RU2668680C2 - Autonomous water supply system - Google Patents

Abstract

FIELD: water supply systems.SUBSTANCE: invention relates to water supply systems with decentralized water heating and can be used in autonomous water supply systems both in the home and in the field. Autonomous system contains water reservoir (1) and main (2) water distribution from reservoir (1) of water reservation. Water supply line (2) is equipped with control unit (3), water intake means (4), pump (5), water heating device made in the form of heat exchanger (6), water dispenser (7), pressure sensor (8), operation indicator (9) and temperature sensor (11). Pump (5) is connected to water supply line (2) between water reservoir (1) and water dispensers (7). Pressure sensor (8) is connected to the input of control unit (3), system operation indicator (9) and temperature sensor (11), and output of control unit (3) is connected to pump (5). As a heating element for heating water, an electric lamp is used, mostly flood light bulb (12), located inside heat exchanger (6). In water dispensers (7), water saving nozzles installed at the outlet of the drainage branch of each water dispenser are used, which ensure a water discharge in the range of 0.3–1 liters per minute.EFFECT: provides satisfaction of sanitary and hygienic needs of a person with a minimum water consumption and a minimum consumption of electricity.3 cl, 1 dwg

Description

The invention relates to water supply systems with decentralized water heating and can be used in stand-alone water supply systems both at home and in the field.

The value of water for the human body is extremely high, its deficiency can lead to deterioration, as well as to disorders of the body.

In a number of areas where a person lives, both permanent and temporary, for example, on a rotational basis, the issue of constant water supply is an acute issue.

Water sources that do not have sufficiently large reserve capacities cannot provide human homes with an uninterrupted supply of water. Water flows intermittently. In some areas there is a discrete regime of water supply. To ensure comfortable conditions, compliance with safety and environmental requirements with low water consumption and minimal energy consumption, the development of a special device for supplying flow-accumulating water was required.

The creation of reliable and efficient water supply systems at the modern level is an urgent task for individual regions and a serious problem for many regions of human habitation and for field conditions. Such a device is an autonomous water supply system that provides hot / cold water for the sanitary and hygienic needs of a person when washing, brushing teeth, shaving, taking a shower, washing dishes, cooking, etc., as well as other household and industrial needs minimum water consumption (from 0.3 to 1 liter per minute) and minimum power consumption (up to 1 kW).

From patent sources known autonomous water supply system according to the patent of the Russian Federation No. 2081255. class ЕВВ 7/04, 1997 (prototype), containing a water reserve tank and an ox distribution line from the water reserve tank, while the water distribution line is equipped with a control unit, water intake means with a pump, water heating means made in the form of a heat exchanger, water distribution means, and also a pressure sensor, an indicator of the system, photodetectors and a temperature sensor, while the pump is connected to the water distribution line between the water reserve tank and water distribution means, and to the inlet of the control unit Lenia respectively connected pressure sensor system operation indicator, photodetectors and a temperature sensor, a control unit connected to the pump outlet. In all flow-accumulating-type water heaters currently being manufactured, water is heated as it moves through heat-transferring elements, usually spiral, in the form of heating elements or similar heaters and is supplied to water-distributing devices (faucet, shower, etc.) with 6-13 liters per minute or more. In this case, direct contact of the working fluid of the heater with water is fraught with the deposition of scale on these elements (if water is used for sanitary and hygienic needs, it is forbidden to add various chemical means to protect it from scale), which leads to a reduction in the service life of spirals, heaters or the like heaters and failure of the entire water heater.

In this constructive and technical development, an autonomous water supply system is characterized in that an incandescent lamp with a power consumption of up to 1 kW, which for 5 - 5 years, is used as a means for heating water (instead of the spiral ones currently used in water heaters, in the form of heating elements or the like) 10 seconds provides heating of water to 47 ° C and its supply to the consumer through water dispensing devices (faucet, shower, etc.) with a flow rate of 0.3 to 1 liter per minute.

In order to ensure increased electrical safety, the incandescent lamps used (projection, halogen and the like) are located inside a heat exchanger of a special design made of a wound copper tube for water flow (to ensure galvanic isolation from the power supply to the lamp). To maintain heat, a heat exchanger with heating elements is placed in a casing made of porcelain or other low heat-conducting materials.

The well-known autonomous water supply systems, including the prototype, are designed taking into account the current international norms of water flow through a tap - 6–9 liters per minute (see “Problems of Space Biology”, Volume XXIV: Chizhov SV, Sinyak Yu.E. Water supply for spacecraft crews, M: Nauka, 1973, p. 16, 17). Although this is too much water consumption, until now, almost none of the designers of water supply systems has solved the issue of significantly reducing this indicator by increasing the efficiency of using the water jet flowing from the tap, about 90% of which is not involved in the process of washing an object under the stream.

Another feature of this device is that its design provides heating and distribution of hot water only when working with water-distributing devices with a water flow rate of 0.3 to 1 liter per minute (for example, with a universal water-dispensing nozzle according to RF patent No. 2476273).

The technical result of the proposed water supply system is to reduce the flow of water through the tap to 0.3-1 liters per minute, i.e. an average of 15 times.

The specified technical result is achieved by the fact that in an autonomous water supply system including a water storage tank and a water distribution line from the water storage tank, the water distribution line is provided with a control unit, water intake means with a pump, water heating means, water distribution means, and also a pressure sensor , an indicator of the system’s operation, photodetectors and a temperature sensor, the pump is included in the water distribution line between the water reserve tank and water distribution means, to which water heating means are connected, while a pressure sensor, a system operation indicator, a photodetector and a temperature sensor are respectively connected to the control unit input, and the control unit outputs are connected to a pump, an incandescent lamp located inside the heat exchanger is used as a means of heating water and water-distributing means use water-saving nozzles installed at the outlet of the drain pipe of each water-distributing means.

Further, in the proposed autonomous water supply system, a searchlight (halogen) electric lamp is used as an incandescent lamp, and nozzles are used as water-saving nozzles, ensuring a flow of water in the range of 0.3-1 liter per minute.

Further, any natural or artificial body of water can be used as a capacity for water reservation in this system.

The accompanying drawing shows the electro-hydraulic circuit of the proposed autonomous water supply system.

The autonomous water supply system shown in the diagram includes a water storage tank 1 and a water distribution pipe 2 from a water storage tank 1. In this case, the water distribution line 2 is equipped with a control unit 3, water intake 4 with a pump 5, water heating means made in the form of a heat exchanger 6 with a coil 6a, water distribution means 7, as well as a pressure sensor 8, indicator 9 of the system, indicator 10 of water heating , a photodetector 10a and a temperature sensor 11. The pump 5 and the coil 6a are included in the water distribution line 2 between the water storage tank 1 and the water distribution means 7. A pressure sensor 8, a system operation indicator 9, a water heating indicator 10, a photodetector 10a and a temperature sensor 11 are connected to the input of the control unit 3, respectively, and the output of the control unit 3 is connected to the pump 5. Position 13 indicates a stationary water supply line, to which this autonomous water supply system can alternatively be connected. Arrows 14 arbitrarily indicate the electronic or electrical connection of the control unit 3 with the above-mentioned nodes of the autonomous water supply system for automatic control of water consumption processes.

In accordance with the purpose of the invention, an incandescent light bulb 12 located inside the heat exchanger 6 with a coil 6a is used as a heating element for water heating in the proposed autonomous water supply system, and water-saving nozzles installed at the drain outlet are used in the water dispensing devices 7 (faucet, shower head) branch pipe of each water distribution means. Moreover, in the proposed autonomous water supply system, a searchlight (halogen) electric lamp is used as an incandescent lamp, and nozzles are used as water-saving nozzles, ensuring water flow in the range of 0.3-1 liter per minute. For example, nozzles according to Russian patents RU 2476273 C2, E03C 1/04, 2013 or RU 82724 U1, E03C 1/04, 2009 can be used as such nozzles.

Of course, any natural or artificial body of water can be used as capacity 1 for water reservation in this system.

The use of this autonomous water supply system is as follows.

For washing hands, the user brings them to the faucet 7. From the influence of light reflected from the hands on the photodetector 10a, the pump 5 is activated, directing the water flow to the highway 2 through the pressure sensor 8. An electric pulse from the pressure sensor 8 through the control unit 3 is sent to the indicator 9 the operation of the system, as a result of which the glow lamp 12 is turned on. Cold water passing through the coil 6A of the heat exchanger 6 is heated. The temperature sensor 11 controls the heating and turns off the light bulb 12 when the desired water temperature is reached, and as it cools down, it periodically turns on the light bulb again.

Heating of running water in this autonomous water supply system is carried out by a powerful searchlight (halogen) light bulb 12 located inside the heat exchanger. Due to the reduced water flow provided by the water-saving nozzle of the tap or shower head, heating of the water in the coil 6a occurs rather quickly - within 5-6 seconds.

Thus, the proposed autonomous water supply system satisfies the sanitary and hygienic needs of a person with hot or cold water with a minimum water consumption (from 0.3 to 1 liter per minute) and a minimum power consumption (up to 1 kW). This autonomous water supply system is applicable both in suburban (country) houses where there is no centralized water supply, and in urban apartments, where it will dramatically reduce the consumption of hot and cold water and thereby give a huge economic effect throughout the country.

Information sources

SU 1564294 C1, EV 03/11. 1987;

RU 2081255 C1, EV03B 7/04. 1997 (prototype);

RU 2476273 C2, E03C 1/04, 2013;

RU 82724 U1, E03C 1/04, 2009.

Claims (3)

1. An autonomous water supply system comprising a water storage tank and a water distribution line from a water storage tank, wherein the water distribution line is provided with a control unit, water intake means with a pump, water heating means made in the form of a heat exchanger, water distribution means, and also a pressure sensor, an indicator of the system’s operation and a temperature sensor, while the pump is connected to the water distribution line between the water reserve tank and water distribution means, and to the input of the control unit respectively, a pressure sensor, a system operation indicator and a temperature sensor are connected, and the control unit output is connected to a pump, characterized in that an incandescent lamp is used as a heating element for heating the water, mainly a searchlight lamp located inside the heat exchanger, and installed water distribution devices at the outlet of the drain pipe of each water dispensing means water-saving nozzles, providing a flow rate of water in the range of 0.3-1 liter per minute. 2. The autonomous water supply system according to claim 1, characterized in that any natural or artificial body of water can be used as a reservoir for water reservation. 3. The autonomous water supply system according to claim 1 or 2, characterized in that it is equipped with means for connecting to a stationary water supply line.

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