RU2729986C2 - Water supply control method - Google Patents

Abstract

FIELD: automatic control system.

SUBSTANCE: invention relates to automatic control of water supply system for domestic and technical needs and can be used in industry, agriculture, as well as in housing and communal services. Method consists in controlling a water storage system comprising a water storage capacity, a feed pump, a flow pump and a control device. Water supply system is supplemented with a water level sensor in the water storage tank, the output signals of which are an upper level (UL), an intermediate level (IL), an emergency level (EL), a dry run level (DR), water source level sensor, output signals of which are an upper level of a source (ULS), a lower level of a source (LLS), level of dry run of the source (DRS), as well as sensors of the following composition: activation of the flow pump, overflow, flooding, water temperature, air temperature, water flow meters from the water supply line and from the source, equipped with pulse sensors, flow switch. Complex control of water supply system is performed by means of control system as follows: disconnection of supply and supply pumps is priority in relation to connection. At the level of the water reserve from UL to EL, activation of the flow pump is permitted. At the level of the water reserve from EL to DR the activation of the flow pump is performed only in the mode of manual control under the consumer control. When the level of water in the reservoir drops below the DR, the operation of the flow pump is prohibited. If the level of the water reserve in the reservoir is less than or equal to the IL, and the level in the source is greater than the ULS, the feed pump is switched on. At the source level below the LLS, the feed pump is switched off. If the level in the source is lower than the DRS, the supply pump is switched off and its actuation is blocked. When the flood sensor is actuated, the operation of the flow pump is inhibited and the supply pump is switched off. When the level in the reservoir increases to the high-voltage one, the supply pump is switched off. In case the overflow sensor is actuated, the supply pump is switched off. In the presence of a signal of the operation sensor of the supply pump for a long period of time, the delivery pump is switched off. In case of water temperature sensor actuation its heating is switched on. In case of operation of air temperature sensor, its heating is switched on. In case of absence of signals of pulse sensors of filling the water storage capacity for a long period of time, the consumer is informed about the absence of water renewal.

EFFECT: providing water saving, maintaining the water level in the reservoir at the maximum possible value, increasing the service life and trouble-free operation of the supply and delivery pumps, also providing a water supply for urgent needs, monitoring long-term storage of water without renewal, protecting elements of the system from overflow, leaks, unorganized water consumption, reduced temperature of water and ambient air below dangerous for freezing.

1 cl, 1 dwg

Description

The invention relates to the field of automatic control of a water supply system for domestic and technical needs and can be used in industry, agriculture, as well as in housing and communal services. The water storage system consists of a water storage tank, supply and supply pumps, and a control system. The proposed method for managing the water supply is most applicable in cases where the flow rate of a well, a well (hereinafter referred to as a source) of water is small or uneven, which necessitates the management of the water supply and flow.

Known methods for controlling the supply and flow pumps of the water supply control system by means of their automatic control devices, such as pressure switches, PS-02C, operating instructions: http://www.vseinstrumenti.ru/instructions/514238.pdf. flow switch of OOO NPP PROMISHLENNAYA AUTOMATIKA, operating instructions: http://www.promav.ru/technical-support/dokumentatsi/rp.pdf.

There are known ways to protect the supply and flow pumps of the water supply control system by means of a dry-running relay, for example, a PS-7 dry-running sensor, operating instructions: https://belamos24.ru/wadata/public/site/techpassport/passport%20instrukcia%20belamos% 20ps-7.pdf.

There are also known methods for protecting components of water supply systems from leaks and overflows, for example, the Aquastorozh Expert system, operating instructions http://aquastorozh.rf/pdf/instruction_EXPERT.pdf.

A significant disadvantage of the listed methods is that they do not provide an integrated management of the water supply system. Each of the listed systems performs certain functions and communication between the systems is difficult or impossible.

The closest in technical essence to the invention and adopted as a prototype is a method for controlling the water supply system used in the logical controller SAU-U of the OWEN company, Moscow, which allows, according to the operation manual http://www.owen.ru/uploads/re_sau -u_1693.pdf. pp. 78-81 to control both supply and supply pumps in the water storage system in accordance with the signals from the level sensor of the main tank and the level sensor of the source.

A significant disadvantage of the known method is the lack of control over emergency situations of the equipment of the water supply system, such as accidents of the supply and supply pumps, leaks, unorganized water consumption, lowering the water temperature below the danger of freezing.

The second significant disadvantage of the known method is the lack of control over long-term storage of water without renewal, leading to a loss of its quality up to unsuitability for use.

The third significant disadvantage of the known method is the inability to ensure the minimum number of starts of the feed pump, necessary to increase its service life. The known method provides a shutdown of the feed pump in the event of a decrease in the level in the source below the allowable value, which is a function of protecting the pump from idle running. At the same time, in the known method, the level sensor in the source does not have hysteresis, which in the event of a decrease in the source level will lead to unacceptably frequent operations of the supply pump.

The fourth disadvantage of the known method is the lack of a function of storing water supply for urgent needs. This function allows you to ensure the availability of a supply of water under the condition of economical consumption in the event of its long absence at the source.

The purpose of the proposed invention, an alternative to the known solution, is to provide significant water savings, maintain the level in the water supply tank at the maximum possible value, increase the service life and trouble-free operation of the supply and discharge pumps, ensure a water supply for urgent needs, control long-term storage of water without renewal, ensuring protection of system elements from overflow, leaks, unorganized water flow, lowering the temperature of water and ambient air below the danger of freezing. Thus, the technical problem of expanding the arsenal of technical means for managing the water supply is solved through the integrated management of the water supply system.

This goal is achieved by the fact that the water storage system is supplemented with a water storage tank level sensor, the output signals of which are the upper level (UL), the middle level (SU), the level of urgent needs (UNN), the dry running level (CX), as well as sensors from of the following composition: switching on the flow pump, overflow, flooding, water temperature, air temperature, water flow meters equipped with pulse sensors, flow switch, filling the water supply tank. At the same time, complex management of the water storage system is carried out by means of the control system as follows:

At a level in the tank from VU to UNN, the inclusion of the flow pump is allowed. At a level in the tank from UNN to CX, the switching on of the flow pump is carried out only in the manual control mode, under the control of the consumer. When the level in the tank drops to CX and below, the operation of the flow pump is prohibited. If the flood sensor is triggered, the operation of the flow pump is prohibited. The switching on of the flow pump is carried out by means of its automatic switching device, for example, a pressure switch, if there is a permit for switching on.

When the level in the tank drops below the VU, the water supply to the tank is allowed. With an increase in the level in the container to VU, the supply of water to the container is prohibited. If the overflow sensor or flood sensor is triggered, the water supply to the tank is prohibited. If there is a signal from the sensor of the operation of the flow pump for a long time, for example, 30 minutes, it is concluded that there is an emergency: pump malfunction, uncontrolled water flow, leakage, and the flow pump is turned off. If the water temperature sensor is triggered, it is heated. If the air temperature sensor is triggered, its heating is turned on. In the absence of signals from pulse sensors of water flow meters for a long time, for example 10 days, they signal to the consumer about the absence of water renewal.

To fill the water storage tank from a well, well or other reservoir, the water storage system is supplemented with a water source level sensor, the output signals of which are the upper level of the source (UUI), the lower level of the source (NUI), and the dry running level of the source (SSS). In this case, the supply pump is turned on when the level in the tank is less than or equal to SU, and the level in the source is equal to or greater than the IUI. In this case, by the time the supply pump is turned on, there is a sufficient volume of water in the source and the required volume of free space in the water storage tank. When the tank level reaches the LS, or the source level becomes lower than the LS, the feed pump is turned off. Thus, a significant increase in the service life of the supply pump is ensured due to the minimum number of its starts and optimal filling of the water supply tank. According to the proposed method, the triggering of the CS sensor with a decrease in the level in the tank occurs when there is a required volume of empty space in the tank. The required triggering of the SU, VUI and NUI sensors is obtained as a result of their installation at the appropriate levels.

When the level in the source drops below the NUI, the feed pump is turned off. When the level in the source drops below the SCI, the feed pump is turned off and its activation is blocked.

When supplementing the water storage system by filling the water storage tank from the water supply system with overflow restriction by an electromagnetic or float valve, filling the tank with tap water is a priority. In case of insufficient tap water pressure, when the level of the source is higher than the VLV and the level of the tank drops below the CS, the feed pump is automatically turned on and the tank is filled with water from the source. Thus, they ensure the maximum filling of the water supply tank.

When supplementing the water supply system with water flow meters equipped with pulse sensors, control of water renewal in the tank, as well as commercial and technical accounting of water consumption, is an additional advantage of the proposed method.

For a more complete disclosure of the invention, FIG. a functional diagram of a possible implementation of the proposed method for managing the water supply is presented. In accordance with Fig., The water storage system contains a water storage tank 1, a supply line 2, a supply pump 3, a flow line 4, a flow pump 5, a tank level sensor 6, a source level sensor 7, an automatic control system 8, a tap water flow meter 9, water flow meter from source 10, float valve 11, overflow sensor 12, flooding sensors 13, water temperature sensor in tank 14, air temperature sensor 15, flow pump operation sensor 16, flow switch 17, water source 18.

According to the proposed method, the system works as follows: shutdown of the supply and supply pumps in the event of an accident is a priority in relation to switching on. If there is a free volume in the tank of water supply 1, when the position of the level sensor in the tank 6 is less than or equal to the CS and the required volume of water in the source 18, when the position of the level sensor of the source 7 is equal to or greater than the IUI, the supply pump 3 is switched on and the tank 1 is filled through the supply pipeline 2 to the VU level. With an increase in the level in the tank 1 to WU, the supply pump 3 is turned off. Thus, the minimum number of operations of the feed pump 3 is ensured, and, consequently, its service life and trouble-free operation are increased.

At the same time, the water storage tank 1 is filled with tap water with the overflow limitation by the float valve 11. With a water flow rate and a slight decrease in the level relative to the WH, the float valve 11 opens and the tank 1 is filled. Thus, the level in the water storage tank 1 is maintained at the maximum possible value.

When the level in the reservoir of water 1 is higher than UNN, the operation of the flow pump 5 is allowed. When the level in the tank 1 is less than or equal to UNN, the operation of the flow pump 5 is allowed only in the manual control mode under the control of the consumer. Thus, they provide a supply of water for urgent needs.

The switching on of the consumable pump with permission to turn on occurs under the control of its automatic control devices in the presence of water consumption by the consumer through the consumption pipeline 4.

When the supply pump 3 is operating, the state of the water flow meter from the source 10 is monitored, and if there are no counter pulses for a period of time, for example 5 seconds, then the supply pump is turned off and blocked from turning on. Thus, they provide protection of the supply pump in case of an accident, increase its service life.

If the sensor of the flow pump 16 is turned on, and the flow switch 17 of the flow pump 5 is turned off for a period of time, for example, 5 seconds, then the flow pump is turned off. Thus, they provide protection of the consumable pump in case of an accident, increase its service life and trouble-free operation.

The automatic control system 8 counts the impulses of the tap water meter 9 and the water meter from the source 10. In the absence of meter impulses for a long time, the automatic control system informs the consumer about the lack of water renewal and possible loss of its quality.

If the flow switch 17 of the flow pump 5 is turned on continuously for a long time, for example 30 minutes, then the flow pump is turned off. Thus, they provide protection against leakage or uncontrolled water flow.

When the level of the source drops below the SCI, a conclusion is made about an emergency decrease in the level of the source 18 or a malfunction of the level sensor of the source 7. The feed pump is turned off and its activation is blocked. Thus, they provide protection of the feed pump against dry running, increase its service life and trouble-free operation.

In the case of a decrease in the level of the tank 1 to CX, the flow pump 5 is turned off. Thus, they provide protection of the flow pump against dry running, increase its service life and trouble-free operation.

If the overflow sensor 12 is triggered, a conclusion is made about a possible malfunction of the tank level sensor 6, the supply pump 3 is turned off. Thus, the water storage system is protected from overflow.

If the flooding sensor 13 is triggered, a conclusion is made about a malfunction of the elements of the water supply system, the supply and supply pumps are turned off. Thus, they protect the water storage system from flooding.

The water temperature is monitored by a water temperature sensor in the tank - 14. When the water temperature drops below the danger of freezing, its heating is switched on. The ambient air temperature is controlled by the air temperature sensor 15. When the ambient temperature drops below the permissible level, its heating is switched on. Thus, the water storage system is protected from freezing.

The automatic control device 8 analyzes the state of the sensors of the water supply system, ensures the switching on and off of the actuators and transmits to the consumer information about the level in the tank and the source, the operation of the supply and consumption pumps, emergency situations via the Internet, SMS messages, phone calls, sound and light alarms or in another way.

Comparative analysis shows that the differences between the proposed method compared to the prototype are significant. This allows us to conclude that it meets the "inventive step" criterion.

The author has not found a similar technical solution from published sources of information. This allows us to conclude that the proposed solution meets the “novelty” criterion.

Claims (1)

A method for controlling a water storage system containing a water storage tank, a feed pump, a flow pump and a control device, characterized in that the water storage system is supplemented with a level sensor in the water storage tank, the output signals of which are the upper level (UL), the average level (SU) , the level of urgent needs (UNN), the level of dry running (SX), a water source level sensor, the output signals of which are the upper level of the source (UUI), the lower level of the source (NUI), the level of dry running of the source (SXI), as well as sensors from of the following composition: turning on the supply pump, overflow, flooding, water temperature, air temperature, water flow meters from the water supply and from the source equipped with pulse sensors, a flow switch, while performing complex control of the water supply system through the control system as follows: supply pump has priority over switching on, when there is a level in the stock tank of water from VU to UNN, the switching on of the consumable pump is allowed, at a level in the reservoir of water from UNN to CX, the switching on of the consumable pump is carried out only in manual control mode, under the control of the consumer, when the level in the water supply tank is lower than CX, the operation of the consumable pump is prohibited, at a level the supply pump is turned on in the water storage tank less than or equal to SU, and the level in the source is greater than the IUI, the supply pump is turned on, when the level in the source is lower than the IUI, the supply pump is turned off, when the level in the source is below the CUI, the supply pump is turned off and its activation is blocked, when the flooding sensor is triggered, the operation of the flow pump is prohibited, and the supply pump is turned off, when the level in the tank to the VU increases, the supply pump is turned off, in case of an overflow sensor, the supply pump is turned off, if there is a signal from the flow pump operation sensor for a long time, the flow pump is turned off, if the water temperature sensor is triggered, it is turned on heating, if the air temperature sensor is triggered ear heating is switched on, in the absence of signals from pulse sensors of filling the water supply tank for a long time, they signal the consumer about the absence of water renewal.

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