and to provide sufficient UV radiation for water disinfection. For the uniform penetration and propagation of UV radiation throughout the volume, a cylindrical light guide (hollow or dense) is attached to the LEDs, with machined walls made of material allowing UV radiation to propagate. The end of the fiber that is immersed in the water can be shaped as a spherical or aspherical surface.

Having a key ensures that the device is switched on and off. The irradiation time is preset by a timer. Power to the components of the device may be provided by batteries or an alternative source.

The benefits of the utility model are that when using a light guide, the LEDs stay out of the water tank and no waterproofing is required, as well as a liquid level sensor.

The light guide provides the ability to evenly penetrate UV radiation throughout the volume and can be cleaned quickly and easily from waste bioproducts.

Explanation of the attached figure

Figure 1 is a diagram of the device.

Examples of implementation of the utility model

The utility model is illustrated by an exemplary embodiment according to which the device includes a moving quartz light guide 1 which can

1109 W is in the form of a thick or hollow cylinder, with polished or matted sides, and a concave or convex spherical or aspherical surface may form at the end of the dip in water. The device also incorporates ultraviolet LEDs 2 emitting a specified wavelength from the ultraviolet region of the spectrum (250-370 pt), which are fed by batteries or a battery 3 housed in a housing 4. The timing of the duration of the LEDs is set by a timer 5 located at the top of the housing 4. The device is switched on and off by means of a switch 6.

Using the utility model

The water purification device, which consists of a moving light guide and UV LEDs emitting a specified wavelength, works as follows. Once it is established that the water does not meet the requirements of the relevant normative documents (BDS - 2823/1975 and ordinance No 9 / 16.03.2001 of the Ministry of Regional Development and Public Works and the Ministry of Environment and Water), the time is set. for operation (from 1 to 5 min) of the LEDs 2 via the timer 5. Then to the end of the housing 4, where the LEDs are placed 2, screw the light guide 1 and immerse it in the water vessel. The LEDs 2 are powered by batteries or accumulator 3 after the switch 6 is turned on. After the expiration of the timer set 5, the LEDs 2 are switched off with the switch 6 and the device is removed from the water tank. The light guide 1 extends from the end of the housing 4 and is cleaned.

Claims

Claims (3)

A UV water purification device comprising a housing (4) in which one or more LEDs (2) are connected, connected to a power source (3), a timer (5) is provided to set the irradiation time. for switching the device on and off - key (6), characterized in that it also contains a detachable light guide (1) mounted on the housing (4). 2. The ultraviolet water purification device according to claim 1, characterized in that the light guide (1) is formed as a tight cylinder with polished or matted sides, and at its end, submerged or convex spherical or aspherical surface, formed in the water. . An ultraviolet water purifying device according to claim 1, characterized in that the light guide (1) is constructed as a hollow cylinder with polished or matted sides.