CN219415227U - Domestic water supply system - Google Patents

Abstract

The utility model discloses a living water supply system, which is characterized in that a main water storage tank is heated to a first set temperature through a heating device, water with the temperature is stored in a secondary water storage tank, then the residual water in the main water storage tank is continuously heated to a second set temperature, the water with the temperature is stored in another secondary water storage tank, a third electric valve of a water outlet pipe of the corresponding secondary water storage tank is opened when the water with the temperature is needed, after the water yield is set, the water yield is monitored by a first flowmeter, the third electric valve is closed after the set water yield is reached, and the water supply can be stopped.

Description

Domestic water supply system

Technical Field

The utility model belongs to the field of water supply devices, and particularly relates to a living water supply system.

Background

The existing domestic or public water supply mode has two modes of a water heater and a wall-mounted boiler, cold and hot water supply is realized by combining a water tap, and when the traditional cold and hot water and cold water are needed by the water tap, the water tap is only required to be opened to two extreme temperatures by opening a switch, but the water temperature between the two water tap is required to be adjusted by multiple attempts, the accurate control of the temperature cannot be realized, the water resource waste is also caused, the research and development of the existing infrared induction type water tap are widely applied, the water outlet time can be controlled by the device, the flow can not be regulated, and the water resource waste can be caused to a certain extent. The water supply mode of different water consumption objects is provided with a mode of water heater, a mode of gas wall hanging stove is provided for household use or public use, the water heater is heated by setting a temperature in advance, the water consumption mode can be the cold and hot duplex faucet mode or is directly set to a required temperature, but only one temperature is needed, the water with higher temperature needs to be reheated, although the gas wall hanging stove can be heated to the required temperature, the heating process needs a period of time, water is continuously discharged in the period of time, and waste phenomenon exists, compared with the water heater which can be heated in real time, the two modes need to wait for a period of time or be realized by adjusting the switch position when the water with the required temperature is needed, and the defects of inconvenience and water waste exist in the process.

Disclosure of Invention

The utility model aims at: the living water supply system is more convenient to use and can save water.

The technical scheme adopted by the utility model is as follows:

the utility model provides a living water supply system, includes main water storage tank, and water supply pipe and drain pipe are connected to main water storage tank, set up first electric valve on the delivery pipe, set up temperature sensor in the main water storage tank, set up heating device in the main water storage tank, and the drain pipe includes one and more, and each drain pipe all sets up second electric valve, and vice water storage tank is connected respectively to each drain pipe, and vice water storage tank is the insulation can, and the outlet pipe is connected to vice water storage tank, sets up first flowmeter and third electric valve on the outlet pipe.

The further technical proposal is that each drain pipe is provided with a second flowmeter.

The further technical scheme is that a first water level sensor is arranged in the main water storage tank.

The further technical scheme is that a second water level sensor is arranged in the auxiliary water storage tank.

The further technical scheme is that a pipeline pump I is arranged on the drain pipe.

The further technical scheme is that a pipeline pump II is arranged on the water outlet pipe.

The further technical scheme is that a recovery pipeline is connected between the drain pipe and the main water storage tank, and a fourth electric valve and a pipeline pump III are arranged on the recovery pipeline.

In summary, due to the adoption of the technical scheme, the beneficial effects of the utility model are as follows:

the main water storage tank is connected with a water supply pipe and a water discharge pipe, a first electric valve is arranged on the water supply pipe, a temperature sensor is arranged in the main water storage tank, the first electric valve can control the water supply pipe to open and close, water supply to the main water storage tank is stopped when the set water level is reached, the temperature sensor is used for monitoring the temperature in the main water storage tank, a heating device is arranged in the main water storage tank, the heating device is used for heating water in the main water storage tank,

the drain pipe includes one and more, every drain pipe all sets up the second electric valve, every drain pipe connects vice water storage tank respectively, vice water storage tank is the insulation can, vice water storage tank connects the outlet pipe, set up first flowmeter and third electric valve on the outlet pipe, in a plurality of vice water storage tanks that correspond, be used for storing the water of different temperatures, concretely, heating device heats main water storage tank behind the first settlement temperature, deposit the water of this kind of temperature in a vice water storage tank, afterwards continue to heat the remaining water of main water storage tank behind the second settlement temperature, deposit the water of this kind of temperature in another vice water storage tank, need just open the third electric valve of the vice water storage tank outlet pipe that corresponds with the water of that temperature, after the water yield is set up, monitor by first flowmeter, close third electric valve can stop supplying water after reaching the water yield that sets up, this scheme of two kinds of traditional water supply modes can accomplish at any time and have, need not wait, can select the water of multiple temperature, and the restriction of water yield of single time has the water yield can not cause too much waste.

Drawings

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic illustration of the connection between the main reservoir and the auxiliary reservoir according to the present utility model;

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent.

As shown in fig. 1 and 2. The utility model provides a living water supply system, including main water storage tank 1, water supply pipe 2 and drain pipe 3 are connected to main water storage tank 1, set up first electric valve 4 on the water supply pipe 2, set up temperature sensor 5 in the main water storage tank 1, set up heating device 6 in the main water storage tank 1, drain pipe 3 includes one and more, every drain pipe 3 all sets up second electric valve 7, sub-water storage tank 19 is connected respectively to every drain pipe 3, sub-water storage tank 19 is the insulation can, sub-water storage tank 19 connects outlet pipe 8, set up first flowmeter 9 and third electric valve 10 on the outlet pipe 8.

When in use, for example, four auxiliary water storage tanks are arranged, the first electric valve 4 is controlled to be opened through the controller (an automatic control system based on PLC), water is supplied to the main water storage tank 1, after the set water level or water quantity is reached, the first electric valve 4 is closed through the controller, the water level is monitored, the first water level sensor 12 is arranged in the main water storage tank 1, the water quantity can be monitored, the flowmeter is arranged on the water supply pipe 2, the controller controls to open the heating device 6, the heating device 6 adopts the electric heating device 6 in the prior art, such as the electric heating tube used by a water heater, or adopts the mode of heating by an optical wave microwave water heater and an optical wave tube, the temperature sensor 5 is connected with the controller, when the temperature sensor 5 detects that the water temperature reaches a first set temperature value, the controller controls the heating device 6 to be closed, the controller controls the second electric valve 7 to be opened to supply water to the auxiliary water storage tank, the water quantity of the auxiliary water storage tank is detected by arranging a water level meter in the auxiliary water storage tank, or after the water in the auxiliary water storage tank reaches the set water level or the water quantity by arranging a flow meter on the water discharge pipe 3, the second electric valve 7 is closed, the controller controls the heating device 6 to be opened to continue heating until the temperature sensor 5 detects that the water temperature reaches a second set temperature value, the main water storage tank 1 is conveyed to the other auxiliary water tank, and the like, so that water with different temperatures is supplied. The four auxiliary water storage tanks can be filled with cold water, high-temperature water and water with two different temperatures between the cold water and the high-temperature water, the primary water storage tank 1 can supply water to the four auxiliary water storage tanks once, the third electric valve 10 can be controlled by the button and the infrared sensor 20, the third electric valve 10, the button and the infrared sensor are connected with the controller, the first flowmeter 9 is connected with the controller, and the controller controls the third electric valve 10 to be closed after monitoring that the water yield of the water pipe 8 reaches a set value. The main water storage tank 1 is connected with a main pipeline, and the drain pipe 3 is connected with the main pipeline.

The water supply pipe 2 and the drain pipe 3 are connected to main water storage tank 1, set up first electric valve 4 on the water supply pipe 2, set up temperature sensor 5 in the main water storage tank 1, first electric valve 4 can control the water supply pipe 2 switch, water level sensor is used for monitoring the water level in the main water storage tank 1, stop supplying water to main water storage tank 1 when reaching the settlement water level, temperature sensor 5 is used for monitoring the inside temperature of main water storage tank 1, set up heating device 6 in the main water storage tank 1, heating device 6 is used for heating the water in the main water storage tank 1.

The drain pipes 3 comprise one or more than one second electric valve 7, each drain pipe 3 is respectively connected with an auxiliary water storage tank, the auxiliary water storage tank is an insulation tank, the auxiliary water storage tank is connected with a water outlet pipe 8, a first flowmeter 9 and a third electric valve 10 are arranged on the water outlet pipe 8, corresponding auxiliary water storage tanks are used for storing water with different temperatures, the heating device 6 is used for heating the main water storage tank 1 to a first set temperature, then storing the water with the temperature into one auxiliary water storage tank, then continuously heating the residual water of the main water storage tank 1 to a second set temperature, then storing the water with the temperature into another auxiliary water storage tank, opening the third electric valve 10 of the corresponding auxiliary water storage tank water outlet pipe 8 by using the water with the temperature, after the water outlet quantity is set, monitoring by the first flowmeter 9, and closing the third electric valve 10 after the set water outlet quantity is reached, so that water supply can be stopped.

The water supply pipe 2 is provided with a first flowmeter 9 which can be used for measuring the water supply amount to the main water storage tank 1, the main water storage tank 1 is internally provided with a first water level sensor 12 which can be used for monitoring the water level in the main water storage tank 1, and the first flowmeter 9 or the first water level meter is connected with a controller to stop supplying water to the main water storage tank 1 after the set flow or the set water level is reached.

Each drain pipe 3 is provided with a second flowmeter 11 which can be used for measuring the water supply amount to the auxiliary water storage tank, a second water level sensor 13 is arranged in the auxiliary water storage tank and can be used for monitoring the water level in the auxiliary water storage tank, and the first flowmeter 9 or the first water level meter is connected with a controller and stops supplying water to the auxiliary water storage tank after the set flow rate or the set water level is reached.

The drain pipe 3 is provided with a first pipeline pump 14, the first pipeline pump 14 is positioned on a main pipeline, the water outlet pipe 8 is provided with a second pipeline pump 15, when the main water storage tank 1 or the auxiliary water storage tank is at an elevation, the pipeline pump is not needed, water supply can be completed by means of water pressure, and when the main water storage tank 1 and the auxiliary water storage tank are not at the elevation, water supply by the pipeline pump is needed.

The recovery pipeline 16 is connected between the drain pipe 3 and the main water storage tank 1, the recovery pipeline 16 is connected with a main pipeline in a concentrated mode, the main pipeline is connected with the main water storage tank 1, the recovery pipeline 16 is provided with a fourth electric valve 17, and the pipeline pump III 18 is arranged on the main pipeline and is used for recovering water in the auxiliary water storage tank into the main water storage tank 1 so as to be convenient for reheating.

The foregoing is only illustrative of the preferred embodiments of the present utility model.

Claims (7)

1. The utility model provides a living water supply system, a serial communication port, including main water storage tank (1), delivery pipe (2) and drain pipe (3) are connected to main water storage tank (1), set up first electric valve (4) on delivery pipe (2), set up temperature sensor (5) in main water storage tank (1), set up heating device (6) in main water storage tank (1), drain pipe (3) are including one and more, every drain pipe (3) all set up second electric valve (7), sub-water storage tank (19) are connected respectively to every drain pipe (3), sub-water storage tank (19) are the insulation can, sub-water storage tank connects outlet pipe (8), set up first flowmeter (9) and third electric valve (10) on outlet pipe (8).

2. A domestic water supply according to claim 1, characterized in that each drain pipe (3) is provided with a second flowmeter (11).

3. A domestic water supply according to claim 1, characterized in that a first water level sensor (12) is provided in the main reservoir (1).

4. A domestic water supply according to claim 1, characterized in that a second water level sensor (13) is provided in the sub-tank (19).

5. A domestic water supply according to claim 1, characterized in that the drain pipe (3) is provided with a first pipeline pump (14).

6. A domestic water supply system according to claim 1, characterized in that the outlet pipe (8) is provided with a second pipeline pump (15).

7. A domestic water supply system according to claim 1, characterized in that a recovery pipeline (16) is connected between the drain pipe (3) and the main water storage tank (1), and a fourth electrically operated valve (17) is arranged on the recovery pipeline (16).