UA25045U - Unit for potable water obtaining - Google Patents

Abstract

An unit for potable water obtaining comprises a water flow counter, a gate in the form of electromagnetic valve and an unit for water purification, which form flow circuit and are located in underwater tap water main. The unit is additionally equipped with the system of water flow record and advancepayment for water consumption, comprising a microprocessor, outlet of which is connected with a device for indication display as well as advance payment device, connected with the microprocessor, and the former is equipped with a tool for e-money acceptance and read-out block and directive button. The unit is also equipped with electromagnet valve of treated water delivery, located at the outlet of treatment unit and connected with the microprocessor. At that the gate and water flow counter are also connected to the microprocessor, and the unit for water purification is made from filtering elements and water ozonation module, which is connected to the microprocessor, which are fixed in series in the flow circuit.

Description

Description of the invention

The utility model refers to devices for purifying tap water to obtain drinking water of 2nd quality and can be used in everyday life, in the food industry, in medicine, as well as in the retail network for discrete automatic or semi-automatic bottling of purified drinking water to the general consumer.

The closest in terms of technical essence and the result that is achieved to the useful model that is claimed is a water purification plant | see application of the Russian Federation Mo2004135601, application 07.12.2004, publ. 05/20/2006, M.Kl. 1 50507/00), which includes a water flow meter located in the water supply line, a water purification unit with 710 closing elements that form a circulation circuit.

The known installation is characterized by a low degree of water purification due to the implementation of the purification unit in the form of a mechanical purification device, in which one-stage treatment of water from suspended mechanical impurities and colloidal formations is carried out. The installation has limited functionality, which is due to the inconvenience of its use, low accuracy and efficiency of monitoring the consumption of purified drinking water 12, the impossibility of organizing the release of water to subscribers under the credit payment system. This is due to the lack of appropriate information-measuring and executive devices in its schematic and technical solution.

The basis of the useful model is the task of improving the installation for obtaining drinking water, in which the introduction of new functional elements, as well as the new implementation of individual elements, make it possible to implement effective multi-stage water purification, as well as operational microprocessor processing of technological and economic indicators of the water purification process, which provides a significant improvement quality of drinking water, expansion of technological capabilities of the installation, which consists in the possibility of monitoring and accounting of water consumption from water supply systems and organization of an automated system of dispensing drinking water to the consumer according to the credit payment system.

The problem is solved by the fact that in a known installation for obtaining drinking water, which contains a water flow meter located in the water supply main, a shut-off element in the form of an electromagnetic valve and a water purification unit that form a circulation circuit, in a new, according to the technical solution, is that the installation is additionally equipped with a system for accounting for water consumption and prepayment of water consumption, which contains a microprocessor, the output of which is connected to the display output device, as well as a prepayment device connected to the microprocessor, which has a means for receiving electronic money and a "I reading" unit , directive button, as well as an electromagnetic valve for issuing purified water, located at the outlet of the cleaning unit and connected to the microprocessor, while the closing element and the water flow meter are also connected to the microprocessor, and the water cleaning unit is made of sequentially installed circulation circuits filter modules and ozonation module of water connected to the microprocessor. What is also new is that the water purification unit contains at least a module for preliminary mechanical water purification, a module for ion exchange water purification, a module for sorption water purification, and a module for fine mechanical water purification. What is new is that in the water purification unit, the ozonation module is placed between the ion exchange purification module and the sorption purification module. What is also new is that the indication output device is made in the form of a display and/or means of sound indication, and/or light indication, and/or (35M-module. C 70 Cause and effect relationship between the set of essential features of the installation and the technical the result that c is achieved consists in the fact that the declared set of features, namely: "c" - the equipment of the installation for obtaining drinking water with the system of accounting for water consumption and prepayment of water supply; - the implementation of the filtering device from individual functional modules; - the new implementation and mutual arrangement of individual nodes in the installation in combination with known signs o ensures the improvement of water quality to the established sanitary and hygienic norms of drinking water due to its multi-stage treatment, and also allows accounting and control of the actual volume of water consumption, which is set for the calculation period or by carriers electronic money, thanks to the operative microprocessor processing of technological indicators of purification (water quality and, technical condition of filtering modules), "drive" 20 and economic indicators (tariff cost of water, specified volume of consumption), as well as the organization of the supply of purified water to the subscriber under the credit system with a credit of a specified volume. All this contributes to the expansion of the technological capabilities of the installation, increasing the ease of its use, accuracy and efficiency of control over the consumption of purified drinking water by the consumer.

The essence of the technical solution is explained by the drawing, where in Fig. the functional scheme of the installation 52 for obtaining drinking water is shown. c The claimed installation includes a water consumption meter 2 located in the main water supply line 1, a shut-off element 3, made in the form of an electromagnetic valve, connected to a water purification unit 4, at the output of which an electromagnetic valve 5 for issuing purified water is installed, a system 6 of accounting for water consumption and prepayment of water consumption, which contains a microprocessor 7, the output of which is connected to the device 8 of the output 60 of the indication, the prepayment device 9, which has a means 10 for receiving electronic money and a reading unit 11, a directive button 12, which are connected with the microprocessor 7. The water consumption meter 2, the closing element З and the electromagnetic valve 5 for issuing purified water are also connected to the microprocessor 7.

The water purification unit 4 contains sequentially installed in the circulation circuit and interconnected by pipelines filter modules such as: module 13 of preliminary cleaning from mechanical impurities, which uses a filter with a propylene cartridge; ion exchange water purification module 14, which uses a filter with an anionic layer and a cationic layer located behind it; module 15 of sorption water purification, and which uses a filter with activated carbon; module 16 of fine water purification, which uses a fabric filter.

Between module 14 of ion-exchange water purification and module 15 of sorption water purification, module 17 of water ozonation is placed, which uses a water ozonator of the AQUAMAMA type, manufactured by the Russian

Federation. The task button 18 is also connected to the microprocessor 7.

Counter 2 of water flow is made in the form of an impulse counter of the LK-15x type, manufactured in Ukraine, microprocessor 7 is made in the form of a single-crystal microcontroller of the KM 1816ВЕ51 type. An electronic card in the form of Kiaeg chip cards, barcode readers, and other cash terminals can be used as a carrier of electronic money. A display, a sound indicator-electric bell, a light indicator-a glow lamp or a SOZM-module - a warning message can be used as an indication device.

The installation for obtaining drinking water works as follows.

The installation is in standby mode, as evidenced by the information output to the device 8 for the output 7/5 indication, for example, the display. The consumer enters the carrier of electronic money, for example, an electronic card, into the means 10 for receiving electronic money of the device 9 of prepayment. From the electronic card, through the reading unit 11, information about the amount of prepaid water volume is transmitted to the RAM of the microprocessor 7. Next, the consumer orders the required volume of water using task button 18.

By pressing the directive button 12, the consumer confirms the request and at the same time turns on the ozonation module 17.

After receiving a signal from the directive button 12, the microprocessor 7 processes it, taking into account the specified volume of water, and sends a permission signal to the closing element C (electromagnetic valve for tap water supply), which opens the electromagnetic valve. Through the water flow meter 2, the specified volume of paid water from the water main 1 of the tap water enters the purification node 4. The tap water passes through the filter purification modules 13, 14, 15, 16 and the ozonization module 17, where multi-stage purification of water from harmful impurities is carried out .

At the same time, the water flow meter 2, which recorded the current volume of water that passed through it, sends a signal to the microprocessor 7, which, in turn, processes and compares them with the volume of water specified by the consumer. The microprocessor 7 through the interface of the device 10 for receiving electronic money supplies the electronic card, which is based on energy-dependent non-programmable permanent storage devices, with a signal from the beginning of the recording and reduces the register of the remaining units by the volume of purified water, after which it outputs to the device 8 of the indication output - displays information about the end of the operation of the installation and sends a closing signal - to the closing element C and electromagnetic valve 5 for the release of purified water. During the operation of the installation, the microprocessor 7 also monitors the operation of the water purification unit 4. For this, the microprocessor 7 is programmed taking into account the limit of the cleaning resource of the filter modules 13, 14, 15, 16. When the resource limit of any of the filter modules is reached, the microprocessor 7 sends a signal that is transmitted to the alarm output device 8, which warns the operator about the need replacement of the cartridge in the corresponding filter module. The operation of the ozonation module 17 is also controlled by the microprocessor 7. In the event of malfunctions (failure of the ozonator or others), the microprocessor 7 generates a signal that is sent to the locking element C to block it and automatically turn off the ozonator. "

If it is impossible to replace the cartridge in time or for other reasons, the microprocessor 7 gives a command to the closing element C (electromagnetic water flow valve), located in the supply line 1 of tap water, to block its supply. c Purified drinking water has the following indicators: smell - O.9PR, aftertaste - O.8PR, turbidity - O15НОМ; total hardness - 1.4 mg.eq/dm?, chloroform content - 29.Omkg/dm3. Comparison of indicators of drinking water purified by the proposed installation with the requirements proposed for drinking water in accordance with the "State sanitary regulations and norms of Ukraine" Mo383 dated 12.23.1996. showed that all indicators are significantly lower, and the content of chloroform is reduced by 2-3 times. This testifies to the high quality of drinking water, it has high physiological completeness and mineralogical composition and organoleptic properties. aw! The use of the installation for obtaining potable water, which is applied for, will improve the quality of potable water, ensure highly effective control of water consumption at any time, both pre-paid and provided on credit, as well as the possibility of paying for the volume limit chosen by the subscriber, control and accounting when this limit is exhausted; stimulates the water supplier to care about water quality, and the consumer - to careful consumption of it.

The industrial applicability of the claimed utility model is confirmed by the possibility of manufacturing the claimed water purification plant on known equipment using known materials. with

Claims (4)

The formula of the invention 60 1. Installation for obtaining drinking water, which contains a water flow meter, a shut-off element in the form of an electromagnetic valve, and a water purification unit, which form a circulation circuit, which are located in the water supply line of the water main, which is distinguished by the fact that the installation is additionally equipped with a water flow accounting system and prepayment of water consumption, containing a microprocessor, the output of which is connected to the display output device, as well as a prepayment device connected to the microprocessor, which has a means for receiving b5 electronic money and a reading unit, a directive button, as well as an electromagnetic valve for issuing purified water, located on at the output of the cleaning unit and connected to the microprocessor, while the closing element and the water flow meter are also connected to the microprocessor, and the water cleaning unit is made of filter modules installed in series in the circulation circuit and the water ozonization module connected to the microprocessor. 2. Installation for obtaining drinking water according to claim 1, which is characterized by the fact that the water purification unit contains at least a preliminary mechanical water purification module, an ion exchange water purification module, a water sorption purification module, and a fine mechanical water purification module. C. Installation for obtaining drinking water according to claims 1, 2, which differs in that in the water purification unit, the ozonation module is placed between the ion exchange purification module and the sorption purification module. 70 4. Installation for obtaining drinking water according to claims 1-3, which differs in that the display output device is made in the form of a display and/or means of sound indication, and/or light indication, and/or (35M-module. » 2 And in ) "And (av) And c) p - a ko 1 (av) t» sl bo b5