CN111499024A - Quantitative water taking intelligent faucet for large-flux reverse osmosis water purifier - Google Patents

Abstract

The invention discloses an intelligent tap for quantitatively taking water for a high-flux reverse osmosis water purifier, which comprises a water inlet and a water outlet tap; the water inlet is sequentially connected with a low-voltage switch, a water inlet electromagnetic valve, a primary compound, a pump and a reverse osmosis membrane filter element; wastewater generated by the reverse osmosis membrane filter element flows out of the wastewater outlet through the wastewater electromagnetic valve; the water outlet of the reverse osmosis membrane filter element is sequentially connected with a one-way valve, an electromagnetic valve, a rear activated carbon filter element, a flowmeter and a water outlet tap; the water outlet faucet comprises a built-in electric control plate and a faucet control interface matched with the built-in electric control plate; the faucet control interface comprises a water taking button and a plurality of water quantity setting buttons, and water taking data is input to the built-in electric control board through the water taking button and the water quantity setting buttons; the built-in electric control board is respectively connected with the pump, the water inlet electromagnetic valve and the flowmeter, and controls the opening or closing of the pump and the water inlet electromagnetic valve through flow data and water taking data acquired by the flowmeter. The invention realizes the quantitative water outlet of the water purifier and solves the problem of water overflow.

Description

Quantitative water taking intelligent faucet for large-flux reverse osmosis water purifier

Technical Field

The invention relates to the technical field of water purifier manufacturing, in particular to an intelligent quantitative water taking faucet for a high-flux reverse osmosis water purifier.

Background

The flow of the existing large-flux reverse osmosis water purifier is generally 0.5-2.5 liters/minute, and a mechanical water faucet shown in figure 1 is adopted.

In practical application, the waiting time of a user is long when the user receives water, other things can be done in the water receiving process, and once the user cannot timely return to close the faucet, the water can overflow the container.

Therefore, how to make the water purifier discharge water according to the water output required by the user becomes a technical problem which needs to be solved urgently by the technical personnel in the field.

Disclosure of Invention

In view of the above defects of the prior art, the invention provides an intelligent tap for quantitatively taking water for a high-flux reverse osmosis water purifier, which aims to realize quantitative water outlet of the water purifier, and can automatically close an electromagnetic valve to stop water outlet when the water quantity reaches a set value, so that the problem of water overflow is solved.

In order to realize the aim, the invention discloses a quantitative water taking intelligent faucet for a high-flux reverse osmosis water purifier, which comprises a water inlet and a water outlet faucet, wherein the water inlet is connected with the water outlet; the water inlet is sequentially connected with a low-voltage switch, a water inlet electromagnetic valve, a primary compound, a pump and a reverse osmosis filter element; and the wastewater generated by the reverse osmosis filter element flows out from the wastewater outlet through the wastewater electromagnetic valve.

The water outlet of the reverse osmosis filter element is sequentially connected with a one-way valve, an electromagnetic valve, a rear CB filter element, a flowmeter and the water outlet faucet;

the water outlet faucet comprises a built-in electric control plate and a faucet control interface matched with the built-in electric control plate;

the faucet control interface comprises a water taking button and a plurality of water quantity setting buttons, and water taking data is input to the built-in electric control board through the water taking button and the water quantity setting buttons;

the built-in electric control board is respectively connected with the pump, the water inlet electromagnetic valve and the flowmeter, and the pump and the water inlet electromagnetic valve are controlled to be opened or closed through flow data acquired by the flowmeter and water taking data.

Preferably, the plurality of water volume setting buttons are water volume selection buttons, and include a first water volume button, a second water volume button and a third water volume button representing various different water volumes.

Preferably, the water volume setting buttons are water volume adjusting buttons including a water volume increasing button, a water volume numerical button and a water volume decreasing button.

The invention has the beneficial effects that:

the invention realizes the quantitative water outlet of the water purifier, and when the water quantity reaches a set value, the electromagnetic valve can be automatically closed to stop water outlet, thereby solving the problem of water overflow.

The conception, the specific structure and the technical effects of the present invention will be further described with reference to the accompanying drawings to fully understand the objects, the features and the effects of the present invention.

Drawings

Fig. 1 shows the structure of the water outlet part of a prior large-flux reverse osmosis water purifier.

Fig. 2 shows a schematic structural diagram of an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a water outlet faucet according to an embodiment of the invention.

Fig. 4 is a schematic view of a connection structure of a built-in electronic control board according to an embodiment of the present invention.

FIG. 5 illustrates a schematic structural view of a faucet control interface in an embodiment of the present invention.

FIG. 6 is a schematic diagram of a faucet control interface in another embodiment of the present invention.

Detailed Description

Examples

As shown in fig. 2 to 6, the intelligent tap for quantitatively taking water for the large-flux reverse osmosis water purifier comprises a water inlet 1 and a water outlet 2; the water inlet 1 is sequentially connected with a low-voltage switch, a water inlet electromagnetic valve, a primary compound, a pump and a reverse osmosis filter element; the wastewater generated by the reverse osmosis filter element flows out from the wastewater outlet through the wastewater electromagnetic valve.

Wherein, the water outlet of the reverse osmosis filter element is sequentially connected with a one-way valve, an electromagnetic valve, a rear CB filter element, a flowmeter and a water outlet tap 2;

the water outlet faucet 2 comprises a built-in electric control plate 3 and a faucet control interface 4 matched with the built-in electric control plate 3;

the faucet control interface 4 comprises a water taking button 5 and a plurality of water quantity setting buttons, and water taking data is input to the built-in electric control board 3 through the water taking button 5 and the plurality of water quantity setting buttons;

the built-in electric control board 3 is respectively connected with the pump, the water inlet electromagnetic valve and the flowmeter, and controls the opening or closing of the pump and the water inlet electromagnetic valve through flow data and water taking data acquired by the flowmeter.

The principle of the invention lies in that the faucet with a mechanical valve core in the prior art is changed into an electronic faucet, the built-in electric control plate 3 is used for controlling the opening and closing of a pump and a water inlet electromagnetic valve so as to realize water outlet and water cut-off, the built-in electric control plate 3 can be used for setting different water outlet quantities, thus when the water quantity reaches a set value, the electromagnetic valve can be automatically closed to stop water outlet, and the problem of water overflow is solved.

In practical application, after the water amount is selected, the water taking button 5 is pressed, the built-in electric control board 3 outputs signals to the pump and the water inlet electromagnetic valve, the flowmeter starts to accumulate the water amount, when the accumulated water amount reaches the set water amount, the built-in electric control board 3 outputs signals to the pump and the water inlet electromagnetic valve, the pump and the water inlet electromagnetic valve are closed, and water outlet is stopped, so that the purpose of automatic control is achieved.

In some embodiments, the plurality of water volume setting buttons are water volume selection buttons, including a first water volume button 6, a second water volume button 7, and a third water volume button 8 representing a plurality of different water volume sizes.

In some embodiments, the plurality of water volume setting buttons are water volume adjustment buttons including a water volume increase button 9, a water volume value button 10, and a water volume decrease button 11.

The foregoing detailed description of the preferred embodiments of the invention has been presented. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.

Claims (3)

1. The quantitative water taking intelligent faucet for the large-flux reverse osmosis water purifier comprises a water inlet (1) and a water outlet faucet (2); the water inlet (1) is sequentially connected with a low-voltage switch, a water inlet electromagnetic valve, a primary composite, a pump and a reverse osmosis membrane filter element; the wastewater generated by the reverse osmosis membrane filter element flows out of the wastewater outlet through the wastewater electromagnetic valve; the method is characterized in that:

the water outlet of the reverse osmosis membrane filter element is sequentially connected with a one-way valve, an electromagnetic valve, a rear activated carbon filter element, a flow meter and the water outlet faucet (2);

the water outlet faucet (2) comprises a built-in electric control board (3) and a faucet control interface (4) matched with the built-in electric control board (3);

the faucet control interface (4) comprises a water taking button (5) and a plurality of water quantity setting buttons, and water taking data are input to the built-in electric control board (3) through the water taking button (5) and the water quantity setting buttons;

the built-in electric control board (3) is respectively connected with the pump, the water inlet electromagnetic valve and the flowmeter, and controls the opening or closing of the pump and the water inlet electromagnetic valve through flow data acquired by the flowmeter and water taking data.

2. The intelligent faucet of claim 1, wherein the water quantity setting buttons are water quantity selection buttons, and comprise a first water quantity button (6), a second water quantity button (7) and a third water quantity button (8) representing different water quantities.

3. The intelligent faucet of claim 1, wherein the water quantity setting buttons are water quantity adjusting buttons, including a water quantity increasing button (9), a water quantity value button (10) and a water quantity decreasing button (11).

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