CN206384968U - Filter - Google Patents

Abstract

The utility model discloses a kind of filter, wherein the filter includes housing, the control panel being connected with the housing, it is contained in the electrolysis unit of the housing, and the anion generator electrically connected with the control panel, the electrolysis unit includes the negative electrode and anode being electrically connected with the control panel, interconnected the first accommodating cavity and the second accommodating cavity is formed with the housing, and the 3rd accommodating cavity connected with second accommodating cavity, anode is provided with first accommodating cavity, negative electrode is provided with 3rd accommodating cavity, the oxygen that the anode electrolysis water is produced is placed in the upper end in second accommodating cavity, upper end in second accommodating cavity is provided with anion generator.The utility model can adjust the negative oxygen ion content in negative oxygen ion water, it is ensured that security.

Description

Filter

Technical field

The utility model is related to water filter technology field, more particularly to a kind of filter.

Background technology

At present, the conventional filter of in the market is simple in construction, only may filter that the impurity in water；Negative oxygen ion is conducive to people Body is healthy, still, and existing anion generator can not typically adjust the negative oxygen ion content of generation, also be applied only for In atmosphere carry out ionization produce negative oxygen ion, cause produce negative oxygen ion amount it is small, efficiency is low, it is difficult to meet demand.

Utility model content

Main purpose of the present utility model is to provide a kind of filter, it is intended to the negative oxygen in controllable adjustable negative oxygen ion water Ion concentration, it is ensured that security.

To achieve the above object, the utility model proposes a kind of filter, the filter include housing and with the housing The control panel of connection, the electrolysis unit for being contained in the housing and the anion generator electrically connected with the control panel, The electrolysis unit includes the negative electrode and anode being electrically connected with the control panel, is formed with the housing interconnected Set in first accommodating cavity and the second accommodating cavity, and the 3rd accommodating cavity connected with second accommodating cavity, first accommodating cavity It is equipped with anode, the 3rd accommodating cavity and is provided with negative electrode, the oxygen that the anode electrolysis water is produced is placed in second accommodating cavity Upper end in interior upper end, second accommodating cavity is provided with anion generator.

Preferably, the control panel includes transformer and voltage-regulation knob, and the anode and the negative electrode are electric respectively Property the connection transformer, the voltage-regulation knob connects the transformer, and the control panel also includes anion and adjusted Knob, the anion adjusting knob connects the anion generator.

Preferably, the control panel also includes control circuit, the display screen being electrically connected with the control circuit, described Voltage-regulation knob is presented on the display screen with the numerical value that the anion adjusting knob is adjusted respectively.

Preferably, the control panel also includes the WIFI devices being electrically connected with the control circuit, and external equipment leads to Cross the WIFI devices and be electrically connected with the control panel.

Preferably, the filter also includes sensor group, and the sensor group is electrically connected with the control circuit, detection Data are in the display screen display.

Preferably, the sensor group includes at least one level sensor, and the level sensor is placed in described second Accommodating cavity, and less than the anion generator.

Preferably, the sensor group also includes pressure sensor, PH sensors, hydrogen in the 3rd accommodating cavity At least one in gas sensor, lambda sensor and potentiometric transducer.

Preferably, the housing offers water inlet and delivery port, and the water inlet connects first accommodating cavity, described Delivery port connects the 3rd accommodating cavity.

Preferably, the sensor group also includes passing located at the flow sensor of the water inlet and/or water quality detection Sensor.

Preferably, the water inlet is located at the lower end of first accommodating cavity, and the delivery port is housed located at the described 3rd The upper end of chamber.

Technical solutions of the utility model set negative electrode, anode by being set in the first accommodating cavity in anode, the 3rd accommodating cavity The oxygen that electrolysis water is produced is placed in the second accommodating cavity, and the upper end in the second accommodating cavity is provided with anion generator, with this Make anion generator is quick in a large amount of oxygen to produce negative oxygen ion, and anion generator is arranged in the second accommodating cavity Upper end, do not contacted with water, it is ensured that the security of ionization, and anode, negative electrode and anion generator are electrically connected with control Panel, the negative oxygen ion content in negative oxygen ion water can be adjusted by control panel, makes the speed of the oxygen of anode electrolysis water generation The speed that rate converts the oxygen to negative oxygen ion and consumption soluble in water with anion generator keeps balancing.

Brief description of the drawings

, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art Or the accompanying drawing used required in description of the prior art is briefly described, it should be apparent that, drawings in the following description are only It is some embodiments of the present utility model, for those of ordinary skill in the art, is not paying the premise of creative work Under, other accompanying drawings can also be obtained according to the structure shown in these accompanying drawings.

Fig. 1 is the part section structural representation of the embodiment of the utility model filter one；

Fig. 2 is the part section structural representation of the left view of Fig. 1 filters；

The part section structural representation that Fig. 3 regards for the right side of Fig. 1 filters；

Fig. 4 is the theory structure schematic diagram of the control panel of filter in Fig. 1.

Drawing reference numeral explanation：

Label	Title	Label	Title
				10	Housing	23	Anion adjusting knob
11	First accommodating cavity	24	Control circuit
				12	Second accommodating cavity	25	Display screen
13	3rd accommodating cavity	26	WIFI devices
				14	Water inlet	30	Anode
15	Delivery port	40	Negative electrode
				20	Control panel	50	Anion generator
21	Transformer	60	Sensor group
				22	Voltage-regulation knob	61	Level sensor

Realization, functional characteristics and the advantage of the utility model purpose will be described further referring to the drawings in conjunction with the embodiments.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the present utility model, rather than all Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making creative work premise Lower obtained every other embodiment, belongs to the scope of the utility model protection.

It is to be appreciated that institute is directional in the utility model embodiment indicates (such as up, down, left, right, before and after ...) Relative position relation, motion conditions for being only used for explaining under a certain particular pose (as shown in drawings) between each part etc., such as When really the particular pose changes, then directionality indicates also correspondingly therewith to change.

In the utility model, unless otherwise clearly defined and limited, term " connection ", " fixation " etc. should do broad sense reason Solution, for example, " fixation " can be fixedly connected or be detachably connected, or integrally；Can mechanically connect, also may be used Be electrical connection；Can be joined directly together, can also be indirectly connected to by intermediary, can be the connection of two element internals Or the interaction relationship of two elements, unless otherwise clear and definite restriction.For the ordinary skill in the art, can be with Concrete meaning of the above-mentioned term in the utility model is understood as the case may be.

In addition, and can not be managed in the utility model such as relating to the description of " first ", " second " etc. is only used for describing purpose Solve to indicate or imply its relative importance or the implicit quantity for indicating indicated technical characteristic.Thus, define " the One ", at least one this feature can be expressed or be implicitly included to the feature of " second ".In addition, the skill between each embodiment Art scheme can be combined with each other, but must can be implemented as basis with those of ordinary skill in the art, when technical scheme With reference to occur it is conflicting or when can not realize it will be understood that the combination of this technical scheme is not present, also not in the utility model It is required that protection domain within.

The utility model proposes a kind of filter.

Referring to figs. 1 to Fig. 4, in the embodiment of the utility model one, the filter includes housing 10, is connected with housing 10 Control panel 20, the electrolysis unit (not indicating) and the anion generator electrically connected with control panel 20 for being contained in housing 10 50, electrolysis unit (not indicating) includes being formed with phase in the negative electrode 40 and anode 30 being electrically connected with control panel 20, housing 10 Intercommunicated the first accommodating cavity 11 and the second accommodating cavity 12, and the 3rd accommodating cavity 13 connected with the second accommodating cavity 12, first holds Put and anode 30 is provided with chamber 11, negative electrode 40 is provided with the 3rd accommodating cavity 13, the oxygen that the electrolysis water of anode 30 is produced is placed in Upper end in upper end in second accommodating cavity 12, the second accommodating cavity 12 is provided with anion generator 50.

Above-mentioned housing 10 is preferably that housing 10 includes being formed with the first housing and the second housing, the groove of the first housing It is formed with the 3rd accommodating cavity 12 in first accommodating cavity 11, the groove of the second housing, anode 30 is preferably positive plate, and is covered on the One accommodating cavity 11, negative electrode 40 is preferably minus plate, and is covered on the 3rd accommodating cavity, and the first housing and second shell body phase are mutually covered, Dividing plate or barrier film etc. are provided between anode 30 and negative electrode 40 therein, anode 30 is not directly connected with negative electrode 40, the first housing And second housing two grooves idle area formation the second accommodating cavity 12.One embodiment is provided with for the upper end of the first accommodating cavity 11 First opening, carries out the second accommodating cavity 12 of connection, and the lower end of the 3rd accommodating cavity 13 is attached the second accommodating cavity provided with the second opening 12, current are successively from water inlet 14 to the first accommodating cavity 11, the second accommodating cavity 12, the 3rd accommodating cavity 13, delivery port 15, i.e. water Stream at a in figure sequentially into b, c, d, to e.Anion generator 50 therein, the preferably generating of anion generator 50 Pin, which is placed in the second upper end of the accommodating cavity 12 away from water, and the oxygen stored with the upper end of the second accommodating cavity 12, carries out ionization generation greatly The negative oxygen ion of amount, also by control panel 20 be controlled regulation anion generator 50 input voltage, and anode 30 with The input voltage of negative electrode 40, makes negative oxygen ion content in the water in the accommodating cavity 13 of arrival the 3rd keep in the OK range of setting.

Further, anode 30 produces amount of oxygen and is directly proportional to the voltage that control panel 20 is inputted, when anode 30 is electrolysed When water reaction starts, highest safe range voltage can be first inputted, then gradually reduces magnitude of voltage until stablizing a fixed value.With This oxygen content for producing the electrolysis water of anode 30 is rapidly achieved suitable value, and stable oxygen is finally generated with stable voltage Gas, it is ensured that anion generator 50 produces largely stable negative oxygen ion in enough oxygen atmospheres.

Technical solutions of the utility model set negative electrode by being set in the first accommodating cavity 11 in anode 30, the 3rd accommodating cavity 13 40, the upper end that the oxygen that the electrolysis water of anode 30 is produced is placed in the upper end in the second accommodating cavity 12, the second accommodating cavity 12 is set There is anion generator 50, make anion generator 50 is quick in a large amount of oxygen to produce negative oxygen ion, and anion with this Generator 50 is arranged at the upper end in the second accommodating cavity 12, is not contacted with water, it is ensured that safety when anion generator 50 discharges Property, and anode 30, negative electrode 40 and anion generator 50 are electrically connected with control panel 20, can be adjusted by control panel 20 Negative oxygen ion content in negative oxygen ion water, makes speed and the anion generator 50 of the oxygen that the electrolysis water of anode 30 produces by oxygen Gas is converted into negative oxygen ion and the speed of consumption soluble in water keeps balance.

Reference picture 2, it is preferable that control panel 20 includes transformer 21 and voltage-regulation knob 22, anode 30 and negative electrode 40 Transformer 21 is electrically connected, the connection transformer 21 of voltage-regulation knob 22, control panel 20 also includes anion and adjusts rotation Button 23, the connected with anion generator 50 of anion adjusting knob 23.

By voltage-regulation knob 22 and anion adjusting knob 23 carry out manually regulation negative oxygen ion water in negative oxygen from Sub- content, when operating voltage adjusting knob 22 or anion adjusting knob 23, control panel 20 can also be finely tuned accordingly automatically The input voltage of anion generator 50 or anode 30, produces the hydrolysis of anode 30 generation oxygen and anion generator 50 Negative oxygen ion keeps stable state.

Reference picture 4, it is preferable that control panel 20 also includes control circuit 24, the display being electrically connected with control circuit 24 Screen 25, voltage-regulation knob 22 is presented on display screen 25 with the numerical value that anion adjusting knob 23 is adjusted respectively.Chain of command Plate 20 also includes the WIFI devices 26 being electrically connected with control circuit 24, and external equipment is electrically connected with by WIFI devices 26 and controlled Panel 24.

Above-mentioned WIFI devices 26 can remotely be connected with external equipment, such as mobile terminal, controller, on display screen 25 Interface information, includes voltage-regulation knob 22 and the digital and detection of the regulation of anion adjusting knob 23 of the control reception of circuit 24 Information etc. can be by the Real-time Feedback of WIFI devices 26 in external equipment, and external equipment can also be long-range by WIFI devices 26 Control voltage adjusting knob 22 and anion adjusting knob 23, further external equipment can also pass through the remote control of WIFI devices 26 The electric power starting of the filter and closing.

Reference picture 1 and Fig. 2, it is preferable that the filter also includes sensor group 60, sensor group 60 is electrically connected with control electricity Road 24, the data of detection show that sensor group 60 includes at least one level sensor 61, level sensor on display screen 25 61 are placed in the second accommodating cavity 12, and less than anion generator 50.Above-mentioned level sensor 61 can be set it is multiple, for preventing Contacted, it is ensured that the normal work of anion generator 50, prevented with anion generator 50 by the water in the second accommodating cavity 12 Burn out.

Preferably, pressure sensor, PH sensors, the hydrogen that sensor group 60 is also included in the 3rd accommodating cavity 13 are passed At least one in sensor, lambda sensor and potentiometric transducer.Housing 10 offers water inlet 14 and delivery port 15, enters The mouth of a river 14 connects the first accommodating cavity 11, and delivery port 15 connects the 3rd accommodating cavity 13.Sensor group 60 also includes being located at water inlet 14 The flow sensor and/or water quality detection sensor at place.

The above-mentioned sensor group 60 being located in the 3rd accommodating cavity 13 is used for the quality safety for ensureing to discharge water from delivery port 15 Reliably, pH value in water, hydrogen-oxygen content are made, negative oxygen ion content makes to drink by the filter in the OK range of setting Water be conducive to health, it is safe and reliable.Flow sensor and/or water quality detection sensing of the sensor group 60 at water inlet 14 Device, it is ensured that the water quality and flow flowed into by water inlet 14 in the first accommodating cavity 11, further, the detection of the sensor group 60 Value is in display on display screen 25, and be sent in external equipment by WIFI devices 26.

Further, water inlet 14 is located at the lower end of the first accommodating cavity 11, and delivery port 15 is upper located at the 3rd accommodating cavity 13 End.The lower end of the first accommodating cavity 11 is located at by water inlet 14, the water entered from water inlet in the first accommodating cavity 11 is reduced with this Pressure, and delivery port 15 is located at the upper end of the 3rd accommodating cavity 13, containing in the 3rd accommodating cavity 13 can be made by law of connected vessels The alkaline water of negative oxygen ion is controllable to be flowed out by delivery port.

Specifically an embodiment is to produce oxygen and acid water, oxygen in the Inner electrolysis water of the first accommodating cavity 11 by anode 30 Gas comes together in the upper end of the second accommodating cavity 12, and negative electrode 40 produces hydrogen and alkaline water in the Inner electrolysis water of the 3rd accommodating cavity 13；

The oxygen for ionizing the upper end of the second accommodating cavity 12 by anion generator 50 produces negative oxygen ion；

Acid water flows into the second accommodating cavity 12, negative oxygen ion and closes acid water, and is partially soluble in acid water；

Anode 30 and the voltage of negative electrode 40 are adjusted, and anion generator 50 produces the speed of negative oxygen ion.

Further, first, turn on the power on control panel 20, and electrolysis water reactive switches, anode 30 is in the first appearance Put the Inner electrolysis water of chamber 11 and produce oxygen and acid water, oxygen comes together in the upper end of the second accommodating cavity 12, and negative electrode 40 is in the 3rd accommodating cavity 13 Inner electrolysis water produce hydrogen and alkaline water, are then turned on anion generator 50 and switch, and anion generator 50 is electric by oxygen Negative oxygen ion is separated out, negative oxygen ion reacts with acid water, makes water in alkalescence and carries negative oxygen ion, then the second accommodating cavity 12 In the alkaline water with negative oxygen ion merged with the alkaline water in the 3rd accommodating cavity 13, discharged finally by delivery port.It is logical The anode 30 of control panel 20 and the voltage of negative electrode 40 are crossed, and the ionization oxygen of anion generator 50 produces the tune of the speed of negative oxygen ion Section, makes the pH value and negative oxygen ion content of the negative oxygen ion water finally given in suitable value range, it is ensured that acquisition is drunk Water security is reliable, is conducive to health.

Further, filter includes sensor group 60, and control panel 20 obtains the level sensor 61 of sensor group 60 Detect the water level value of the second accommodating cavity 12；Judge whether water level value exceedes the safety value of setting, if so, anion generator 50 is closed Power supply is closed, if it is not, the normal work of anion generator 50.

Above-mentioned level sensor 61 can be multiple, for detecting different height state water, and can send the second appearance in real time The water level value in chamber 12 is put to control panel 20, carries out judging whether to close anion generator 50 by control panel 20, with Protect anion generator 50 not to be immersed in the water, make the normal work of anion generator 50, be not burned.

Further, control panel 20 obtains many of the sensor detection that sensor group 60 is located in the 3rd accommodating cavity 13 Individual detected value；Judge whether each detected value is respectively positioned in safe range value, if so, the delivery port 15 of the 3rd accommodating cavity 13 of display Normal water outlet, if it is not, water inlet speed, anode 30 and the negative electrode of the water inlet 14 of regulation the first accommodating cavity 11 of connection of control panel 20 40 voltages, the ionization oxygen of anion generator 50 produce at least one in the speed of negative oxygen ion, make the equal position of each detected value In in safe range value.

The detection numerical value of above-mentioned sensor group 60 is transmitted in control panel 20 in real time, is sentenced by control panel 20 It is disconnected, i.e., it is compared with the safety value scope that has been set in control panel 20.The water quality that is flowed out by delivery port 15 is ensured with this Security.

Further, the data message of the acquisition of control panel 20 is sent to external equipment by WIFI devices 26；Receive outer The Regulate signal of portion's equipment；Adjust anode 30 and the voltage of negative electrode 40 and/or the ionization oxygen of anion generator 50 produce negative oxygen from The speed of son.

Above-mentioned WIFI devices 26 can be opened and closed by the button on control panel 20, when WIFI devices 26 are opened Qi Shi, external equipment can be matched with WIFI devices 26, or be attached WIFI devices 26 by password etc., to ensure to use The security of the filter, and remote monitoring is carried out by external equipment and the filter is operated, strengthen the intelligence of the filter And convenience.

Preferred embodiment of the present utility model is the foregoing is only, the scope of the claims of the present utility model is not thereby limited, It is every utility model of the present utility model design under, the equivalent structure made using the utility model specification and accompanying drawing content Conversion, or directly/be used in other related technical fields indirectly and be included in scope of patent protection of the present utility model.

Claims (10)

1. a kind of filter, it is characterised in that the control panel that is connected including housing, with the housing, be contained in the housing Electrolysis unit and the anion generator that is electrically connected with the control panel, the electrolysis unit includes and the chain of command Negative electrode and anode that plate is electrically connected with, are formed with interconnected the first accommodating cavity and the second accommodating cavity in the housing, and with It is provided with anode, the 3rd accommodating cavity and sets in 3rd accommodating cavity of the second accommodating cavity connection, first accommodating cavity Negative electrode is equipped with, the oxygen that the anode electrolysis water is produced is placed in the upper end in second accommodating cavity, second accommodating cavity Interior upper end is provided with anion generator.

2. filter as claimed in claim 1, it is characterised in that the control panel includes transformer and voltage-regulation is revolved The transformer is electrically connected in button, the anode and the negative electrode, and the voltage-regulation knob connects the transformer, institute Stating control panel also includes anion adjusting knob, and the anion adjusting knob connects the anion generator.

3. filter as claimed in claim 2, it is characterised in that the control panel also includes control circuit and the control The display screen that circuit processed is electrically connected with, the numerical value that the voltage-regulation knob is adjusted respectively with the anion adjusting knob is in Now on the display screen.

4. filter as claimed in claim 3, it is characterised in that the control panel also includes electrical with the control circuit The WIFI devices of connection, external equipment is electrically connected with the control panel by the WIFI devices.

5. filter as claimed in claim 3, it is characterised in that the filter also includes sensor group, the sensor group The control circuit is electrically connected with, the data of detection are in the display screen display.

6. filter as claimed in claim 5, it is characterised in that the sensor group includes at least one level sensor, The level sensor is placed in second accommodating cavity, and less than the anion generator.

7. filter as claimed in claim 5, it is characterised in that the sensor group also includes being located at the 3rd accommodating cavity At least one in interior pressure sensor, PH sensors, hydrogen gas sensor, lambda sensor and potentiometric transducer.

8. filter as claimed in claim 5, it is characterised in that the housing offers water inlet and delivery port, it is described enter The mouth of a river connects first accommodating cavity, and the delivery port connects the 3rd accommodating cavity.

9. filter as claimed in claim 8, it is characterised in that the sensor group is also included located at the water inlet Flow sensor and/or water quality detection sensor.

10. filter as claimed in claim 8, it is characterised in that the water inlet is located at the lower end of first accommodating cavity, The delivery port is located at the upper end of the 3rd accommodating cavity.