CN107875730A - Water purifier with filter element life monitoring device and filter element life monitoring method - Google Patents

Abstract

The invention discloses a kind of water purifier with filter element life monitoring device and a kind of filter element life monitoring method, wherein, filter element life monitoring method includes：Flowmeter detects the water flow for flowing through first-level filtering core, and the water flow signal detected is sent into flow control display device；The flow control display device utilizes the water flow signal, calculates the water inventory excessively for flowing through filter cores at different levels；Utilize the residual life percentage crossed water inventory and the default service life total amount of filter cores at different levels, calculate filter cores at different levels；Display device in the flow control display device shows the residual life percentage of filter cores at different levels.By technical scheme, client is grasped the service life situation of filter cores at different levels in time, improve the using effect of filter core.

Description

Water purifier with filter element life monitoring device and filter element life monitoring method

Technical field

The present invention relates to water purifier technical field, more particularly to a kind of water purifier and one kind with filter element life monitoring device Filter element life monitoring method.

Background technology

At present, what filter core all kinds of household water filters of in the market, typically can all configure, suspension that purification is gone in water removal, Colloid, microorganism etc..Filter cores at different levels have the service life of itself, irregularly change filter core, it is easy to secondary pollution is caused, and not But purifying water body is unable to, the content of harmful substance in water can be increased on the contrary.

In the prior art, the life control method of filter core to specifications suggest using by the upper filter core service life time recommended Family is regularly replaced.But in actual use, due to user's use habit and the otherness of daily frequency of usage, the party There are some defects in method, for the less client of daily frequency of usage, the daily run time of water purifier is shorter, and corresponding filter core makes Relatively short with the time, when may cause system prompt replacing filter core, filter core also not up to really scraps the time limit, causes too early Filter core is changed, forms the wasting of resources；And for the more client of daily frequency of usage, it is likely that cause filter element life to shift to an earlier date Expire, but user is also being continuing with, and influences water quality safety.Therefore the life-span of filter core is assessed not by using life time User's use habit and the otherness of daily frequency of usage can be taken into account.

The content of the invention

At least one of regarding to the issue above, the invention provides a kind of water purifier with filter element life monitoring device and A kind of filter element life monitoring method, by cmf record integrated flow signal parameter, it is transferred to filter core flow control-display dress Put, filter core flow control-display device crosses water inventory according to every grade of filter core is default, calculates every grade of filter core remaining life Percentage and real-time display come out, client is grasped the life status of filter cores at different levels in time, improve filter core use effect Fruit.

To achieve the above object, the invention provides a kind of water purifier with filter element life monitoring device, including：First-level filtering Core, flowmeter, mechanical inductive switch and flow control-display device；The water inlet of the one-level filter core is connected with water inlet pipe, institute The delivery port for stating one-level filter core is connected with the water inlet of the flowmeter, the delivery port of the flowmeter and the gooseneck faucet Water inlet is connected；The mechanical inductive switch is arranged on the interface channel between the three-level filter core and the gooseneck faucet, The flowmeter and the mechanical inductive switch are connected with the flow control-display device respectively；The mechanical inductive switch Including mechanical switch, the mechanical switch controls the flowing water of the gooseneck faucet；Flow control-the display device includes control Device and display device, the control device is used for the signal for receiving the flowmeter, and calculates the service life of filter cores at different levels, The display device is used for the service life for showing filter cores at different levels.

In the technical scheme, by cmf record integrated flow signal parameter, filter core flow control-display is transferred to Device, filter core flow control-display device cross water inventory according to every grade of filter core is default, calculate every grade of filter core residue and use the longevity The percentage and real-time display of life come out, and client is grasped the life status of filter cores at different levels in time, improve the use of filter core Effect.

In the above-mentioned technical solutions, it is preferable that the above-mentioned water purifier with filter element life monitoring device also includes two level filter core With three-level filter core, the delivery port of the flowmeter is connected with the water inlet of the two level filter core, the delivery port of the two level filter core It is connected with the water inlet of the three-level filter core, the delivery port of the three-level filter core is connected with the water inlet of the gooseneck faucet.

In the technical scheme, flowmeter is arranged between one-level filter core and two level filter core, naturally it is also possible to installed in two Between level filter core and three-level filter core, or before one-level filter core or after three-level filter core, according to the concrete practice of the present invention Situation is specifically set.

In the above-mentioned technical solutions, it is preferable that the core body of the one-level filter core, the two level filter core and the three-level filter core On be provided with identification chip, the mechanical inductive switch includes induction chip, the induction chip and the control device phase Even, when changing the one-level filter core, the two level filter core or the three-level filter core, the induction chip is to the identification chip It is identified, and identification signal is sent to the control device.

In the technical scheme, the identification chip on filter cores at different levels coordinates with the induction chip on mechanical inductive switch to be set Put, in the water purifier course of work, induction chip senses when having changed new identification chip, according to the information of identification chip, Judge the filter core type changed, and trigger the service life that flow control-display device resets this grade of filter core, show filter core Residual life percentage is absolutely.

Specifically, when the control device in flow control-display device receives the induced signal of induction chip, this is felt The residual life of filter core corresponding to induction signal is reset to absolutely, and controls display device to show the percent of corresponding filter core Hundred residual life percentage.In the course of work of water purifier, the water flow signal detected is sent to stream by flowmeter Measure the control device in control-display device, control device calculate flow through filter cores at different levels cross water inventory, or flowmeter is straight Connect the water inventory signal of crossing for flowing through filter cores at different levels that will be detected and be sent to control device, the mistake that control device will detect in real time Difference between the service life total amount of water inventory and default filter core at different levels, respectively with the service life total amount of corresponding filter core Ratio is sought, obtains the residual life percentage of filter cores at different levels, and controls display device to show the residual lifes hundred of filter cores at different levels Divide ratio.

In the above-mentioned technical solutions, it is preferable that the identification chip also includes storage device, for storing the control dress Put the service life of the filter cores at different levels calculated.

In the technical scheme, by setting storage device, the residual life for the filter cores at different levels that control device is calculated Percentage stores, after water purifier power-off restarting, the data that are stored in read control device so that display device can show Show water purifier power-off before filter cores at different levels residual life percentage.

In the above-mentioned technical solutions, it is preferable that the above-mentioned water purifier with filter element life monitoring device also includes communicator, The communicator is connected with the control device, and the communicator is used for the filter cores at different levels for calculating the control device Service life be sent to server.

In the technical scheme, by setting communicator, the residual life for the filter cores at different levels that control device is calculated Percentage is sent to server, and server is stored to the residual life data of the filter cores at different levels of different water purifiers, recorded, whole Reason, so that staff is further called and handled to data.

In the above-mentioned technical solutions, it is preferable that the one-level filter core is PP filter cores, and the two level filter core is active carbon filtration Core, the three-level filter core are reverse osmosis membrane filter element.Wherein, the pore size filter of the filter core of Three Estate is less and less, wherein, PP filters Core is used to removing the impurity such as suspension in liquid, particulate, iron rust, organic matter that active carbon filter core is used to effectively going in water removal, Chlorine residue and other radioactive substances, and have the effect of decolouring, go to eliminate the unusual smell, reverse osmosis membrane filter element is various viral, thin for filtering out Bacterium, heavy metal, solid dissolvable thing, Organic Pollutants, calcium ions and magnesium ions etc., so as to reach the purpose of water demineralization purification.

In the above-mentioned technical solutions, it is preferable that the display device includes percentage display module and filter core pattern displaying Module, the percentage include the residual life percentage of filter cores at different levels respectively, and the filter core pattern includes two kinds of different colours Filter core pattern.Wherein, display device includes percentage display module and filter core pattern display module, and percentage display module shows The residual life percentage of the filter core of Three Estate is shown, filter core pattern display module shows the filter core of the filter core of Three Estate Pattern, each filter core pattern have two kinds of transformable colors under control of the control means, and it is normal work to represent the filter core respectively Make state and service life done state, remind certain one-level filter core of user's water purifier to reach service life in many ways.It is excellent Selection of land, the filter core pattern for setting normal operating conditions are green, and the filter core pattern of service life done state is red.

Present invention also offers a kind of filter element life monitoring method, for the band filter element life proposed in above-mentioned technical proposal The water purifier of monitoring device, including：Flowmeter detects the water flow for flowing through first-level filtering core, the water flow signal that will be detected It is sent to flow control-display device；Flow control-the display device utilizes the water flow signal, calculates and flows through Filter cores at different levels cross water inventory；Water inventory and the default service life total amount of filter cores at different levels are crossed using described, calculates filters at different levels The residual life percentage of core；Display device in the flow control-display device shows the residual life hundred of filter cores at different levels Divide ratio.

In the technical scheme, the water flow of flowmeter flow filtration core is detected, and water flow is sent to Flow control-display device, flow control-display device calculate the water inventory excessively that each filter core is flowed through after filter cores at different levels are installed, Using the mistake water inventory of certain filter core and the service life total amount of the filter core is flowed through, the residual life percentage of the filter core is calculated, User is set to understand the service condition for learning each filter core.

In the above-mentioned technical solutions, it is preferable that above-mentioned filter element life monitoring method also includes：When changing filter core at different levels, Induction chip on mechanical inductive switch identifies the identification chip on filter cores at different levels；When recognizing the signal of identification chip, institute State flow control-display device trigger and control show the identification chip corresponding to residual life percentage for absolutely, show Filter core pattern corresponding to showing is green.

In the technical scheme, induction chip is equipped with the identification chip on filter core, when changing filter core, senses core Piece judges the type of filter core, and trigger flow control-display device and reset the filter core by the information of identification marking chip Residual life percentage is a hundred per cent, while filter core pattern corresponding to display is the green of filter core normal operating conditions.

In the above-mentioned technical solutions, it is preferable that above-mentioned filter element life monitoring method also includes：The residual life of filter cores at different levels Percentage real-time storage is in the storage device；After water purifier power-off restarting, the data in the storage device are read, and in institute State the residual life percentage that filter cores at different levels are shown in display device.

In the technical scheme, by setting storage device, the residual life for the filter cores at different levels that control device is calculated Percentage stores, after water purifier power-off restarting, the data that are stored in read control device so that display device can show Show water purifier power-off before filter cores at different levels residual life percentage.

In the above-mentioned technical solutions, it is preferable that above-mentioned filter element life monitoring method also includes：In the filters at different levels being calculated When crossing water inventory and exceeding the default service life total amount of corresponding filter core of core, the flow control-display device shows the filter core Residual life percentage be 0 percent, triggering display corresponding to filter core pattern for red.

In the technical scheme, when the use crossed water inventory and exceed corresponding filter core for the filter cores at different levels that control device calculates When life-span total amount, i.e. residual life percentage are 0, display device is controlled to show that the residual life percentage of the filter core is percentage Zero, while trigger filter core pattern display module show filter core service life done state red.

In the above-mentioned technical solutions, it is preferable that above-mentioned filter element life monitoring method also includes：Communicator is by the flow The residual life percentage for the filter cores at different levels that control-display device calculates is sent to server；Server is on backstage to water purification The service life of the filter cores at different levels of device carries out unified record, management.

In the technical scheme, by setting communicator, the residual life for the filter cores at different levels that control device is calculated Percentage is sent to server, and server is stored to the residual life data of the filter cores at different levels of different water purifiers, recorded, whole Reason, so that staff is further called and handled to data.

Compared with prior art, beneficial effects of the present invention are：Pass through cmf record integrated flow signal parameter, transmission To filter core flow control-display device, filter core flow control-display device is crossed water inventory according to every grade of filter core is default, calculated The percentage and real-time display for going out every grade of filter core remaining life come out, and client is grasped the life-span shape of filter cores at different levels in time Condition, improve the using effect of filter core.By setting storage device, the residual life for the filter cores at different levels that control device is calculated Percentage stores, after water purifier power-off restarting, the data that are stored in read control device so that display device can show Show water purifier power-off before filter cores at different levels residual life percentage.By setting communicator, control device is calculated The residual life percentage of the filter cores at different levels gone out is sent to server, remaining longevity of the server to the filter cores at different levels of different water purifiers Fate is according to being stored, being recorded, being arranged, so that staff is further called and handled to data.

Brief description of the drawings

Fig. 1 is the structural representation of the water purifier with filter element life monitoring device disclosed in an embodiment of the present invention.

In figure, the corresponding relation between each component and reference is：

1. one-level filter core, 2. flowmeters, 3. two level filter cores, 4. three-level filter cores, 5. mechanical inductive switches, the control of 6. flows- Display device, 7. gooseneck faucets, 8. water inlet pipes.

Embodiment

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the embodiment of the present invention In accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is The part of the embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, ordinary skill people The every other embodiment that member is obtained on the premise of creative work is not made, belongs to the scope of protection of the invention.

The present invention is described in further detail below in conjunction with the accompanying drawings：

As shown in figure 1, a kind of water purifier with filter element life monitoring device proposed according to one embodiment of present invention, Including：One-level filter core 1, two level filter core 3, three-level filter core 4, flowmeter 2, mechanical inductive switch 5 and flow control-display device 6； The water inlet of one-level filter core 1 is connected with water inlet pipe 8, and the delivery port of one-level filter core 1 is connected with the water inlet of flowmeter 2, flowmeter 2 Delivery port be connected with the water inlet of two level filter core 3, the delivery port of two level filter core 3 is connected with the water inlet of three-level filter core 4, three-level The delivery port of filter core 4 is connected with the water inlet of gooseneck faucet 7；On the core body of one-level filter core 1, two level filter core 3 and three-level filter core 4 It is provided with identification chip；Mechanical inductive switch 5 is arranged on the interface channel between three-level filter core 4 and gooseneck faucet 7, flowmeter 2 and mechanical inductive switch 5 be connected respectively with flow control-display device 6；Mechanical inductive switch 5 includes induction chip and machinery Switch, when changing one-level filter core 1, two level filter core 3 or three-level filter core 4, identification chip is identified induction chip, and machinery is opened Close the flowing water of control gooseneck faucet 7；Flow control-display device 6 includes control device and display device, and control device is used to connect The signal of flowmeter 2 and the induced signal of induction chip are received, and calculates the service life of filter cores at different levels, display device is used to show The service life of filter cores at different levels.

In this embodiment, integrated flow signal parameter is recorded by flowmeter 2, is transferred to filter core flow control-display Device 6, filter core flow control-display device 6 cross water inventory according to every grade of filter core is default, calculate the remaining use of every grade of filter core The percentage and real-time display in life-span come out, and client is grasped the life status of filter cores at different levels in time, improve making for filter core Use effect.Wherein, flowmeter 2 is differential pressure flowmeter 2, spinner flowmeter 2, restriction flowmeter 2, slit flowmeter 2, volume Flowmeter 2, electromagnetic flowmeter 2 or ultrasonic flowmeter 2, for detecting fluid flow, flowmeter 2 fills with flow control-display It is wire communication or communication between putting 6.

Wherein, flowmeter 2 is arranged between one-level filter core 1 and two level filter core 3, naturally it is also possible to installed in two level filter core 3 Between three-level filter core 4, or before one-level filter core 1 or after three-level filter core 4, according to the concrete practice situation of the present invention It is specific to set.

Wherein, the identification chip on filter cores at different levels is equipped with the induction chip on mechanical inductive switch 5, identification chip The middle type information for storing the filter core.In the water purifier course of work, induction chip senses when having changed new identification chip, According to the information of identification chip, the filter core type and the default service life of filter core type changed are judged, and trigger stream The service life that control-display device 6 resets this grade of filter core is measured, shows the residual life percentage of filter core for absolutely.Machine Tool switchs the flowing water for controlling gooseneck faucet 7, is prior art, will not be repeated here.

Specifically, when the control device in flow control-display device 6 receives the induced signal of induction chip, by this The residual life of filter core corresponding to induced signal is reset to absolutely, and controls display device to show the percentage for corresponding to filter core Hundred residual life percentage.In the course of work of water purifier, the water flow signal detected is sent to by flowmeter 2 Control device in flow control-display device 6, control device calculate the water inventory of crossing for flowing through filter cores at different levels, or flow The water inventory signal of crossing for flowing through filter cores at different levels detected is directly sent to control device by meter 2, and control device will detect in real time The difference crossed between water inventory and the service life total amount of default filter core at different levels arrived, uses the longevity with corresponding filter core respectively Life total amount seeks ratio, obtains the residual life percentage of filter cores at different levels, and controls display device to show the residues of filter cores at different levels Life-span percentage.Wherein, control device includes single-chip microcomputer, PLC, embedded controller or integrated circuit, induction chip For radio communication read-write equipment, identification chip uses IC-card, NFC chip or RFID chip, and induction chip is and identification chip phase Supporting read-write equipment.Preferably, induction chip is RFID read-write device, and preferably model HZA06-353A, identification chip is RFID.Display device is liquid crystal display, cathode-ray tube or light-emitting diode display.

In the above embodiment, it is preferable that identification chip also includes storage device, calculated for memory control device The service life of filter cores at different levels.

In this embodiment, by setting storage device in identification chip, filter cores at different levels that control device is calculated Residual life percentage store, when being reset after in water purifier power-off restarting or filter core taken out, in read storage device The data of storage so that display device can show that water purifier power-off before or filter core take out after reset corresponding filter core remain Remaining life-span percentage.

In the above embodiment, it is preferable that the above-mentioned water purifier with filter element life monitoring device also includes communicator, lead to T unit is connected with control device, and the service life for the filter cores at different levels that communicator is used to calculate control device is sent to clothes Business device.

In this embodiment, by setting communicator, the residual life hundred for the filter cores at different levels that control device is calculated Ratio is divided to be sent to server, server is stored to the residual life data of the filter cores at different levels of different water purifiers, recorded, whole Reason, so that staff is further called and handled to data.

Wherein, communicator includes wired communication mode and communication, and radio communication is WiFi communication, mobile number According to communication or ZigBee communication.

In the above embodiment, it is preferable that one-level filter core 1 is PP filter cores, two level filter core 3 is active carbon filter core, and three-level is filtered Core 4 is reverse osmosis membrane filter element.

In this embodiment, the pore size filter of the filter core of Three Estate is less and less, wherein, PP filter cores are used to remove liquid In suspension, particulate, the impurity such as iron rust, active carbon filter core is used for organic matter, chlorine residue and other radiation effectively gone in water removal Property material, and have the effect of decolouring, go to eliminate the unusual smell, reverse osmosis membrane filter element is used to filter out various viruses, bacterium, heavy metal, solid DDGS, Organic Pollutants, calcium ions and magnesium ions etc., so as to reach the purpose of water demineralization purification.Certainly, the filter core class of Three Estate Type can also be specifically chosen according to existing device and concrete practice situation of the invention.

In the above embodiment, it is preferable that display device includes percentage display module and filter core pattern display module, hundred Fraction includes the residual life percentage of filter cores at different levels respectively, and filter core pattern includes two different colors of filter core pattern.

In this embodiment, display device includes percentage display module and filter core pattern display module, percentage are shown Module shows the residual life percentage of the filter core of Three Estate, and filter core pattern display module shows the filter core of Three Estate Filter core pattern, each filter core pattern has two kinds of transformable colors, represents that the filter core is respectively under control of the control means Normal operating conditions and service life done state, certain one-level filter core 1 of user's water purifier is reminded to reach use in many ways Life-span.Preferably, the filter core pattern for setting normal operating conditions is green, and the filter core pattern of service life done state is red Color.

Present invention also offers a kind of filter element life monitoring method, for the band filter element life prison proposed in above-described embodiment The water purifier of device is surveyed, including：Flowmeter detects the water flow for flowing through first-level filtering core, and the water flow signal detected is sent out It is sent to flow control-display device；Flow control-display device utilizes water flow signal, calculates and flows through filter cores at different levels Cross water inventory；Water inventory and the default service life total amount of filter cores at different levels were utilized, calculates the residual life hundred of filter cores at different levels Divide ratio；Display device in flow control-display device shows the residual life percentage of filter cores at different levels.

In this embodiment, the water flow of the flow filtration core of flowmeter 2 is detected, and water flow is sent into stream Control-display device 6 is measured, flow control-display device 6 calculates the water inventory excessively that each filter core is flowed through after filter cores at different levels are installed, Using the mistake water inventory of certain filter core and the service life total amount of the filter core is flowed through, the residual life percentage of the filter core is calculated, User is set to understand the service condition for learning each filter core.

In the above embodiment, it is preferable that above-mentioned filter element life monitoring method also includes：When changing filter core at different levels, machine Induction chip on tool inductive switch 5 identifies the identification chip on filter cores at different levels；When recognizing the signal of identification chip, flow Control-display device 6 triggers and controls and show residual life percentage corresponding to the identification chip for absolutely, display is corresponding Filter core pattern for green.

In this embodiment, induction chip is equipped with the identification chip on filter core, when changing filter core, induction chip By the information of identification marking chip, the type of filter core is judged, and trigger flow control-display device 6 and reset the filter core Residual life percentage is a hundred per cent, while filter core pattern corresponding to display is the green of filter core normal operating conditions.

In the above embodiment, it is preferable that above-mentioned filter element life monitoring method also includes：The residual life hundred of filter cores at different levels Divide than real-time storage in the storage device；After water purifier power-off restarting, the data in read storage device, and in display device The residual life percentage of middle display filter cores at different levels.

In this embodiment, by setting storage device, the residual life hundred for the filter cores at different levels that control device is calculated Point ratio stores, after water purifier power-off restarting, the data that are stored in read control device so that display device can be shown The residual life percentage of the filter cores at different levels gone out before water purifier powers off.

In the above embodiment, it is preferable that above-mentioned filter element life monitoring method also includes：In the filter cores at different levels being calculated When crossing water inventory and exceeding the default service life total amount of corresponding filter core, flow control-display device 6 shows the residue of the filter core Life-span percentage is 0 percent, and filter core pattern corresponding to triggering display is red.

In this embodiment, the water inventory of crossing of the filter cores at different levels calculated when control device uses the longevity more than corresponding filter core Total amount is ordered, i.e., when residual life percentage is 0, controls display device to show that the residual life percentage of the filter core is percent Zero, while trigger the red that filter core pattern display module shows filter core service life done state.

In the above embodiment, it is preferable that above-mentioned filter element life monitoring method also includes：Communicator controls flow- The residual life percentage for the filter cores at different levels that display device 6 calculates is sent to server；Server is on backstage to water purifier The service life of filter cores at different levels carries out unified record, management.

In this embodiment, by setting communicator, the residual life hundred for the filter cores at different levels that control device is calculated Ratio is divided to be sent to server, server is stored to the residual life data of the filter cores at different levels of different water purifiers, recorded, whole Reason, so that staff is further called and handled to data.

Described above is embodiments of the present invention, it is contemplated that assesses filter core by using life time in the prior art Life-span can not take into account the technical problem of user's use habit and the otherness of daily frequency of usage, the present invention proposes a kind of band The water purifier of filter element life monitoring device and a kind of filter element life monitoring method, joined by cmf record integrated flow signal It is several, filter core flow control-display device is transferred to, filter core flow control-display device is total according to the default water excessively of every grade of filter core Amount, the percentage and real-time display for calculating every grade of filter core remaining life come out, and client is grasped filter cores at different levels in time Life status, improve the using effect of filter core.By setting storage device, filter cores at different levels that control device is calculated Residual life percentage stores, after water purifier power-off restarting, the data that are stored in read control device so that display dress Put the residual life percentage of the filter cores at different levels before can show that water purifier power-off.By setting communicator, will control The residual life percentage for the filter cores at different levels that device calculates is sent to server, at different levels filter cores of the server to different water purifiers Residual life data stored, recorded, arranged, so that staff is further called and handled to data.

The preferred embodiments of the present invention are the foregoing is only, are not intended to limit the invention, for the skill of this area For art personnel, the present invention can have various modifications and variations.Within the spirit and principles of the invention, that is made any repaiies Change, equivalent substitution, improvement etc., should be included in the scope of the protection.

Claims (10)

1. a kind of water purifier with filter element life monitoring device, including gooseneck faucet, it is characterised in that also include：One-level filter core, Flowmeter, mechanical inductive switch and flow control-display device；

The water inlet of the one-level filter core is connected with water inlet pipe, the delivery port of the one-level filter core and the water inlet of the flowmeter It is connected, the delivery port of the flowmeter is connected with the water inlet of the gooseneck faucet；

The mechanical inductive switch is arranged on the interface channel between the three-level filter core and the gooseneck faucet, the flow Meter and the mechanical inductive switch are connected with the flow control-display device respectively；

The mechanical inductive switch includes mechanical switch, and the mechanical switch controls the flowing water of the gooseneck faucet；

Flow control-the display device includes control device and display device, and the control device is used to receive the flow The signal of meter, and the service life of filter cores at different levels is calculated, the display device is used for the service life for showing filter cores at different levels.

2. the water purifier according to claim 1 with filter element life monitoring device, it is characterised in that also including two level filter core With three-level filter core, the delivery port of the flowmeter is connected with the water inlet of the two level filter core, the delivery port of the two level filter core It is connected with the water inlet of the three-level filter core, the delivery port of the three-level filter core is connected with the water inlet of the gooseneck faucet.

3. the water purifier according to claim 2 with filter element life monitoring device, it is characterised in that the one-level filter core, Identification chip is provided with the core body of the two level filter core and the three-level filter core, the mechanical inductive switch includes sensing core Piece, the induction chip are connected with the control device, are changing the one-level filter core, the two level filter core or three-level filter During core, the identification chip is identified the induction chip, and identification signal is sent into the control device.

4. the water purifier according to claim 3 with filter element life monitoring device, it is characterised in that the identification chip is also Including storage device, the service life of the filter cores at different levels calculated for storing the control device.

5. the water purifier according to claim 1 with filter element life monitoring device, it is characterised in that also include communication dress Put, the communicator is connected with the control device, and the communicator is at different levels for the control device to be calculated The service life of filter core is sent to server.

6. a kind of filter element life monitoring method, for any one of claim 1 to 5 with filter element life monitoring device Water purifier, it is characterised in that including：

Flowmeter, which detects, flows through the water flow of first-level filtering core, and the water flow signal detected is sent into flow control-aobvious Showing device；

Flow control-the display device utilizes the water flow signal, calculates the water inventory excessively for flowing through filter cores at different levels；

Utilize the residual life percentage crossed water inventory and the default service life total amount of filter cores at different levels, calculate filter cores at different levels Than；

Display device in the flow control-display device shows the residual life percentage of filter cores at different levels.

7. filter element life monitoring method according to claim 6, it is characterised in that also include：

When changing filter core at different levels, the induction chip on mechanical inductive switch identifies the identification chip on filter cores at different levels；

When recognizing the signal of identification chip, the flow control-display device, which is triggered and controlled, shows the identification chip pair The residual life percentage answered is absolutely, filter core pattern corresponding to display is green.

8. filter element life monitoring method according to claim 6, it is characterised in that also include：

The residual life percentage real-time storage of filter cores at different levels is in the storage device；

After water purifier power-off restarting, the data in the storage device are read, and filters at different levels are shown in the display device The residual life percentage of core.

9. filter element life monitoring method according to claim 6, it is characterised in that also include：

In the water inventory excessively for the filter cores at different levels being calculated service life total amount default more than corresponding filter core, the flow control System-display device shows that the residual life percentage of the filter core is 0 percent, and filter core pattern corresponding to triggering display is red.

10. filter element life monitoring method according to claim 6, it is characterised in that also include：

The residual life percentage for the filter cores at different levels that communicator calculates the flow control-display device is sent to service Device；

Server carries out unified record, management to the service life of the filter cores at different levels of water purifier on backstage.