RU124258U1 - WATER DISPENSER - Google Patents

Abstract

1. A water dispenser containing a housing, in the upper part of which shoulders are made and a funnel for the neck of an inverted bottle of water is located, characterized in that it is provided with a casing for the bottle, which has at least one side wall and a roof, and in the side the casing wall is provided with a window longitudinal in height. 2. The water dispenser according to claim 1, characterized in that the window is closed with a transparent material. The water dispenser according to claim 1 or 2, characterized in that the height of the side wall is greater than the distance from the bottom of the bottle to the top of the funnel or shoulders to form a cavity between the casing cover and the bottom of the bottle, and the dispenser is equipped with an ultraviolet irradiation source for placement in said cavity. . The water dispenser according to claim 3, characterized in that the irradiation source is mounted on the casing cover and is equipped with control elements. The water dispenser according to claim 4, characterized in that the control elements comprise a time relay. The water dispenser according to claim 5, characterized in that it is equipped with permanent magnets located in the lower part of the casing. The water dispenser according to claim 1, characterized in that the casing is made of an elastic material, mainly fabric. The water dispenser according to claim 1, characterized in that the casing is made of plastic. The water dispenser according to claim 1, characterized in that the lateral surface of the casing wall has a cylindrical shape. The water dispenser according to claim 1, characterized in that the casing has a prismatic surface, and the number of its side walls is equal to the number of sides at the prism. The water dispenser of claim 10, characterized in that it is equipped with at least one ultraviolet radiation source for placement

Description

The utility model relates to devices (they are also called coolers) for the preparation and bottling of water from bottles and can be used in offices and at home.

Water dispensers (water coolers) are known, containing a body, in the upper part of which shoulders are made and a funnel for the neck of an inverted water bottle is located, and in the body of the device for cooling and heating water, for the filling of which there are taps with locking devices (see US patents for inventions No. 778012, 04/27/1904 or US No. 4629096, 12/16/1986, or RU patent for utility model No. 107789, 08/27/2011).

A disadvantage of the known dispensers is the restrictions on their installation in places illuminated by the sun during the day, which can lead to clouding of the water, especially at low flow rates. In addition, the lack of guaranteed control over the quality of bottled water and the possibility of reducing the quality of water after its preparation, i.e. during bottling, can lead to its delivery to the consumer with insufficient quality that does not meet the requirements of SanPiN 2.1.4.1074-01 "Drinking water. Hygienic requirements for water quality of centralized drinking water supply systems. Quality control" and recommendations of the International Association of Bottled Water Manufacturers (BAW) , especially after long-term storage of bottled water. The presence of water heating in dispensers adversely affects the reliability of its operation as a result of scale deposits. The use of known devices for the integrated treatment (preparation) of water, incl. ultraviolet radiation and a magnetic field (see, for example, RU patent for invention No. 2443638, 02/27/2012) immediately before use, they will require structural changes inside existing water dispensers and a significant increase in their dimensions. The technical problem for which the proposed utility model is intended is to expand the possible installation sites (universality) of dispensers, as well as improve the quality of water consumed and increase the reliability of their work without actually constructive changes inside the dispenser housing.

The solution to the first problem is achieved by the fact that the water dispenser cooler comprises a housing, in the upper part of which hangers are made and a funnel is located for the neck of an inverted bottle of water, characterized in that it is equipped with a housing for the bottle, which has side walls and a roof, and a side window of the casing is provided with a window longitudinal in height, which can be covered with transparent material.

The solution to other problems is achieved by the fact that the height of at least one side wall is greater than the distance from the bottom of the bottle to the upper edge of the funnel or shoulders of the housing to form a cavity between the cover of the casing and the bottom of the bottle, and the dispenser is equipped with an ultraviolet radiation source for placement in the said cavity, moreover, the radiation source can be mounted on the cover of the casing and is equipped with controls with a time relay. Permanent magnets located in the lower part of the casing are provided for the magnetic treatment of water. The casing itself may be made of fabric, leather or its substitute or plastic. In addition to the cylindrical shape of the casing, it is possible to carry out its prismatic shape and supply the dispenser with at least one ultraviolet radiation source for placement in one of the cavities formed between the cylindrical surface of the bottle and one of the corners of the prism.

The utility model is illustrated by the drawing, where in Fig. 1 a conditional dispenser is shown, side view; figure 2 - shows a casing of a prismatic shape, top view.

The water dispenser has a housing 1, in the upper part of which hangers 2 are made and a funnel 3 is located for the neck of the inverted bottle 4 with water. The casing 5 for the bottle 4 has at least one side wall 6 with a cylindrical surface or several, according to the number of sides of the prism with a prismatic shape of the side surface and a cover 7. In the side wall 6 there is a longitudinally heightwise window 8 that can be closed transparent material. The height of the side wall 6 Ns with the cylindrical shape of the casing 5 or the walls 6 with its prismatic shape is greater than the distance from the bottom of the bottle 4 to the upper edge of the funnel 3 or shoulders 2 - Нп. In the cavity between the lid 7 and the bottom of the bottle 4, an ultraviolet (UV) radiation source 9 is installed, having control elements 10 with a time relay. Permanent magnets 11 are located in the lower part of the casing, on its inner side, where the body of the bottle goes into the neck, 11. The casing itself can be made of fabric and have pockets (not shown) for magnets 11 or of plastic with any of their known elements fastenings. When performing a prismatic casing, at least one UV radiation source 9 can be installed in a cavity 12 formed between the cylindrical surface of the bottle 4 and one of the corners of the casing prism 5.

The water dispenser operates as follows. After installing the bottle 4 inverted and the neck in the funnel 3, put the casing 5 on the bottle 4 until it stops in the shoulders 2 or fix the casing with the help of the funnel 3, resting it on its upper edge. The execution in the casing 5 longitudinal in height, approximately to the height of the body of the bottle 4, the window 8, closed with a transparent material, allows you to control the level of remaining water in the bottle and timely replace it with a full one. The presence in the cavity of any of the known sources of UV irradiation 9 allows UV treatment of water in the absence of the need for the introduction of additional reagents that can change the organoleptic characteristics of the product, which is especially important for food products. Processing should be carried out in the wavelength range of 205-315 nm with maximum efficiency in the region of 260 ± 10 nm. The disinfecting effect of UV radiation is primarily due to the photochemical reactions occurring under its influence in the structure of DNA and RNA molecules, leading to their irreversible damage. In addition, the effect of UV radiation causes disturbances in the structure of membranes and cell walls of microorganisms. All this ultimately leads to their death. The presence of controls 10 with a time relay, allow you to turn on and off the radiation source 9 and adjust the time of UV processing. An additional effect on the water with a magnetic field is carried out by permanent magnets 11 installed in any known manner, for example, in the pockets of the casing 5 to provide the necessary magnitude of magnetic tension, as well as creating a magnetic field, which when changing from pole to pole of magnets 11 reverses direction. The location of the magnets 11 in the lower part of the casing 5 reduces their required power to ensure the necessary level of magnetic permeability in the narrowing zone of the water thickness - bottle neck 4. The exposed water does not acquire any side, and even more harmful to human health properties, does not change the salt composition and retains taste. It should be borne in mind that the effect of magnetic treatment manifests itself over a certain period of time - no more than 5 days, during which the so-called relaxation of water occurs. Magnetic treatment does not reduce the necessary level of salts in the water; it reduces the likelihood of their deposition as scale in a water dispenser. The execution of the casing 5 is rigid, for example, made of plastic, after putting it on the shoulders 2 of the housing 1. The execution of the casing 5 is non-rigid, for example, made of fabric, can lead to the use of a wire frame to give the casing the desired shape or emphasis UV radiation sources 9 on the cover 7 in the bottom of the bottle 4, or by tightening the cord, which was put into the casing 5, on the neck of the bottle in the zone of the funnel 3. The choice of the form of execution of the casing 5 depends on the available capabilities of its manufacturer, but it allows at least prismatic positioning One source, e.g. UV irradiation, in one of the cavities formed between the cylindrical surface of the bottle 4 and one of the corners of the casing 5 of the prism 5. The water treatment is carried out under the cover occurs immediately before its use by the consumer, which enhances its effectiveness.

Claims (11)

1. A water dispenser comprising a housing, in the upper part of which shoulders are made and a funnel for the neck of an inverted bottle of water is located, characterized in that it is provided with a casing for the bottle, which has at least one side wall and a roof, and in the side a casing wall is provided with a window with a longitudinal height. 2. The water dispenser according to claim 1, characterized in that the window is closed with a transparent material. 3. The water dispenser according to claim 1 or 2, characterized in that the height of the side wall is greater than the distance from the bottom of the bottle to the top of the funnel or shoulders to form a cavity between the casing cover and the bottom of the bottle, and the dispenser is equipped with an ultraviolet radiation source for placement in the said cavity . 4. The water dispenser according to claim 3, characterized in that the irradiation source is mounted on the cover of the casing and is equipped with control elements. 5. The water dispenser according to claim 4, characterized in that the control elements comprise a time relay. 6. The water dispenser according to claim 5, characterized in that it is equipped with permanent magnets located in the lower part of the casing. 7. The water dispenser according to claim 1, characterized in that the casing is made of an elastic material, mainly fabric. 8. The water dispenser according to claim 1, characterized in that the casing is made of plastic. 9. The water dispenser according to claim 1, characterized in that the side surface of the wall of the casing has a cylindrical shape. 10. The water dispenser according to claim 1, characterized in that the casing has a prismatic surface, and the number of its side walls is equal to the number of sides of the prism. 11. The water dispenser of claim 10, characterized in that it is equipped with at least one ultraviolet radiation source for placement in one of the cavities formed between the cylindrical surface of the bottle and one of the corners of the casing prism.

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