RU23302U1 - WATER SUPPLY SYSTEM - Google Patents

Description

IPC 7 E 03 in 1/04

The utility model relates to water purification, conditioning, storage and distribution devices, 11 mainly drinking, and is intended for uninterrupted water supply to local consumers.

A known water supply system (utility model of the Russian Federation No. 592, MPK6 EOZV1 / 04, 1993), comprising a pumping unit connected by a pipeline to a water storage tank (hydropneumatic tank) installed at the top of the system, and a water distribution line with water-folding fittings, the storage device being equipped with a relay pressure controlling the pumping unit. A water supply system is also known (RF patent No. 2087632, MPK6 EOZV1 / 04, 1995), containing a storage device (storage tank) with a water level sensor, a means of filling it with water, a water distribution line and a means for automatically monitoring and controlling the system parameters.

A disadvantage of the known devices is the complexity of the systems due to the presence of pumping units in them, as well as the low quality of water due to the lack of its after-treatment and conditioning in accordance with the requirements of sanitary standards.

Closest to the proposed utility model is a technical solution Water supply system according to the patent of the Russian Federation No. 2081255, MPK6 EOZV1 / 04, 11/06, 1994, taken as a prototype. The device comprises a water supply line, including a pressure sensor and a water treatment unit connected in series, as well as a water storage tank (accumulator) with a level sensor, a water distribution line with water withdrawal means, and a control unit, one of whose inputs is connected to a pressure sensor, and the other with a water level sensor.

The disadvantage of the prototype device is the complexity, low reliability of the system and low water quality in the distribution, due to the presence of a pumping unit in the water distribution line, as well as the location of the water level sensor directly in the cavity of the drive. In addition, the low quality of water in the known device is associated with a lack of conditioning of the water and improvement of its biological properties.

water distribution and removal of the water level sensor outside the internal cavity of the drive. It eliminates interruptions in the water supply system during unstable water supply to the device inlet, as well as continuously replenishes the water distribution line as consumers consume it. The device also allows you to further increase the quality of the water at the outlet of the system through the use of high-quality treatment, water conditioning and the introduction of mineral additives necessary for the consumer into it.

The specified technical result is achieved by the fact that the water supply system comprising a water supply line with a pressure sensor and a water treatment unit, a drive with a water level sensor, a water distribution line and a control unit, the first input of which is connected to a pressure sensor and the second to a water level sensor , in accordance with the proposal, is additionally equipped with a water flow regulator and a controllable valve included in the water supply line, a water shutter, a pump and a shut-off device. The water shutter is made in the form of a tank, open at the top and located under the drive, with holes for supplying and discharging water, the first of which is connected to the supply line, and the second to the water distribution line. The drive is made in the form of a container with an open neck and an opening in the housing located on the opposite side of the neck and connected through a shut-off device to a vacuum pump. It is installed with the neck down so that the edge of the neck is located below the edge of the water seal. The water level sensor is made in the form of an alarm of maximum water levels, and the output of the control unit is connected to a controllable valve and a vacuum pump.

In addition, the drive is made movable and spring-loaded in the vertical direction, and the limit water level switch is made in the form of a drive limit position sensor with the possibility of interaction with the moving part of the latter. The drive can be made rotary with a horizontal axis of rotation offset from the center of gravity of the drive. In this case, the sensor of the limit positions of the drive can be made in the form of an electric switch having mechanical hysteresis, the value of which is selected proportional to the difference between the limit levels of water in the drive. The cutter can be made controllable and connected to the output of the control unit.

The system is additionally equipped with: one or more reservoirs, made in the form of a reservoir open at the top and connected to the water shutter cavity at a level not higher than the edge of the drive neck, the upper edge of the reservoir being located not lower than the upper edge of the water shutter; device for electrochemical activation of water.

included in the water supply line, mainly at its outlet; one or more dispensers of mineral additives connected to the cavity of the water gate or to the outlet of the water supply line. In this case, the water distribution line can be equipped with water-heating and / or water-cooling distribution bodies.

The implementation of the drive in the form of a tank with an open neck located below, the introduction of a water shutter installed under the drive, a vacuum pump and a shut-off connected to the drive air cavity, a water flow regulator and a controlled valve included in the water supply line, simplifies the device due to the exclusion from the system of a special pump for taking water from the drive, as well as improving the reliability of the system by eliminating interruptions in water supply during Abile water supply to the system inlet. In addition, this makes it possible to improve the quality of the consumed water, since the pumping system is removed from the distribution line as a source of pollution.

The execution of the drive is movable (in particular, rotary) and spring-loaded in the vertical direction, and the limit water level indicator - in the form of a drive limit position sensor allows to simplify the system and increase its reliability by eliminating contact of the sensor elements with water and moving the latter out of the drive’s internal cavity , and also due to simplification of the design of the displacement sensor and its implementation, for example, in the form of a simple electric switch with mechanical hysteresis, the value of which o is proportional to the difference between the limiting water levels in the reservoir.

The introduction into the system of an additional one or more reservoirs connected to the water shutter cavity ensures redundancy of the treated water volume greater than the water shutter cavity and uninterrupted water supply for a long time in the absence of water at the system inlet and disconnects the device’s power supply.

Introduction to the system of an additional device for electrochemical activation of water included in the water supply line (mainly at its outlet), as well as one or more dispensers of mineral additives connected to the cavity of the water shutter or to the outlet of the water supply line, makes it possible to improve the quality of water consumed for by improving its purification and increasing biological value. Providing a water distribution line with water heating and / or water-cooling dispensers further enhances the consumer properties of the water and expands the operational capabilities of the system.

The utility model is illustrated by drawings, where in FIG. 1 shows a general view of a water supply system; figure 2 - movable spring-loaded drive with a sensor of its limit position; in Fig.Z - rotary drive; figure 4 - water supply system with a reservoir, a device for electrochemical activation of water, a dispenser of mineral additives, water heating and water-cooling dispensers.

The water supply system (Fig. 1) consists of a water supply line with a pressure sensor 1 connected in series, a water treatment unit 2 (for example, in the form of a coarse filter), a controlled valve 3 and a water flow regulator 4, as well as a drive 5 with a limit signaling device 6 water levels, shutoff 7, vacuum pump 8, water shutter 9, water distribution line 10 and control unit AND. The water shutter 9 is made in the form of a container open at the top and located under the accumulator 5, with holes for supplying and discharging water, the first of which is connected to the supply line, and the second to the water distribution line 10. The accumulator 5 is made in the form of a container with an open neck and an opening in the housing located on the opposite side of the neck and connected to the vacuum pump 8 through a shutter 7. The accumulator is mounted down the neck so that the neck edge is lower than the edge of the water shutter 9. The pressure sensor 1 is connected with the first input, the indicator 6 of the limiting water levels - with the second input of the control unit 11, and the output of the latter with a controlled valve 3 and a vacuum pump 8.

The drive 5 can be made movable and spring-loaded in the vertical direction (Fig. 2), and the limit water level indicator can be in the form of a sensor 12 of the drive limit positions interacting with its moving part (with the case or a special protruding element rigidly connected to the case). The drive can also be rotatable with respect to the horizontal axis of rotation offset from the center of gravity of the drive 5 (Fig. 3), and the sensor 12 is located on the side opposite to the axis of rotation. In either case, the drive limit position sensor can be made in the form of a simple switch with mechanical hysteresis. Moreover, the value of the latter is selected proportional to the difference between the limiting water levels in the accumulator 5, taking into account the weight of the accumulator with water and the stiffness of its spring elements.

The water supply system may be equipped with a reservoir 13 (Fig. 4) connected to the cavity of the water lock 9 (or to the input of the water distribution line 10), a device 14 for electrochemical activation of water, connected in series to the water supply line (mainly at its outlet), and dispenser 15

mineral additives connected to the water shutter cavity 9. The dispenser can be connected to the outlet of the water supply line. The cutter can be made controllable (pos. 16 in Fig. 4) connected to the output of the control unit AND. The water distribution line 10 of the system can be equipped with water heating 17 and water cooling 18 water distribution bodies.

The water supply system operates as follows (figure 1). When the system is empty in the initial state with water and the power is turned on (the power supply is not shown in the figures), the signal from the sensor 6 of the maximum water levels is fed to the input of the control unit AND. At the other input of the control unit receives a signal from the pressure sensor 1. If there is pressure at the inlet of the water supply line, the control unit 11 receives a signal to open the controlled valve 3 and turn on the vacuum pump 8. In this case, the water entering the system inlet is processed in the water preparation unit 2 and through the controlled valve 3 and water flow regulator 4 is fed into the cavity of the water shutter 9. With the shut-off valve 7 open (made, for example, in the form of a reverse clan, and open for air passage when the vacuum pump is turned on), the water in the shutter 9, upon reaching the neck of the drive 5, starts asasyvatsya to the bottom of the oral drive. Upon reaching the upper limit water level in the accumulator 5, the alarm 6 of the maximum water levels goes off, and the signal of the control unit 11 closes the controlled valve 3 of the water supply line, the vacuum pump 8 is turned off, and the air cavity of the accumulator 5 is isolated by a shutter 7. When the system is filled with water, its consumption in the supply line is set by the flow controller 4 in order to avoid overflow of the water shutter 9 when the degree of discharge in the upper part of the accumulator 5 and the inflow of water do not match. At a water flow rate, its level in the water shutter 9 drops below the neck level of the accumulator 5 and air from the atmosphere passes into the resulting gap, entering the latter through the water in the accumulator. The vacuum in it decreases and part of the water from the accumulator 5 enters the cavity of the water shutter 9. As the water flow in the distribution line 10, the water level in the accumulator 5 decreases and when the lower limit level (dashed line in Fig. 1) is reached, the alarm 6 is triggered and the signal of the control unit 11, the water supply valve 3 opens and the vacuum pump 8 is turned on. If there is a controlled shut-off device 16 (Fig. 4) connected to the output of the control unit 11, at the signal of the last shut-off device 16 is turned on (for air passage to the vacuum pump 8) at the lower level and turns off (with air passage blocked) at the upper water level in the drive. The process is then repeated.

When the drive 5 is movable (FIG. 2), in particular rotary (FIG. 3), and spring-loaded in the vertical direction, the signal at the input of the control unit comes from the sensor 12 of the drive's limit positions. The sensor is configured for the position of the movable part of the drive, corresponding to the lower and upper water levels in it, taking into account the stiffness of the spring elements (in the rotary drive - also taking into account the distance between the spring element and the axis of rotation) and the weight of the drive with water.

If there is a reservoir 13 in the water supply system (Fig. 4) connected to the water shutter cavity 9, the water is in the system of communicating vessels (shutter 9 and reservoir 13), which ensures a supply of consumed water in the absence of water at the system inlet and in the storage 5 .

If there is a device 14 for electrochemical activation of water in the water supply line (Fig. 4), as water passes into the reservoir 5, additional high-quality cleaning, conditioning and increasing the biological value of water occurs, and if there is a dispenser 15 of mineral additives connected to the cavity of the water shutter 9, water at the entrance to the distribution line is additionally saturated with mineral additives necessary for the consumer (calcium, magnesium, iodine, fluorine and others). The presence in the line 10 of the distribution of water (Fig. 4) of a water heating 17 and water cooling 18 dispensing devices can improve the consumer properties of water.

Claims (9)

1. A water supply system comprising a water supply line with a pressure sensor and a water treatment unit, a drive with a water level sensor, a water distribution line and a control unit, the first input of which is connected to a pressure sensor, and the second to a water level sensor, characterized in that it is additionally equipped with a water flow regulator and a controlled valve included in the water supply line, a water shutter, a vacuum pump and a shut-off device, and the water shutter is made in the form of a tank open from above and located underneath Itel, with holes for supplying and discharging water, the first of which is connected to the supply line, and the second - to the water distribution line, the drive is made in the form of a tank with an open neck and an opening in the housing located on the opposite side from the neck and connected through a shutoff with vacuum pump, the drive is installed with the neck down so that the edge of the neck is located below the edge of the water lock, the water level sensor is made in the form of an alarm limit water levels, and the output of the control unit is connected to ulation valve and vacuum pump.  2. The system according to claim 1, characterized in that the drive is movable and spring-loaded in the vertical direction, and the limit water level switch is made in the form of a drive limit position sensor with the possibility of interaction with the movable part of the latter.  3. The system according to claim 2, characterized in that the drive is made rotatable with a horizontal axis of rotation offset from the center of gravity of the drive.  4. The system according to claim 2, characterized in that the limit switch of the drive is made in the form of an electric switch having mechanical hysteresis, the value of which is selected proportional to the difference between the limit water levels in the drive.  5. The system according to claim 1, characterized in that the cutter is made controllable and connected to the output of the control unit.  6. The system according to claim 1, characterized in that it is additionally equipped with one or more reservoirs made in the form of a reservoir open at the top and connected to the water shutter cavity at a level not higher than the edge of the mouth of the accumulator, the upper edge of the reservoir located not lower than the upper edge water shutter.  7. The system according to claim 1, characterized in that it is additionally equipped with a device for electrochemical activation of water included in the water supply line, mainly at its outlet.  8. The system according to claim 1, characterized in that it is additionally equipped with one or more dispensers of mineral additives connected to the cavity of the water lock or to the outlet of the water supply line. 9. The system according to claim 1, characterized in that the water distribution line is equipped with water-heating and / or water-cooling distribution bodies.