WO2023234804A1

WO2023234804A1 - Device for automatically sanitizing drinking water dispenser tanks

Info

Publication number: WO2023234804A1
Application number: PCT/RU2023/050039
Authority: WO
Inventors: Сергей Игоревич ОЗЕРОВ
Original assignee: Сергей Игоревич ОЗЕРОВ
Priority date: 2022-05-31
Filing date: 2023-02-27
Publication date: 2023-12-07

Abstract

The utility model relates to devices for sanitizing technical equipment for dispensing drinking water, in particular coolers and purifiers. A device for automatically sanitizing drinking water dispenser tanks comprises a filter, a pump, and water intake and discharge lines connected to the inlet and outlet of the pump respectively. The pump is connected to a timer and to a pulse width modulator so that the timer is capable of activating the pump in a time-adjustable manner, and the pulse width modulator is capable of altering the current intensity in an electrical circuit for adjusting the pressure of the water circulating through the pump in the tank to be sanitized in order to form, at the outlet of the discharge line, turbulent flows of water along the walls of the tank to be sanitized, and to clean the walls of the tank by means of said flows. The filter is mounted in the water discharge line. A filtering element of the filter contains non-woven polypropylene, silver-impregnated activated coconut charcoal, a fibrous cation exchanger, and a hydrophilic membrane, which are provided in the form of discs and are arranged in alternate layers from top to bottom inside an inner cavity of a filter housing. The fibrous cation exchanger is in the form of a staple or non-woven fibre. The result is that of providing better quality cleaning of water tanks without directly dismantling a dispenser.

Description

DEVICE FOR AUTOMATIC SANITATION OF TANK INSTALLATIONS FOR DRINKING WATER FILLING

DESCRIPTION OF THE UTILITY MODEL

The utility model relates to devices for sanitary treatment of technological equipment for bottling drinking water, in particular, coolers and purifiers [B67D1/00, B67D3/0003].

Known FILLING APPARATUS AND METHOD FOR ITS CLEANING [RU 2394751, published: 07/20/2010], containing a source of product; flow meter for determining the flow rate of the product passing through the filling apparatus; a cleaning system and a controller that compares the flow rate of the product passing through the filling device, determined by the flow meter, with the initial flow level of the specified product and activates the cleaning system at a given point in time, if the flow rate of the product passing through the specified device does not exceed the initial flow level, as well as introducing delay in initiating the cleaning cycle of the device if the flow rate of the product passing through the specified device exceeds the initial flow rate.

The main technical problem of the prototype is:

- low quality of cleaning;

- lack of an automatic sanitation system.

A DEVICE FOR OBTAINING A WORKING SOLUTION IN A PRESSURE PIPELINE [RU 205749, published: 08/06/2021] is known, including a tee installed along its length with a fitting with a plate with a hole located between them and a hermetically sealed container for a mother solution of high concentration with a pipeline from its lower part and a shut-off valve directly at the tee fitting, with free space in the upper part of the tank with an air supply, characterized in that the mother solution is injected directly into the pressure pipeline supplying water to the nozzles through a calibrated hole and the injection speed and, as a result, the concentration of the resulting working solution is determined by the air pressure in the container, the constant value of which is at a set level is provided by a gas reducer from the enterprise network, a compressor or an air cylinder.

The main technical problem of the prototype is:

- low quality of cleaning;

- lack of an automatic sanitation system.

The closest analogue is a PORTABLE WATER PURIFIER [KR 20220048733 (A), published: 04/20/2022], containing partitions for dividing the container into the first and second sump; a water tank in the upper part of the housing, filters, a device for water circulation, a pump is connected to the upper part of the housing, and the second filter assembly, including the pump, supplies water from the second sump through the second filter assembly.

The main technical problem of the prototype is:

- low quality of cleaning;

- lack of an automatic sanitation system.

The technical result of the utility model is to improve the quality of cleaning tanks of drinking water bottling installations by using automatic sanitation.

The specified technical result is achieved due to the fact that a device for automatic sanitation of tanks of drinking water bottling installations, containing a filter, a pump and water intake and discharge lines connected to the inlet and outlet of the pump, respectively, characterized in that the pump is connected to a timer and a pulse-width modulator with the possibility of time regulation using a timer for turning on the pump and changing the current strength in the electrical circuit using a pulse-width modulator to regulate the pressure of water circulated through the pump in the tank being sanitized to form turbulent flows of water at the outlet of the main line along the walls of the tank being sanitized and cleaning the walls of the tank with these flows, A filter is installed in the water discharge line.

In particular, the filter filter element contains non-woven polypropylene, activated coconut carbon with silver, a fibrous cation exchanger, a hydrophilic membrane, made in the form of disks and alternately laid in layers from top to bottom in the internal cavity of the filter housing.

In particular, the fibrous cation exchanger is made in the form of staple fiber. In particular, the fibrous cation exchanger is made in the form of a non-woven fabric.

Brief description of the drawings.

In fig. Figure 1 shows a device for automatic sanitation of tanks of drinking water bottling installations in the embodiment of placing a filter inside the tank.

In fig. Figure 2 shows a device for automatic sanitation of tanks of drinking water bottling installations in the embodiment of placing the filter outside the tank.

In fig. Figure 3 shows a longitudinal section of the filter.

The figures indicate: 1 - filter, 2 - pump, 3 - intermediate tube, 4 - intake tube, 5 - housing, 6 - power supply, 7 - timer, 8 - pulse width modulator, 9 - filter housing, 10 - cover , 11 - fitting, 12 - filter element, 13 - non-woven polypropylene, 14 - activated coconut carbon with silver, 15 - fibrous cation exchanger, 16 - hydrophilic membrane, 17 - outlet fitting, 18 - additional tube.

Implementation of a utility model.

The device for automatic sanitation of tanks of drinking water bottling installations contains a filter 1 (see Fig. 1) and a pump 2.

The device for automatic sanitation of tanks of drinking water bottling installations also contains a water intake line and a water discharge line. The water intake line is formed by pump 2 and intake tube 4. One end of intake tube 4 is connected to the inlet of pump 2, and the other end of intake tube 4 is freely placed in the drinking water bottling tank. The water discharge line is formed by pump 2, intermediate tube 3 and filter 1, with one end of the intermediate tube 3 connected to the output of pump 2, and the other to fitting 11 of filter 1.

Pump 2 is connected to timer 7 and pulse-width modulator 8.

Pump 2, timer 7, pulse-width modulator 8 are mounted in a separate housing 5. Pump 2, timer 7 and pulse-width modulator 8 are powered from power supply 6.

In particular, the filter 1 may include a filter housing 9 (see Fig. 3) with a cover 10 and a fitting 11, a filter element 12. The filter element 12 is located in the internal cavity of the filter housing 9. The filter element 12 of the filter 1 contains non-woven polypropylene 13, activated coconut carbon with silver 14, fibrous cation exchanger 15, hydrophilic membrane 16. Non-woven polypropylene 13, fibrous cation exchanger 15, hydrophilic membrane 16 are made in the form of disks and alternately laid in layers from top to bottom in the internal cavity of the filter housing 9. Activated coconut carbon with silver 14 is made in the form of granules and is poured into the filter housing 9 between non-woven polypropylene 13 and fibrous cation exchanger 15.

In particular, the fibrous cation exchanger 15 can be made in the form of non-woven or staple fiber.

A device for automatic sanitation of tanks in drinking water bottling installations operates as follows.

The power supply 6 is connected to the network, the timer 7 is used to set the time interval and how often the pump 2 will be turned on for automatic sanitation of the tanks.

By changing the current strength in the electrical circuit using a pulse-width modulator 8, the required speed of pumping water from the tank being sanitized is established.

After turning on the power supply 6, the electrical signal converted by the pulse-width modulator 8 is supplied to the pump 2, the rotor of which, rotating at a given frequency, through the intake tube 4 ensures the intake of water from the installation tank and directs it with the required pressure through the intermediate tube 3 to the filter 1. Cleaned in filter 1, water exits through holes located in the bottom of the filter housing 9 into the installation tank.

When installing filter 1 outside the tank of a drinking water bottling installation (see Fig. 2), the filter housing 9 is sealed, and on the bottom of the filter housing 9 an outlet fitting 17 is installed with an additional tube 18, the free end of which is placed in the tank of the drinking water bottling installation. water. In this embodiment, the water purified in filter 1 exits through an additional tube 18 into the installation tank.

The use of filter 1 ensures cleaning of the sanitized tank of the installation and water with the required quality.

The use of pump 2 ensures that water is taken from the tank being sanitized and transported to filter 1.

The presence of a separate housing 5 with a power supply 6, a timer 7 and a pulse-width modulator 8 located in it allows, depending on the design features of the installation for bottling drinking water, install it both in the body and outside the body of the installation being sanitized.

The presence of a timer 7 in the device allows the operator to set the turn-on time of the pump 2 and the duration of its operation once, thereby ensuring automatic sanitation of the installation tank without direct human intervention.

The use of a pulse-width modulator electrically connected to pump 2 allows, depending on the contamination of the tank, to set the required pressure and ensure the required flow rate from the purified water discharge line, which, in turn, forms turbulent flows along the walls of the tank being sanitized, and additionally helps clean the tank without directly disassembling the installation tank.

The use of non-woven polypropylene 13 makes it possible to remove particles larger than 5 microns from the tank being sanitized.

The use of activated coconut carbon with silver 14 allows you to suppress the reproduction and development of bacteria in the tank, remove harmful odors and gases, chlorine, and improve the organoleptic characteristics of water.

The use of fibrous cation exchanger 15 in the form of non-woven or staple fiber makes it possible to remove iron and heavy metal ions, such as lead, cadmium, manganese, mercury, copper, nickel, etc., from drinking water, while maintaining the natural ionic composition of the water.

The use of hydrophilic membrane 16 makes it possible to clarify water and remove bacteria from it.

The use of a device for automatic sanitation of tanks of drinking water bottling installations ensures improved quality of tank cleaning without direct disassembly of the installation.

Claims

UTILITY MODEL FORMULA

A device for automatic sanitation of tanks of drinking water bottling installations, containing a filter, a pump and water intake and discharge lines connected to the inlet and outlet of the pump, respectively, characterized in that the pump is connected to a timer and a pulse-width modulator with the ability to regulate time using a timer turning on the pump and changing the current strength in the electrical circuit using a pulse-width modulator to regulate the pressure of water circulated through the pump in the tank being sanitized to form turbulent flows of water at the outlet of the line along the walls of the tank being sanitized and cleaning the walls of the tank with these flows, a filter is mounted in the water discharge line.

A device for automatic sanitation of tanks of installations for bottling drinking water, according to claim 1, characterized in that the filter element of the filter contains non-woven polypropylene, activated coconut carbon with silver, fibrous cation exchanger, hydrophilic membrane, made in the form of disks and alternately laid in layers from top to bottom in the inner cavities of the filter housing.

A device for automatic sanitation of tanks in drinking water bottling installations, according to claim 2, characterized in that the fibrous cation exchanger is made in the form of staple fiber.

A device for automatic sanitation of tanks of drinking water bottling installations, according to claim 2, characterized in that the fibrous cation exchanger is made in the form of a non-woven fabric.

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