CN105080204A

CN105080204A - Water purifier

Info

Publication number: CN105080204A
Application number: CN201510382903.5A
Authority: CN
Inventors: 陈小平; 刘新宇
Original assignee: Xiaomi Inc; Foshan Viomi Electrical Technology Co Ltd
Current assignee: Beijing Xiaomi Technology Co Ltd; Xiaomi Inc; Foshan Viomi Electrical Technology Co Ltd
Priority date: 2015-07-01
Filing date: 2015-07-01
Publication date: 2015-11-25
Anticipated expiration: 2035-07-01
Also published as: CN105080204B

Abstract

The invention discloses a water purifier, belonging to the field of intelligent homes. The water purifier comprises a water purifier body, a discharging pipe assembly and a pipe interface assembly, wherein one end of the pipe interface assembly is connected with the water purifier body, and the other end of the pipe interface assembly is connected with the discharging pipe assembly; the pipe interface assembly comprises a water inlet pipeline and a sensor assembly which is arranged corresponding to the water inlet pipeline; and the water inlet pipeline is used for introducing water in the discharging pipe assembly into the water purifier body. According to the invention, the sensor assembly arranged inside the pipe interface assembly close to the water purifier body is used for detection of relative parameters, such as temperature and flow velocity, of the water entering the water purifier body, so reliability reduction of the water purifier or influence on filtering effect due to inconformity with filtering conditions of the water entering the water purifier body are avoided; thus, normal operation of the water purifier is guaranteed.

Description

Water purifier

Technical field

The disclosure relates to Smart Home field, particularly a kind of water purifier.

Background technology

Water purifier is also water purifier, filter, is the miniature water treatment facility according to carrying out deep purifying process to water quality to the instructions for use of water.

Kitchen water purifier is now widely used a kind of household water filter, the water inlet of this water purifier is directly connected with the tap in kitchen, the running water flowed out in tap is filtered, obtains the lower pure water of impurity content and the higher condensed water of impurity content, for user's choice for use.

Summary of the invention

The disclosure provides a kind of water purifier.Described technical scheme is as follows:

According to the first aspect of disclosure embodiment, a kind of described water purifier is provided to comprise:

Water purifier body, comb assembly and interface tube assembly;

Described interface tube assembly one end connects described water purifier body, and the other end connects described comb assembly;

Described interface tube assembly comprises the sensor cluster of inlet pipeline and the described inlet pipeline setting of correspondence; Described inlet pipeline is used for the water in described comb assembly to import described water purifier body.

Optionally, described sensor cluster comprises temperature sensor assembly, and described temperature sensor assembly comprises temperature inductor;

The sidewall of described inlet pipeline has the first hole;

Described temperature inductor probes into in the cavity of described inlet pipeline through described first hole.

Optionally, described temperature sensor assembly also comprises hollow screw and sealing ring;

The lateral wall of described inlet pipeline is formed with the first screwed hole be communicated with described first hole, and the sectional area of described first screwed hole is greater than the sectional area of described first hole;

Described temperature inductor comprises front end induction part, intermediate projections portion and tail end fixed part;

Described front end induction part through described first screwed hole and described first hole, probes into in the cavity of described inlet pipeline successively;

Described intermediate projections portion is isolated in the lateral wall of described inlet pipeline by described first hole, and is lined with described sealing ring between described intermediate projections portion and described first hole;

Described hollow screw is nested with the outside at described tail end fixed part;

When described hollow screw and described first screwed hole screw, described hollow screw and described intermediate projections portion support closes.

Optionally, described interface tube assembly also comprises: the pressure card being buckled in described inlet pipeline outer surface, and described sensor cluster is fixed on described inlet pipeline by described pressure card; Described pressure card has the second hole;

Described temperature inductor probes into described first inlet pipeline inner through described second hole, described first screwed hole, described sealing ring and described first hole successively;

The intermediate projections portion of described temperature inductor is isolated in the outside of described pressure card by described second hole.

Optionally, described sensor cluster comprises water flow sensing unit assembly, and described water flow sensing unit assembly comprises: Hall element, guide shell and the magnet rotor be arranged in described guide shell;

Described guide shell is arranged in the cavity of described second inlet pipeline;

Described Hall element is arranged on the outer surface of described second inlet pipeline, and the position of described Hall element is relative with the position of the magnet rotor in described guide shell.

Optionally, described interface tube assembly also comprises: the pressure card being buckled in described inlet pipeline outer surface;

Described Hall element is arranged in the draw-in groove of described pressure card, and by the outer surface of described pressure card clinching at described second inlet pipeline.

Optionally, described guide shell two ends are provided with the supporting construction of perforate;

Described magnet rotor comprises: rotating shaft and the open impeller arranged around described rotating shaft;

Described rotating shaft two ends overlap the supporting construction at described guide shell two ends respectively.

Optionally, the two ends of described rotating shaft overlap respectively by the supporting construction at rolling bearing and described guide shell two ends.

Optionally, described water purifier body also comprises: controller;

Described controller and described temperature sensor assembly are electrical connected.

Optionally, described controller, for receiving the temperature sensor data that described temperature sensor assembly sends, and when water flow temperature first predetermined condition corresponding to described temperature sensor data, control described water purifier and to quit work or the alarm controlled in described water purifier gives the alarm.

Optionally, described water purifier body also comprises: controller;

Described controller and described water flow sensing unit assembly are electrical connected.

Optionally, described controller, for receiving the water flow sensing unit data that described water flow sensing unit assembly sends, and when water velocity second predetermined condition corresponding to described water flow sensing unit data, control described water purifier and to quit work or the alarm controlled in described water purifier gives the alarm.

The technical scheme that embodiment of the present disclosure provides can comprise following beneficial effect:

By arranging sensor cluster in the interface tube assembly near water purifier body, for to the relevant parameter of water entering water purifier body, such as temperature and flow rate of water flow detect, avoid the water because entering water purifier body not meet filter condition and cause water purifier reliability reduce or affect filter effect, thus ensureing that water purifier normally runs.

Should be understood that, it is only exemplary that above general description and details hereinafter describe, and can not limit the disclosure.

Accompanying drawing explanation

Accompanying drawing to be herein merged in description and to form the part of this description, shows and meets embodiment of the present disclosure, and is used from description one and explains principle of the present disclosure.

Fig. 1 is the structural representation of the water purifier according to an exemplary embodiment;

Fig. 2 is the unassembled front schematic diagram of a kind of interface tube assembly according to another exemplary embodiment;

Fig. 3 is the profile after a kind of interface tube assembling components according to another exemplary embodiment;

Fig. 4 is the structure chart of the guide shell according to another exemplary embodiment;

Fig. 5 is the structural representation of a kind of water purifier according to another exemplary embodiment;

Fig. 6 is the flow chart of a kind of water purifier control method according to an exemplary embodiment.

Detailed description of the invention

Here will be described exemplary embodiment in detail, its sample table shows in the accompanying drawings.When description below relates to accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawing represents same or analogous key element.Embodiment described in following exemplary embodiment does not represent all embodiments consistent with the disclosure.On the contrary, they only with as in appended claims describe in detail, the example of apparatus and method that aspects more of the present disclosure are consistent.

Shown in Figure 1, it is the structural representation of a kind of water purifier according to an exemplary embodiment.This water purifier at least comprises water purifier body 10, comb assembly 20 and interface tube assembly 30.

Wherein, interface tube assembly 30 is near being arranged at water purifier body 10.Interface tube assembly 30 one end connects water purifier body 10, and the other end connects comb assembly 20;

In FIG, interface tube assembly 30 can comprise the sensor cluster 34 of inlet pipeline 32 and corresponding inlet pipeline 32 setting; Inlet pipeline 32 is for importing water purifier body 10 by the water in comb assembly 20.

In FIG, interface tube assembly 30 is arranged in water purifier body 10, and in actual applications, interface tube assembly also can be arranged on outside water purifier body 10, and is close to water purifier body 10.

Because the most of device in water purifier is working of plastics, enter the running water water temperature of water purifier too low or too high time, thrashing or reliability may be caused to reduce; In addition, when the running water flow entering water purifier is less, during insufficient water, the filter effect of water purifier can also be affected.Based on this, in the water purifier shown in disclosure embodiment, can in sensor cluster set temperature sensor cluster and water flow sensing unit assembly.

In sum, the water purifier provided shown in disclosure embodiment, by arranging sensor cluster in the interface tube assembly near water purifier body, for to the relevant parameter of water entering water purifier body, such as temperature and flow rate of water flow detect, avoid the water because entering water purifier body not meet filter condition and cause water purifier reliability reduce or affect filter effect, thus ensureing that water purifier normally runs.

Because the most of device in water purifier is working of plastics, enter the running water water temperature of water purifier too low or too high time, thrashing or reliability may be caused to reduce; In addition, when the running water flow entering water purifier is less, during insufficient water, the filter effect of water purifier can also be affected.Based on this, in the water purifier shown in disclosure embodiment, can in sensor cluster set temperature sensor cluster and water flow sensing unit assembly, do detailed introduction by the concrete setting of temperature sensor assembly and water flow sensing unit assembly and installation method below.

In embodiment of the present disclosure, in order to composition and the assembled relation of interface tube assembly 30 can be better understood, refer to shown in Fig. 2 and Fig. 3, wherein, Fig. 2 is the unassembled front schematic diagram of a kind of interface tube assembly according to another exemplary embodiment, and Fig. 3 is the profile after a kind of interface tube assembling components according to another exemplary embodiment.Composition graphs 2 and Fig. 3, inlet pipeline 32 comprises the first inlet pipeline 322 and the second inlet pipeline 324 that serial connection is arranged, and sensor cluster 34 comprises temperature sensor assembly 342 and water flow sensing unit assembly 344; Temperature sensor assembly 342 is corresponding with the first inlet pipeline 322 to be arranged, and water flow sensing unit assembly 344 is corresponding with the second inlet pipeline 324 to be arranged.

Composition graphs 2 and Fig. 3, have the first hole 322a in the first inlet pipeline 322, temperature sensor assembly 342 comprises: temperature inductor 342a; Temperature inductor 342a probes into the first inlet pipeline 322 inner by the first hole 322a.

Temperature sensor assembly 342 also comprises: hollow screw 342b and sealing ring 342c;

The lateral wall of the first inlet pipeline 322 is formed with the first screwed hole 322b be communicated with the first hole 322a, and the sectional area of the first screwed hole 322b is greater than the sectional area of the first hole 322a;

Temperature inductor 342a comprises front end induction part 342a1, intermediate projections portion 342a2 and tail end fixed part 342a3;

Front end induction part 342a through the first screwed hole 322b and the first hole 322a, probes into in the cavity of the first inlet pipeline 322 successively;

Intermediate projections portion 342a2 is isolated in the lateral wall of the first inlet pipeline 322 by the first hole 322a, and is lined with sealing ring 342c between intermediate projections portion 342a2 and the first hole 322a;

Hollow screw 342b is nested with in the outside of tail end fixed part 342a3;

When hollow screw 342b and the first screwed hole 322b screws, hollow screw 342b and intermediate projections portion 342a2 supports and closes.

Interface tube assembly 30 also comprises: the pressure card 36 being buckled in inlet pipeline 32 outer surface, and sensor cluster 34 is fixed on inlet pipeline 32 by pressure card 36; Pressure card 36 has the second hole 362;

Temperature inductor 342a probes into the first inlet pipeline 322 inner through the second hole 362, first screwed hole 322b, sealing ring 342c and the first hole 322a successively;

The intermediate projections portion of temperature inductor 342a is isolated in the outside of pressure card 36 by the second hole 362.

In figs. 2 and 3, temperature inductor 342a probes into the inside to the first inlet pipeline 322, and optionally, temperature inductor 342a also can probe into the inside of the connecting portion to the first inlet pipeline 322 and the second inlet pipeline 324.

In order to measure the temperature entering the water of water purifier body 10 more accurately, generally temperature inductor 342a is detected extremely more near the inside of the first inlet pipeline 322 of water purifier body 10.Optionally, temperature inductor 342a can also probe into the inside of the connecting portion to the first inlet pipeline 322.

Refer to Fig. 2 and Fig. 3, water flow sensing unit assembly 344 comprises: Hall element 344a, guide shell 344b and the magnet rotor 344c be arranged in guide shell.

In actual applications, in order to ensure the cleaning water of water purifier body 10 inside, need to ensure to provide enough water to water purifier body 10, now usually need to know the situation flowed to the water of water purifier body 10, now then need to arrange a water flow sensing unit assembly to detect the situation of water.At this moment interface tube assembly 30 also needs to arrange a water flow sensing unit assembly, as one of them sensor of sensor cluster.

The operation principles of water flow sensing unit assembly is: magnet rotor rotates under the effect of the water of flowing, the magnetic field of the change produced when Hall element then can sense that magnet rotor rotates, thus current process can be determined with, and according to the frequency determination flow rate of water flow of changes of magnetic field.

Guide shell 344b is arranged in the cavity of the second inlet pipeline 324; Hall element 344a is arranged on the outer surface of the second inlet pipeline 324, and the position of Hall element 344a is relative with the position of the magnet rotor 344c in guide shell 344b.Like this, when the magnet rotor in guide shell rotates under the effect of the current flowed into, Hall element can sense the magnetic field of the change that magnet rotor produces.

Hall element 344a is arranged in the draw-in groove 364 of pressure card 36, and by the outer surface of pressure card 36 clinching on the second water inlet pipe 324 tunnel.

Optionally, Hall element is placed in a storage box usually, and this storage box is placed in draw-in groove.

Shown in Figure 4, it is the structure chart of the guide shell according to another exemplary embodiment, and guide shell 344b two ends are provided with the supporting construction 344b2 of perforate; Magnet rotor 344c comprises: the open impeller that rotating shaft and twisted rotary shaft are arranged; Rotating shaft two ends overlap the supporting construction 344b2 at guide shell 344b two ends respectively.

When there being current to flow in guide shell, current can impact the blade of open impeller, and then drive magnet rotor to be that axle center is rotated with rotating shaft, the direction of rotating shaft is parallel with the direction of guide shell, in order to make the position of rotating shaft fix, need to arrange the supporting construction overlapped with rotating shaft at guide shell two ends, simultaneously, in order to not hinder the flowing of current, in this supporting construction, need perforate.

Wherein, because the flow velocity of current to be measured by water flow sensing unit assembly based on Hall effect, in order to ensure that Hall original paper can detect the change in magnetic field, the blade number of impeller is even number, and being distributed in around rotating shaft symmetrically.

Optionally, in order to reduce rotating shaft when rotating, and the frictional force between supporting construction, rotating shaft is more easily rotated, and the two ends of rotating shaft can overlap respectively by the supporting construction 344b2 at rolling bearing and guide shell 344b two ends.

In the water purifier that disclosure embodiment provides, consider that the temperature of distance to water of distance water purifier body has a certain impact, therefore temperature sensor assembly is arranged in the first inlet pipeline of water purifier body, water flow sensing unit assembly is arranged in distance water purifier body the second inlet pipeline far away, in actual applications, also the impact of distance on water temperature can not be considered, and water flow sensing unit assembly is arranged in the first inlet pipeline of water purifier body, temperature sensor assembly is arranged in distance water purifier body the second inlet pipeline far away, setting position for temperature sensor assembly and water flow sensing unit assembly in disclosure enforcement does not limit.

Optionally, the interface tube assembly in above-described embodiment also only can comprise temperature sensor assembly, or only comprises water flow sensing unit assembly.

In sum, the water purifier provided shown in disclosure embodiment, the sensor cluster comprising temperature sensor assembly and water flow sensing unit assembly is set in the interface tube assembly near water purifier body, for detecting the temperature of water and flow rate of water flow that enter water purifier body, the water temperature over-high because entering water purifier body or too low thrashing or the reliability of causing is avoided to reduce, and the discharge avoiding therefore entering water purifier is less and affect the filter efficiency of water purifier, thus ensure the efficiency that water purifier runs and reliability.

Refer to Fig. 5, it is the structural representation of a kind of water purifier according to another exemplary embodiment.This water purifier at least comprises water purifier body 10, comb assembly 20 and connects the interface tube assembly 30 of water purifier body 10 and comb assembly 20, and this water purifier body 10 also comprises: controller 12;

Controller 12 is electrical connected with temperature sensor assembly and water flow sensing unit assembly respectively.This temperature sensor assembly can be the temperature sensor assembly 342 shown in Fig. 2 and Fig. 3, and this water flow sensing unit assembly can be the water flow sensing unit assembly 344 shown in Fig. 2 and Fig. 3.Wherein, the mounting structure of temperature sensor assembly and water flow sensing unit assembly can be referring to figs. 2 and 3, repeats no more herein.

Controller 12, detect and the temperature sensor data sent for receiving temperature sensor assembly, and when water flow temperature first predetermined condition corresponding to temperature sensor data, control water purifier and to quit work or the alarm controlled in water purifier gives the alarm;

Or, controller 12, for receiving the first warning message that temperature sensor assembly sends when the water flow temperature first predetermined condition corresponding to temperature sensor data being detected, and control water purifier according to the first warning message and to quit work or the alarm controlled in water purifier gives the alarm.

Optionally, controller 12, for receiving water flow sensing unit component detection and the water flow sensing unit data sent, and when water velocity second predetermined condition corresponding to water flow sensing unit data, control water purifier quits work or the alarm controlled in water purifier gives the alarm;

Or, controller 12, for receiving the Secondary Report alarming information that water flow sensing unit assembly sends when the water velocity second predetermined condition corresponding to water flow sensing unit data being detected, and control water purifier according to Secondary Report alarming information and to quit work or the alarm controlled in water purifier gives the alarm.

Wherein, the first predetermined condition can be water flow temperature that temperature sensor data is corresponding lower than the first temperature threshold, or higher than the second temperature threshold.Second predetermined condition can be water velocity corresponding to water flow sensing unit data lower than the first flow rate threshold, or higher than the second current threshold value.

In sum, the water purifier provided shown in disclosure embodiment, the controller be connected with water flow sensing unit assembly with temperature sensor assembly is set in water purifier body, when water flow temperature being detected and/or flow rate of water flow is satisfied with fixed condition, control water purifier quits work or the alarm controlled in water purifier gives the alarm, the water temperature over-high because entering water purifier body or too low thrashing or the reliability of causing is avoided to reduce, and the discharge avoiding therefore entering water purifier is less and affect the filter efficiency of water purifier, thus ensure the efficiency that water purifier runs and reliability.

Refer to Fig. 6, it is the flow chart of a kind of water purifier control method according to an exemplary embodiment.The method is used in water purifier, this water purifier can be water purifier as shown in Figure 5, this water purifier at least comprises water purifier body, comb assembly and connects the water purifier of interface tube assembly of water purifier body and comb assembly, and this water purifier body also comprises controller, wherein, temperature sensor assembly in this water purifier in all parts and comb assembly and the mounting structure of water flow sensing unit assembly can in conjunction with reference to figure 2, Fig. 3 and Fig. 5, and this water purifier control method can comprise:

In step 602, the sensor information of controller receiving sensor assembly transmission.

Wherein, this sensor information can be the information that temperature sensor assembly sends, such as, this sensor information can be that temperature sensor assembly detects and the temperature sensor data sent, or this sensor information also can be the first warning message that temperature sensor assembly sends when temperature sensor data first predetermined condition being detected.

Or, this sensor information also can be the information that water flow sensing unit assembly sends, such as, this sensor information can be water flow sensing unit component detection and the water flow sensing unit data sent, or, this sensor information Secondary Report alarming information that also can be water flow sensing unit assembly send when water velocity second predetermined condition corresponding to water flow sensing unit data being detected.

In step 604, according to the sensor information received, water purifier is controlled.

Such as, detect and the temperature sensor data sent if this sensor information is temperature sensor assembly, then when the water flow temperature first predetermined condition that temperature sensor data is corresponding, control water purifier quits work or the alarm controlled in water purifier gives the alarm.

Or, the first warning message that if this sensor information is temperature sensor assembly to be sent when water flow temperature first predetermined condition corresponding to temperature sensor data being detected, then control water purifier according to this first warning message and to quit work or the alarm controlled in water purifier gives the alarm.

Or, if this sensor information is water flow sensing unit component detection and the water flow sensing unit data sent, then when the water velocity second predetermined condition that water flow sensing unit data are corresponding, control water purifier quits work or the alarm controlled in water purifier gives the alarm.

Or, if this sensor information is the Secondary Report alarming information that water flow sensing unit assembly sends when the water velocity second predetermined condition corresponding to water flow sensing unit data being detected, then controls water purifier according to Secondary Report alarming information and to quit work or the alarm controlled in water purifier gives the alarm.

In sum, the water purifier provided shown in disclosure embodiment, the controller be connected with water flow sensing unit assembly with temperature sensor assembly is set in water purifier body, when controller detects water flow temperature and/or flow rate of water flow is satisfied with fixed condition, control water purifier quits work or the alarm controlled in water purifier gives the alarm, the water temperature over-high because entering water purifier body or too low thrashing or the reliability of causing is avoided to reduce, and the discharge avoiding therefore entering water purifier is less and affect the filter efficiency of water purifier, thus ensure the efficiency that water purifier runs and reliability.

Those skilled in the art, at consideration description and after putting into practice invention disclosed herein, will easily expect other embodiment of the present disclosure.The application is intended to contain any modification of the present disclosure, purposes or adaptations, and these modification, purposes or adaptations are followed general principle of the present disclosure and comprised the undocumented common practise in the art of the disclosure or conventional techniques means.Description and embodiment are only regarded as exemplary, and true scope of the present disclosure and spirit are pointed out by claim below.

Should be understood that, the disclosure is not limited to precision architecture described above and illustrated in the accompanying drawings, and can carry out various amendment and change not departing from its scope.The scope of the present disclosure is only limited by appended claim.

Claims

1. a water purifier, is characterized in that, described water purifier comprises: water purifier body, comb assembly and interface tube assembly;

2. water purifier according to claim 1, is characterized in that, described sensor cluster comprises temperature sensor assembly, and described temperature sensor assembly comprises temperature inductor;

The sidewall of described inlet pipeline has the first hole;

3. water purifier according to claim 2, is characterized in that, described temperature sensor assembly also comprises hollow screw and sealing ring;

4. water purifier according to claim 1, is characterized in that, described sensor cluster comprises water flow sensing unit assembly, and described water flow sensing unit assembly comprises: Hall element, guide shell and the magnet rotor be arranged in described guide shell;

Described guide shell is arranged in the cavity of described inlet pipeline;

Described Hall element is arranged on the outer surface of described inlet pipeline, and the position of described Hall element is relative with the position of the magnet rotor in described guide shell.

5. water purifier according to claim 4, is characterized in that, described interface tube assembly also comprises: the pressure card being buckled in described inlet pipeline outer surface;

Described Hall element is arranged in the draw-in groove of described pressure card, and by the outer surface of described pressure card clinching at described inlet pipeline.

6. the water purifier according to claim 4 or 5, is characterized in that, described guide shell two ends are provided with the supporting construction of perforate;

7. water purifier according to claim 6, is characterized in that, the two ends of described rotating shaft overlap respectively by the supporting construction at rolling bearing and described guide shell two ends.

8. water purifier according to claim 2, is characterized in that, described water purifier body also comprises: controller;

9. water purifier according to claim 8, is characterized in that,

Described controller, for receiving the temperature sensor data that described temperature sensor assembly sends, and when water flow temperature first predetermined condition corresponding to described temperature sensor data, control described water purifier and to quit work or the alarm controlled in described water purifier gives the alarm.

10. water purifier according to claim 4, is characterized in that, described water purifier body also comprises: controller;

11. water purifiers according to claim 10, is characterized in that,

Described controller, for receiving the water flow sensing unit data that described water flow sensing unit assembly sends, and when water velocity second predetermined condition corresponding to described water flow sensing unit data, control described water purifier and to quit work or the alarm controlled in described water purifier gives the alarm.