CN115477403B - Water purifier control method and water purifier - Google Patents

Abstract

The invention relates to the technical field of water purifying equipment, and particularly discloses a control method of a water purifier and the water purifier. The water purifier comprises a pressure barrel, a flow detector is arranged on a pipeline between the pressure barrel and the water outlet of the water purifier, and the flow detector is used for detecting single water yield flowing through the water outlet of the water purifier. The control method of the water purifier comprises the following steps: acquiring the total amount of water flowing through a water outlet of the water purifier, and starting the water purifier to produce water if the total amount of water is larger than a first preset water outlet amount; wherein, the first preset water yield is smaller than the capacity of the pressure barrel. According to the control method of the water purifier, water production is started when the total water output amount of the water purifier is larger than the first preset water output amount, and when a user uses a small amount of water for a single time and receives water frequently, the water purifier does not start water production frequently and can not influence normal water receiving of the user, the service performance of the pressure barrel is utilized, the service lives of components such as a pump, a valve and the pressure barrel are prolonged, the running noise of the water purifier is reduced, and the use satisfaction of the user is improved.

Description

Water purifier control method and water purifier

Technical Field

The invention relates to the technical field of water purifying equipment, in particular to a control method of a water purifier and the water purifier.

Background

Along with the continuous improvement of the living standard of people, the quality of the living water is more and more important, the household water purifier is widely applied to the household daily life, and the household water purifier further filters tap water so as to meet the quality requirement of people on the living water.

In the prior art, a small-flux water purifier is generally provided with a water storage barrel such as a pressure barrel or a water drive barrel, and when the water storage barrel is full of water and reaches a certain pressure value, the water purifier stops running to produce water. When the user uses pure water each time, even if only one cup of water is used, the water purifier can be started and operated to produce water, and along with frequent use of the user, the water purifier can also be frequently started and operated to produce water. Thus, frequent opening operation can reduce the service life of components such as pumps, valves, pressure barrels and the like, and the operation noise of the machine can influence the user experience.

Therefore, there is a need to provide a control method of a water purifier to solve the above technical problems.

Disclosure of Invention

The invention aims to provide a control method of a water purifier, which solves the problem that the water purifier is frequently started to operate for water production and prolongs the service life of the whole machine and various components.

To achieve the purpose, the invention adopts the following technical scheme:

the control method of the water purifier, the water purifier includes the pressure barrel, there are flow detectors on the pipeline between water outlet of the said water purifier and the said pressure barrel, the said flow detector is used for detecting the single water yield flowing through said water outlet of the said water purifier, the said control method includes:

acquiring the total amount of water flowing through a water outlet of the water purifier, and starting the water purifier to produce water if the total amount of water is larger than a first preset water outlet amount;

wherein the first preset water yield is less than the capacity of the pressure barrel.

As a preferable technical scheme of the control method of the water purifier, after the pressure tank is full of water for a first preset time, if the total amount of water output does not reach the preset water output, the water purifier starts to produce water.

As a preferable technical scheme of the control method of the water purifier, if the total amount of the water discharged reaches a second preset water discharge amount, discharging the water in the pressure barrel;

wherein the second preset water yield is greater than the first preset water yield.

As a preferable technical scheme of the control method of the water purifier, if the total amount of the discharged water does not reach the second preset water yield and reaches the second preset time after the water in the pressure barrel is discharged last time, discharging the water in the pressure barrel;

wherein the second preset time is longer than the first preset time.

As a preferable technical scheme of the control method of the water purifier, a water quality value of the water in the pressure barrel is obtained, and if the water quality value is greater than a water quality standard value, the water in the pressure barrel is discharged.

As a preferable technical scheme of the control method of the water purifier, the obtained water quality value is transmitted to a remote control end, and if the water quality value is greater than a water quality standard value, the water in the pressure barrel can be discharged through remote control.

As a preferable technical scheme of the control method of the water purifier, after the water quality value is determined to be greater than the water quality standard value, when a third preset time is reached, if the water in the pressure barrel is not discharged by remote control, the water in the pressure barrel is automatically discharged.

As a preferable technical scheme of the control method of the water purifier, the obtained single water yield is not accumulated and counted in the total water yield in the water preparing process of the water purifier.

As a preferable technical scheme of the control method of the water purifier, if the obtained single water yield is greater than the third preset water yield, the water purifier starts to produce water;

wherein the third preset water yield is 75% -95% of the first preset water yield.

The invention further aims to provide the water purifier, which is long in service life and low in noise in the use process, and the satisfaction degree of the user is improved.

To achieve the purpose, the invention adopts the following technical scheme:

a water purifier employing the control method of any one of the above water purifiers.

The invention has the beneficial effects that:

according to the control method of the water purifier, when the total water output of the water purifier is larger than the first preset water output, the water purifier can start to produce water and is full of the pressure barrel, when a user uses a small amount of water for a single time and receives water frequently, the water purifier can not frequently start to produce water, normal water receiving of the user is not affected, the service performance of the pressure barrel is fully utilized, the service lives of components such as the pump, the valve and the pressure barrel are prolonged, the running noise of the water purifier is reduced, and the satisfaction degree of the user is improved.

The water purifier provided by the invention has long service life and low noise in the use process, and improves the satisfaction degree of users.

Drawings

FIG. 1 is a schematic diagram of piping connection of a filtration system inside a water purifier according to an embodiment of the present invention;

fig. 2 is a flowchart of a control method of a water purifier according to an embodiment of the present invention.

In the figure:

1. a pressure barrel; 2. a flow rate detector; 3. a PPC composite filter element; 4. a water inlet electromagnetic valve; 5. a booster pump; 6. a reverse osmosis filter element; 7. a one-way valve; 8. a high voltage switch; 9. three-way ball valve; 10. a waste water electromagnetic valve; 11. a water tap; 12. a conventional water outlet pipeline; 13. and a rear activated carbon filter element.

Detailed Description

In order to make the technical problems solved by the present invention, the technical solutions adopted and the technical effects achieved more clear, the technical solutions of the embodiments of the present invention will be described in further detail below with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, unless explicitly stated and limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

In the present invention, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

Aiming at the prior art, when a user uses pure water each time, even if the user uses less than one cup of water, the water purifier can be started and operated to produce water, and along with the frequent use of the user, the water purifier can also be started and operated to produce water frequently. Therefore, the frequent opening operation can reduce the service life of components such as a pump, a valve, a pressure barrel and the like, and the operation noise of the machine can influence the user experience.

Example 1

As shown in fig. 1, the water purifier provided in this embodiment includes a pressure tank 1, and a flow detector 2 is disposed on a pipeline between the pressure tank 1 and a water outlet of the water purifier, where the flow detector 2 is configured to detect a single water outlet flowing through the water outlet of the water purifier, and transmit data of the detected single water outlet to a controller of the water purifier.

In the prior art, the conventional pressure barrel 1 can stably output 5-7 liters of water only by using an internal air bag, for example, a 3.0G pressure barrel, and most users rarely use more than 2.5 liters of water once, if the water purifier is started to produce water by simply receiving 250ml of water, the water purifier is frequently started, and the performance of the pressure barrel 1 is not fully utilized, therefore, the flow detector 2 for detecting the water output is arranged at the downstream of the pressure barrel 1, and the controller records and accumulates the single water output of the flow detector 2 to judge whether the water purifier needs to be started to produce water, so that the water purifier is prevented from being started to operate frequently, the service lives of components such as a pump, a valve, the pressure barrel 1 and the like are prolonged, the operation noise of the water purifier is reduced, and the satisfaction degree of the users is improved.

In this embodiment, a post-positioned activated carbon filter element 13 is further disposed between the pressure barrel 1 and the flow meter 2 to further adsorb different colors and peculiar smell in the purified water, adjust the taste of the purified water, and inhibit the regeneration of bacteria in the purified water, thereby ensuring pure sweet and delicious taste.

The upstream of the pressure barrel 1 can be provided with a PPC composite filter element 3, a water inlet electromagnetic valve 4, a booster pump 5, a reverse osmosis filter element 6, a one-way valve 7 and a high-pressure switch 8 in sequence to form a complete filtering system in the water purifier. The PPC composite filter element 3 is used as primary filtration, has high filtration efficiency and low use cost, and is suitable for frequent replacement. The reverse osmosis filter element 6 is used as a secondary filtration, and the selective permeability of the reverse osmosis membrane which only can permeate a solvent (usually water) to entrap ionic substances or micromolecular substances is utilized, and static pressure on two sides of the membrane is used as a driving force to realize the process of separating a liquid mixture. The reverse osmosis filter element 6 can remove soluble metal salts, organic matters, bacteria, colloid particles and heating substances, namely, can intercept all ions, and has the advantages of high water quality of produced water, low operation cost, no pollution, convenient operation, reliable operation and the like. The booster pump 5 is used for increasing water flow, water is pumped into the pressure barrel 1 through the booster pump 5, the booster pump 5 stops working after the set pressure of the water purifier is reached, and water is pushed outwards by means of the air bag pressure in the pressure barrel 1 when water is needed. After the pressure in the pressure barrel 1 reaches the set pressure, the high-voltage switch 8 is closed to cut off the power supply, and the high-voltage switch mainly plays roles of cutting off the power supply and stopping.

Other components, such as a three-way ball valve 9 arranged at the water inlet, a waste water solenoid valve 10 arranged on the waste water drain pipe of the reverse osmosis filter element 6, etc., are also arranged in the filtering system of the water purifier, and are not described in detail herein, and are not particularly limited.

In this embodiment, a water outlet may be further provided on the pressure tank 1, and the water outlet is connected to the waste water drain line of the reverse osmosis filter element 6 through a pressure tank drain line, or a pressure tank drain pipe may be separately provided. The water quality in the pressure barrel 1 can be reduced due to long-time non-use or other factors, and the pressure barrel drain pipe is arranged so as to directly drain the water in the pressure barrel 1, and the water is not required to be filtered by the rear activated carbon filter element 13 and then drained through the faucet 11, so that the service life of the rear activated carbon filter element 13 is prolonged, and the use cost is reduced. An electromagnetic valve is also arranged on the pressure barrel drain pipe so as to automatically control the drainage of the pressure barrel 1.

In this embodiment, the water outlet of the PPC composite filter element 3 is further connected with a conventional water outlet pipeline 12, the conventional water outlet pipeline 12 is directly connected with a faucet 11, the faucet 11 is provided with two water inlets, a switching valve, a conventional water switch and a purified water switch are arranged in the faucet 11, the conventional water switch is turned on, the purified water switch is turned off, and the switching valve is switched to the water outlet of the faucet 11 to be communicated with the conventional water outlet pipeline 12, so that conventional water can be connected. The purified water switch is turned on, the conventional water switch is turned off, the switching valve is switched to the water outlet of the water hole head 11 to be communicated with the pipeline of the filtering system, and purified water can be connected. The setting mode can meet different requirements of users, and improves the satisfaction degree of the users.

Example two

The embodiment provides a control method of a water purifier, and the water purifier provided by the embodiment adopts the control method to solve the problems that in the prior art, a user receives water frequently, the water purifier can be started to operate frequently to produce water, the service life of components such as a pump, a valve, a pressure barrel 1 and the like can be reduced due to frequent starting operation, and meanwhile, the operation noise of the machine can influence the user experience.

Specifically, as shown in fig. 2, the control method of the water purifier provided in this embodiment includes: acquiring the total amount of water flowing through a water outlet of the water purifier, and starting the water purifier to produce water if the total amount of water is larger than a first preset water outlet amount; wherein the first preset water yield is smaller than the capacity of the pressure barrel 1.

Under the condition that the pressure barrel 1 is full of water and the water purifier is not started to produce water, the water purifier can stably supply a certain amount of water to users, so that the water purifier cannot start to operate to produce water when the total water output is smaller than the first preset water output, and can supply water to users in time when the total water output is larger than the first preset water output, the water purifier starts to operate to produce water and is full of the pressure barrel 1, when the users receive a small amount of water in a single time and receive water frequently, the water purifier cannot frequently start to produce water and cannot influence normal water receiving of the users, the service performance of the pressure barrel 1 is fully utilized, the service lives of components such as a pump, a valve, the pressure barrel 1 and the like are prolonged, the operation noise of the water purifier is reduced, and the use satisfaction of the users is improved.

In this embodiment, when the water purifier is in the process of producing water, if a user receives water, the flow detector 2 detects a water flow signal. Since the water purifier is running to produce water, even if the user is receiving water, the water purifier will stop producing water after the pressure tank 1 is fully filled with water, so the single water output detected by the flow detector 2 is not accumulated and counted into the total water output, i.e. is not used as data for judging whether to start running to produce water.

In the use process of the water purifier, if the obtained single water yield is larger than the third preset water yield, the water purifier starts water production, namely, the advanced water production principle is implemented, and the problem of water supply interruption is avoided. Wherein the third preset water yield is 75% -95% of the first preset water yield.

After the pressure barrel 1 is fully filled with water for a first preset time, if the total amount of water discharged does not reach the preset water yield, the water purifier starts to produce water and stores water into the pressure barrel 1 in time, so that the problem that water supply of the water purifier is interrupted when a subsequent user frequently takes water in a short time or the water yield is large at one time is avoided.

In the long-term use process of the water purifier, as the water is always stored in the pressure barrel 1, the problem that the residual water is doped with the new purified water exists, so that in order to ensure the health of drinking water of users, the water in the pressure barrel 1 needs to be periodically cleaned, and then the purified water is reinjected into the pressure barrel 1, so that the water quality of the water in the pressure barrel 1 is ensured to reach the standard. Specifically, if the total amount of water reaches the second preset water yield, discharging the water in the pressure barrel 1, wherein the second preset water yield is larger than the first preset water yield. If the total amount of the discharged water does not reach the second preset water yield, the water in the pressure barrel 1 can not be discharged.

Further, in order to more precisely ensure the health of the drinking water, if the total amount of the discharged water does not reach the second preset water yield, but reaches the second preset time after the water in the pressure barrel 1 is discharged last time, the water in the pressure barrel 1 is discharged, wherein the second preset time is longer than the first preset time. Even if the total amount of the discharged water does not reach the set value, the water in the pressure barrel 1 is discharged after the water in the pressure barrel 1 is not cleaned for a long time, and then the water is stored in the pressure barrel 1 again, so that the drinking water health of a user is ensured.

Example III

The embodiment provides a control method of a water purifier, and the water purifier provided by the embodiment adopts the control method to solve the problems that in the prior art, a user receives water frequently, the water purifier can be started to operate frequently to produce water, the service life of components such as a pump, a valve, a pressure barrel 1 and the like can be reduced due to frequent starting operation, and meanwhile, the operation noise of the machine can influence the user experience.

Specifically, as shown in fig. 2, the control method of the water purifier provided in this embodiment includes: acquiring the total amount of water flowing through a water outlet of the water purifier, and starting the water purifier to produce water if the total amount of water is larger than a first preset water outlet amount; wherein the first preset water yield is smaller than the capacity of the pressure barrel 1.

Under the condition that the pressure barrel 1 is full of water and the water purifier is not started to produce water, the water purifier can stably supply a certain amount of water to users, so that the water purifier cannot start to operate to produce water when the total water output is smaller than the first preset water output, and can supply water to users in time when the total water output is larger than the first preset water output, the water purifier starts to operate to produce water and is full of the pressure barrel 1, when the users receive a small amount of water in a single time and receive water frequently, the water purifier cannot frequently start to produce water and cannot influence normal water receiving of the users, the service performance of the pressure barrel 1 is fully utilized, the service lives of components such as a pump, a valve, the pressure barrel 1 and the like are prolonged, the operation noise of the water purifier is reduced, and the use satisfaction of the users is improved.

In this embodiment, when the water purifier is in the process of producing water, if a user receives water, the flow detector detects a water flow signal. Since the water purifier is running to produce water, even if the user is receiving water, the water purifier will stop producing water after the pressure tank 1 is fully filled with water, so the single water output detected by the flow detector 2 is not accumulated and counted into the total water output, i.e. is not used as data for judging whether to start running to produce water.

In the use process of the water purifier, if the obtained single water yield is larger than the third preset water yield, the water purifier starts water production, namely, the advanced water production principle is implemented, and the problem of water supply interruption is avoided. Wherein the third preset water yield is 75% -95% of the first preset water yield.

After the pressure barrel 1 is fully filled with water for a first preset time, if the total amount of water discharged does not reach the preset water yield, the water purifier starts to produce water and stores water into the pressure barrel 1 in time, so that the problem that water supply of the water purifier is interrupted when a subsequent user frequently takes water in a short time or the water yield is large at one time is avoided.

In the long-term use process of the water purifier, as the water is always stored in the pressure barrel 1, the problem that the residual water is doped with the new purified water exists, so that in order to ensure the health of drinking water of users, the water in the pressure barrel 1 needs to be drained regularly, then the purified water is refilled into the pressure barrel 1, and the water quality of the water in the pressure barrel 1 is ensured to reach the standard. Specifically, in the present embodiment, the water quality value of the water in the pressure tank 1 is obtained, and if the water quality value is greater than the water quality standard value, the water in the pressure tank 1 is discharged.

Further, in order to facilitate the user to obtain the water quality information in the pressure barrel 1 in time, in this embodiment, the obtained water quality value is transmitted to a remote control end, specifically, the remote control end is wirelessly connected with a controller of the water purifier, the remote control end may be a mobile device such as a mobile phone or a tablet, corresponding software is installed on the mobile device, and the software can push the water quality value of the water in the pressure barrel 1 to the user at regular time so as to facilitate the user to check. If the water quality value is greater than the water quality standard value, the water in the pressure barrel can be discharged through remote control, and a user can automatically determine whether to discharge the water in the pressure barrel 1 according to the water quality value pushed by the system, so that the use flexibility of the water purifier is improved.

Still further, confirm that quality of water quality value is greater than quality of water standard value, when reaching the third and predetermine time, if not the water in the long-range control discharge pressure vat 1, the automatic water in the discharge pressure vat 1, avoid forgetting the timely water in the discharge pressure vat 1 of user, cause drinking water health's problem, improved the intelligent control of pressure vat 1 drainage.

After the water quality value is determined to be greater than the water quality standard value, when the third preset time is reached, if the water in the pressure barrel 1 is not discharged through remote control, a reminding sound can be sent out so as to remind a user of timely discharging the water in the pressure barrel 1, and if the water in the pressure barrel 1 is not discharged in time after the reminding sound is sent out, the water in the pressure barrel 1 is automatically discharged again.

In this embodiment, the water quality value may be a TDS value, and if the TDS value of the water discharged from the water outlet of the water purifier is not up to standard, the water in the pressure tank 1 needs to be discharged and then new purified water is refilled. In other embodiments, the water quality value may be other values, which are not specifically limited herein.

In the case of detecting the water quality value, a detecting member for detecting the water quality may be provided in the pressure vessel 1, or a detecting member for detecting the water quality may be provided at the water outlet of the water purifier, which is not particularly limited.

It is to be understood that the above examples of the present invention are provided for clarity of illustration only and are not limiting of the embodiments of the present invention. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the invention are desired to be protected by the following claims.

Claims (9)

1. The control method of the water purifier, the water purifier includes the pressure barrel (1), there are flow detection meters (2) on the pipeline between water outlet of the said water purifier and the said pressure barrel (1), the said flow detection meter (2) is used for detecting the single water yield flowing through the said water outlet of the said water purifier, characterized by, the said control method includes:

acquiring the total amount of water flowing through a water outlet of the water purifier, and starting the water purifier to produce water if the total amount of water is larger than a first preset water outlet amount;

in the water preparation process of the water purifier, the obtained single water yield is not accumulated and counted into the total water yield;

wherein the first preset water yield is smaller than the capacity of the pressure barrel (1).

2. The method according to claim 1, wherein the water purifier starts water production if the total amount of water is not reached to the preset water yield after the water is stored from the pressure tank (1) for a first preset time.

3. The control method of a water purifier according to claim 1, characterized in that water in the pressure tank (1) is discharged if the total amount of water discharged reaches a second preset water outlet amount;

wherein the second preset water yield is greater than the first preset water yield.

4. A control method of a water purifier according to claim 3, characterized in that if the total amount of water discharged does not reach the second preset water discharge amount and reaches a second preset time after the last water discharge in the pressure tank (1), the water in the pressure tank (1) is discharged;

wherein the second preset time is longer than the first preset time.

5. The method according to claim 1, wherein a water quality value of water in the pressure tank (1) is obtained, and if the water quality value is greater than a water quality standard value, the water in the pressure tank (1) is discharged.

6. The control method of the water purifier according to claim 5, wherein the obtained water quality value is transmitted to a remote control terminal, and if the water quality value is greater than a water quality standard value, the water in the pressure tank (1) can be discharged through remote control.

7. The control method of a water purifier according to claim 6, wherein after the water quality value is determined to be greater than a water quality standard value, when a third preset time is reached, if the water in the pressure tank (1) is not discharged by remote control, the water in the pressure tank (1) is automatically discharged.

8. The method according to claim 1, wherein the water purifier starts water production if the obtained single water yield is greater than a third preset water yield;

wherein the third preset water yield is 75% -95% of the first preset water yield.

9. A water purifier, characterized in that the control method of the water purifier according to any one of claims 1 to 8 is adopted.