CN110081649A - Refrigerator - Google Patents

Abstract

The issue of the present invention is to provide a kind of cold storage plants being easy from the electrode of ion generation unit removal attachment.The means for solving the above subject are to provide a kind of refrigerator (100) comprising: door (102L), (102R) of refrigerating chamber (103)；Ion generation unit (110), releases ion with discharge electrode from ion generation and supplies to refrigerator, and the ion generation is that linear multiple electric conductors are constituted in one end by bundle with discharge electrode；And control unit (190), its be used for according to door (102L), (102R) opening action and ion generation unit (110) are connected, according to door (102L), (102R) closing motion and disconnect ion generation unit (110).

Description

Refrigerator

Technical field

The present invention relates to the technologies for the refrigerator for accommodating food, beverage etc., more particularly to the ice for carrying ion generation unit Case.

Background technique

Previously, it is known to ion generation unit and the refrigerator for having it.For example, in Japanese Unexamined Patent Publication 2010-281526 Bulletin (patent document 1), announcement have refrigerator.According to patent document 1, have: storeroom stores reserve；Cooler generates Cold air；Cold air access, circulate the cold air generated with cooler；Discharge opening will be open in the wall surface of storeroom and be circulated in The cold air of cold air access spues to storeroom；And ion generating apparatus, the ion generating unit for generating ion is configured at cold Near discharge opening in gas access.

In addition, in Japanese Unexamined Patent Publication 2002-58731 bulletin (patent document 2) announcement have following situation: by the same produce Raw anion and cation, generate the hydrogen peroxide H as active specy₂O₂Or hydroxide base OH, due to the H₂O₂Or OH Indicate extremely strong activity and can remove planktonic bacteria etc..

Moreover, in Japanese Unexamined Patent Publication 2016-207626 bulletin (patent document 3), announcement have discharge electrode cleaning appliance and The clean method of discharge electrode.According to patent document 3, discharge electrode cleaning appliance cleans linear multiple electric conductors in one end Side is bundled and is configured to the ion generation discharge electrode of brush, and is had and be equipped with the first of the first cleaning member in front end side Intermediate plate, with the second intermediate plate for being equipped with the second cleaning member in front end side, first clamping piece and second intermediate plate are configured to clear by first Clean component and the second cleaning member and ion generation discharge electrode can be sandwiched, the first cleaning member and the second cleaning member be by Capture the porous material composition for being attached to the foreign matter of ion generation discharge electrode.

Existing technical literature

Patent document

Patent document 1: Japanese Unexamined Patent Publication 2010-281526 bulletin

Patent document 2: Japanese Unexamined Patent Publication 2002-58731 bulletin

Patent document 3: Japanese Unexamined Patent Publication 2016-207626 bulletin

Summary of the invention

The technical problems to be solved by the invention

The yield of ion is reduced if the electrode that attachment is attached to ion generation unit, therefore must pass through patent document The cleaning such as 3 revealed technologies, the attachment for removing electrode.However, having the ion set on refrigerator as illustrated in patent document 1 It generates unit and is configured in the situation near the deep locular wall of storeroom, it is difficult to use the cleaning electricity such as discharge electrode cleaning appliance Pole.In addition, refrigerator does not have power switch usually, therefore user has in the state of putting into power supply by cleaning appliance cleaning It is dangerous for applying the discharge electrode of the anxiety of high voltage.

Therefore, the purpose of the present invention is to provide a kind of refrigerators, even if without using discharge electrode cleaning appliance etc., it can also be from ion The electrode for generating unit removes attachment.

The means solved the problems, such as

If certain form according to the present invention, provides a kind of refrigerator, comprising: the door of refrigerating chamber；Ion generation unit, Ion is released with discharge electrode from ion generation and is supplied to refrigerator, and the ion generation is the multiple of threadiness with discharge electrode Electric conductor is constituted in one end by bundle；And control unit, it is used for the opening action according to door and ion is connected and generates list Member, according to door closing motion and disconnect ion generation unit.

Invention effect

In this way, according to the present invention, a kind of refrigerator is provided, even if without using discharge electrode cleaning appliance etc., it can also be from ion The electrode for generating unit removes attachment.

Detailed description of the invention

Fig. 1 is the whole front view of the refrigerator 100 of first embodiment.

Fig. 2 is the side cross-sectional, view of the refrigerator 100 of first embodiment.

Fig. 3 is the in-built sectional view for showing the ion generation unit 110 of first embodiment.

Fig. 4 is the circuit diagram of the ion generation unit 110 of first embodiment.

Fig. 5 is the block diagram for showing a part of the composition of refrigerator 100 of first embodiment.

Fig. 6 is the flow chart for showing the processing of the control unit 190 of refrigerator 100 of first embodiment.

Fig. 7 is the mental map of the composition on 110 periphery of ion generation unit for the first state for showing second embodiment.

Fig. 8 is the mental map of the composition on 110 periphery of ion generation unit for the second state for showing second embodiment.

Fig. 9 is the mental map of the composition on 110 periphery of ion generation unit for the third state for showing second embodiment.

Figure 10 is the mental map of the composition on 110 periphery of ion generation unit for the first state for showing third embodiment.

Figure 11 is the mental map of the composition on 110 periphery of ion generation unit for the second state for showing third embodiment.

Figure 12 is the mental map of the composition on 110 periphery of ion generation unit for the third state for showing third embodiment.

Figure 13 is the mental map of the composition on 110 periphery of ion generation unit for the first state for showing the 4th embodiment.

Figure 14 is the mental map of the composition on 110 periphery of ion generation unit for the second state for showing the 4th embodiment.

Figure 15 is the mental map of the composition on 110 periphery of ion generation unit for the first state for showing the 5th embodiment.

Figure 16 is the mental map of the composition on 110 periphery of ion generation unit for the second state for showing the 5th embodiment.

Figure 17 is the mental map of the composition on 110 periphery of ion generation unit for the third state for showing the 5th embodiment.

Figure 18 is the block diagram for showing the composition of refrigerator 100 of sixth embodiment.

Figure 19 is the flow chart for showing the processing of the control unit 190 of refrigerator 100 of sixth embodiment.

Figure 20 is the mental map for showing the composition on 110 periphery of ion generation unit of the 7th embodiment.

Specific embodiment

Hereinafter, one side is referring to attached drawing, various embodiments of the present invention will be described for a face needle.It is right in the following description The identical label of identical components marking.These title and function is also identical.Therefore, do not repeat about the detailed of these Explanation.

[first embodiment]

The ion generation unit 110 of present embodiment is for example equipped on refrigerator 100 as shown in Figure 1.Refrigerator 100 for example by Ontology 101 and door 102L, 102R etc. are constituted.Moreover, the inside of ontology 101 include main refrigerating space 103, reefer space 105, Fruit box 106, vegetable box 107, ice storage capacity 108 etc..In present embodiment, in main refrigerating space 103 be equipped with cooling box (chilled case)104.Cooling box 104 is made of lower box 104A and upper box 104B, and the lower box 104A is configured in front end It can be pulled out forwards with the antetheca for becoming door, the upper box 104B is in being fixed in main refrigerating space 103 and lower box 104A is to make to become air-tight state in cooling box 104 together with lower box 104A under receiving state.

As shown in Fig. 2, being equipped with the ion generation unit 110 of the cooling box 104 in the cooling box 104.In more detail and Speech is equipped with air coolant tube 131 as shown in Figure 2, circulates in one of the cold air of air coolant tube 131 in the rear of cooling box 104 Point, it circulates from discharge opening 133 along the outer wall of lower box 104A, upper box 104B, cools down in cooling box 104 indirectly.Moreover, ion Unit 110 is generated can release ion to the mode in cooling box 104, is configured in and connects with the upper box 104B of cooling box 104 In logical space.It is therefore possible to prevent the wind of cold air directly contacts the ingesta in cooling box 104, while ion being supplied to cold But in box 104.

In addition, ion generation unit 110 is not limited in cooling box 104, can also be configured in fruit box 106, vegetable box 107, In reefer space 105, air coolant tube 131.

Herein, it is illustrated for the construction of the ion generation unit of present embodiment 110.Fig. 3 is to show this embodiment party The in-built sectional view of the ion generation unit 110 of formula.Ion generation unit 110 has two discharge electrodes 1,2, ring-type Induction electrode 3,4 and the rectangular printed base plate 5,6 of two panels.Induction electrode 3 is for forming electricity between discharge electrode 1 The electrode of field.Induction electrode 4 is the electrode for forming electric field between discharge electrode 2.Discharge electrode 1 be for sense Answer the electrode that anion is generated between electrode 3.Discharge electrode 2 is the electrode for generating cation between induction electrode 4.

Printed base plate 5,6 is spaced fixed to be configured spaced and parallelly.Induction electrode 3 is in the longitudinal direction of printed base plate 5 One end surface, formed using the wiring layer of printed base plate 5.Perforation printed base plate 5 is provided in the inside of induction electrode 3 Hole 5a.Induction electrode 4 uses the wiring layer shape of printed base plate 5 in the surface of the other end of the longitudinal direction of printed base plate 5 At.The hole 5b of perforation printed base plate 5 is provided in the inside of induction electrode 4.

Discharge electrode 1,2 is respectively vertically arranged relative to printed base plate 5,6.The base end part of discharge electrode 1, which is inserted, to be embedded in The hole of printed base plate 6, the other end penetrate through the center of the hole 5a of printed base plate 5.The base end part of discharge electrode 2 is inserted embedded in printing base The hole of plate 6, the other end penetrate through the center of the hole 5b of printed base plate 5.Discharge electrode 1,2 respective base end parts are consolidated by welding Due to printed base plate 6.

Induction electrode 3,4 is formed in printed base plate 5, and discharge electrode 1,2 is fixed the printed base plate different from printed base plate 5 6.Therefore, even ion generating apparatus is placed on the situation under high humidity environment, discharge electrode 1,2 and induction also be can inhibit The leakage of electric current between electrode 3,4, can steadily generate ion.

Discharge electrode 1,2 respective front ends are formed as brush.Discharge electrode 1 has multiple threadiness set on its front end Electric conductor 7, the joint portion 7a with the root for being bundled multiple electric conductors 7.Discharge electrode 21 has set on the multiple of its front end The joint portion 8a of linear electric conductor 8 and the root for being bundled multiple electric conductors 8.

Fig. 4 is the circuit diagram of the ion generation unit 110 of present embodiment.Referring to Fig. 4, ion generation unit 110 in addition to Other than discharge electrode 1,2 and induction electrode 3,4, also there is power supply terminal T1, ground terminal T2, diode 32,33 and boosting to become Depressor 31.The anode and cathode of DC power supply are connected separately in power supply terminal T1 and ground terminal T2.It is applied in power supply terminal T1 Added with direct current power source voltage (such as+12V or+15V), ground terminal T2 is grounded.Power supply terminal T1 and ground terminal T2 via Power circuit 30 is connected to step-up transformer 31.

Step-up transformer 31 includes primary coil (primary winding) 31a and secondary coil (secondary winding)31b.A terminal of secondary coil 31b is connected to induction electrode 3,4, and another terminal is connected to the cathode of diode 32 And the anode of diode 33.The anode of diode 32 is connected to the base end part of discharge electrode 1, and the cathode of diode 33, which is connected to, to be put The base end part of electrode 2.

Referring to Fig. 3 and Fig. 4, the movement for ion generation unit 110 is illustrated.If in power supply terminal T1 and ground terminal Direct current power source voltage is applied between sub- T2, then to capacitor possessed by power circuit 30 (condenser) by charge charging.Quilt The charge in capacitor that charges is discharged via the primary coil 31a of step-up transformer 31, generates pulse electricity in primary coil 31a Pressure.

If generating pulse voltage in primary coil 31a, in secondary coil 31b, just and negative high voltage pulse one side is handed over Mutually decay, generates on one side.Negative high voltage pulse is applied in discharge electrode 1 via diode 32, positive high voltage arteries and veins Punching is applied in discharge electrode 2 via diode 33.The electric conductor 7,8 in the front end of discharge electrode 1,2 generates corona as a result, Electric discharge generates anion and cation respectively.

In addition, cation be multiple hydrones around hydrogen ion (H <+>) clustering (clustering) cluster Ion is expressed as H <+> (H₂O) m (arbitrary integer that m is 0 or more).Anion is multiple hydrones in oxonium ion (O2 <- > clustering cluster ions around) are expressed as O2 <-> (H₂O) n (arbitrary integer that n is 0 or more).In addition, if will Cation and anion are released to interior, then two kinds of ions surround around bacterium or the virus swum in air, Yu Qibiao Mutually cause to chemically react on face.By the effect of the hydroxide base (OH) of the active specy generated at this time, flcating germ is removed Deng.

In addition, constituting the electric conductor 7 of multiple threadiness of the front end of the discharge electrode 1 of brush in present embodiment, constitute If to form electric field between induction electrode 3, by mutual electrical mutual exclusion and to the electrical attraction of induction electrode 3 Bending deformation outward, so that the area in region present in the front end of electric conductor 7 becomes larger, and adjacent linear electric conductor Interference between 7 is suppressed.It is, ion generation amount when applying identical voltage increases compared with acicular discharge electrode. Ion generation amount of the discharge electrode 2 similarly between induction electrode 4 about brush increases.

Fig. 5 is the block diagram for showing a part of the composition of refrigerator 100 of present embodiment.Reference Fig. 5, present embodiment Refrigerator 100 carries the door sensor 104Z for detecting the opening and closing of the door of cooling box 104.Moreover, refrigerator 100 carries control unit 190, the control unit 190 is used for based on testing result, other conditions from door sensor 104Z, and controls ion generation The ON/OFF of unit 110.

Control unit 190 is for example by CPU (Central Processing Unit), RAM (Random access Memory), ROM (Read Only Memory) etc. is constituted.Control unit 190 is not limited to ion generating apparatus 110, fan 119, control Make each positions such as compressor (not shown), damper (damper).

Hereinafter, being illustrated for the control method of the refrigerator 100 of present embodiment.Referring to Fig. 6, if 190 base of control unit In the signal from door sensor 104Z, any one opening (situation for being in step S102) of go out 102L, 102R are detected, then It is connected ion generating apparatus 110 (step S104).

If control unit 190 detects any one closing of go out 102L, 102R based on the signal from door sensor 104Z (situation for being in step S108) then starts to calculate to measure from after door 102L, 102R closing and passes through the time.If control unit 190 From after door 102L, 102R closing by the fixed time (situation for being in step S110), then ion generation unit 110 is disconnected (step S112).

In this way, ion generation unit 110 is switched on when at least door 102L, 102R is closed in present embodiment, therefore constitute The electric conductor 7,8 of multiple threadiness of the front end of the discharge electrode 1,2 of brush is by mutual electrical mutual exclusion and to induced electricity The electrical attraction of pole 3,4 and bending deformation outward.Therefore, respectively at linear electric conductor 7,8, become with the mutual interval in front end Wide state, impact when door 102L, 102R are closed reach ion generation unit 110, therefore have received the threadiness of impact Electric conductor 7,8 respectively can more freely be vibrated/be deformed.Therefore, narrow with the mutual interval in the front end of linear electric conductor 7,8 State is compared, and the rubbish for being attached to electric conductor 7 and 8 becomes easy to be fallen by brush.

In addition, being switched on when at least door 102L, 102R is closed towards the fan 119 of ion generating apparatus 110, therefore adhere to In the rubbish of electric conductor 7,8 become easy cooperation at least door 102L, 102R is closed when impact, pass through the wind of fan 119 It is removed.

In addition, being not limited to the shape that impact brush when closing using the door of cooling box 104 falls the rubbish for being attached to electric conductor 7,8 State, control unit 190 can also be connected when door, the box of main refrigerating space 103, fruit box 106, vegetable box 107 etc. are opened from Son generates unit 110, and ion generation unit 110 is disconnected from being closed the door of cooling box, vegetable box etc., box.

[second embodiment]

In first embodiment, the cooperation of control unit 190 generates a possibility that impacting on high opportunity, and ion generation unit is connected 110.However, the composition only impacted by the opening and closing of door, box to the transmitting of ion generation unit 110 can also be set as.

For example, as shown in fig. 7, ion generation unit 110 is by the tectosome of refrigerator 100 directly or indirectly via bearing Component 117 and supported.And protrusion 118 is formed downwards in the bottom of ion generation unit 110, in cooling box 104, vegetables A part formation recess portion 104X of box 107, fruit box 106.As a result, in opening and closing cooling box 104, vegetable box 107, fruit box 106 When, the protrusion 118 of ion generation unit 110 by disengaging cooling box 104, vegetable box 107, fruit box 106 recess portion 104X, it is right The transmitting impact of ion generation unit 110.

In other words, as shown in Figure 8, the protrusion 118 of ion generation unit 110 falls into cooling box 104, vegetable box 107, water The collision with wall of the front and back of the protrusion 118 and recess portion 104X of the recess portion 104X or ion generation unit 110 of compartmentalized box for holding assorted fruits and candies 106, passes through The reaction force, as shown in Figure 9 as ion generation unit 110 fly up upwards, thus brush fall the rubbish for being attached to electric conductor 7 and 8 Rubbish.

[third embodiment]

Be not limited to be formed cooling box 104, vegetable box 107, fruit box 106 recess portion 104X form.For example, such as Figure 10 institute Show, protrusion 104Y can be formed in the top of cooling box 104, vegetable box 107, fruit box 106.Cooling box 104, vegetable box as a result, 107, when fruit box 106 is opened and closed, cooling box 104, vegetable box 107, fruit box are collided in the protrusion 118 of ion generation unit 110 The wall surface of the front and back of 106 protrusion 104Y transmits ion generation unit 110 and impacts.

In addition, as shown in figure 11, can also be constructed as follows: to be formed in the bottom surface at the rear portion of ion generation unit 110 convex Portion 118, behind the protrusion 118 with cooling box 104, vegetable box 107, fruit box 106 protrusion 104Y frontal collision When situation, the bottom surface of the front of ion generation unit 110 and any one component collide and transmit and rush to ion generation unit 110 It hits.

Similarly, as shown in figure 12, it can also be constructed as follows: to be formed in the bottom surface at the rear portion of ion generation unit 110 Protrusion 118, before the protrusion 118 with cooling box 104, vegetable box 107, fruit box 106 protrusion 104Y rear collision When situation, the bottom surface of the front of ion generation unit 110 and any one component collide and transmit and rush to ion generation unit 110 It hits.

[the 4th embodiment]

In addition, as shown in figure 13, protrusion 118B can be formed in the upper surface of rear portion of ion generation unit 110, in cooling box 104, vegetable box 107, fruit box 106 form protrusion 104Y downward.Moreover, can be constructed as follows: in the protrusion When situation behind 118B with the frontal collision of protrusion 104Y, the upper surface of front of ion generation unit 110 and any one portion Part collides and transmits and impact to ion generation unit 110.

Similarly, as shown in figure 14, it can also be constructed as follows: in the upper surface of the rear portion of ion generation unit 110, it is convex Before portion 118B with cooling box 104, vegetable box 107, fruit box 106 protrusion 104Y downward frontal collision feelings When shape, the upper surface of front of ion generation unit 110 collides with any one component and transmits and impact to ion generation unit 110.

It is such as above-mentioned, in present embodiment, becomes and ion generation unit 110 is bestowed when at least door, box etc. are closed The composition of impact, therefore the rubbish for being attached to ion generation unit 110 becomes easy and is fallen by brush.In addition, protrusion 104Y can be for the The identical recess portion 104X of three embodiments.

[the 5th embodiment]

In addition, as shown in figure 15, can be only following composition, that is, ion generation unit 110 by bearing part 117 by It supports astatically.When this situation, as shown in FIG. 16 and 17, it is preferably configured as vibration when being opened and closed by door, box, inertia Power, ion generation unit 110 vibrate, or collide with other component.Thus, it can be achieved that being attached to the rubbish of ion generation unit 110 Rubbish is easy the composition fallen by brush.

In addition, by bearing part 117, ion generation unit 110 can be set as hypsokinesis shape when non-vibration such as Figure 16 State.When this situation, generated ion is released towards oblique upper, therefore can be supplied ion to farther.In addition, being intended in narrow There are when the situation of storage space etc. when the situation that space concentrates ion, in lower section, can be set as such as Figure 17 when non-vibration Forward-lean state.

[sixth embodiment]

Alternatively, as shown in figure 18, refrigerator 100, ion generation unit 110 can have for applying to ion generation unit 110 Give vibrating elements 111, the motor etc. of vibration.

Then, it is combined with above-mentioned embodiment, as shown in figure 19, when Yu Men 102L, 102R are opened, control unit 190 can be connected vibrating elements 111, motor (step S107).Moreover, from door 102L, 102R be closed and by having fixed time, Control unit 190 can disconnect vibrating elements 111, motor (step S116).

It is also possible to use control unit 190 be regularly connected vibrating elements 111, motor and ion generation unit 110 is bestowed The composition of vibration.Fan 119 regularly is connected and vibration is bestowed to ion generation unit 110 in addition, control unit 190 can be used It constitutes.

It can also be any one in addition, the fan 119 and vibrating elements 111 as vibration important document can be provided simultaneously with.

[the 7th embodiment]

In addition, above-mentioned embodiment is cooperated preferably to make to be linked to ion generation unit 110 in advance as shown in Figure 20 (B) Wiring 1101 be bent.It is linked to as shown in Figure 20 (A) in the state of the stretching, extension of wiring 1101 of ion generation unit 110, by In the anxiety for thering is the vibration of ion generation unit 110 to be limited, therefore the wiring by making to be linked to ion generation unit 110 in advance 1101 bendings, do not interfere the vibration of ion generation unit 110, the rubbish for being as a result attached to ion generation unit 110 becomes easy It is fallen by brush.

< summarizes >

In above embodiment, a kind of refrigerator 100 is provided comprising: door 102L, 102R of refrigerating chamber 103 (104A, 105,106,107)；Ion generation unit 110 releases ion with discharge electrode from ion generation and supplies to refrigerator, institute It is that linear multiple electric conductors are constituted in one end by bundle that ion generation, which is stated, with discharge electrode；And control unit 190, it uses According to door 102L, 102R opening action and ion generation unit 110 is connected, according to door 102L, 102R closing motion and Disconnect ion generation unit 110.

It preferably further include the composition for increasing the vibration of ion generation unit 110.

In above embodiment, a kind of refrigerator 100 is provided comprising: door 102L, 102R of refrigerating chamber 103 (104A, 105,106,107)；Ion generation unit 110 releases ion with discharge electrode from ion generation and supplies to refrigerator, institute It is that linear multiple electric conductors are constituted in one end by bundle that ion generation, which is stated, with discharge electrode；And for increasing in door The composition of the vibration of ion generation unit 110 when 102L, 102R are closed.

In above embodiment, a kind of refrigerator 100 is provided comprising: door 102L, 102R of refrigerating chamber 103 (104A, 105,106,107)；Ion generation unit 110 releases ion with discharge electrode from ion generation and supplies to refrigerator, institute It is that linear multiple electric conductors are constituted in one end by bundle that ion generation, which is stated, with discharge electrode；And to ion generation unit 110 bestow the device 111 of vibration.

It preferably further include the wind for being blown towards ion generation unit 110 when ion generation unit 110 is connected Fan 119.

In above embodiment, a kind of refrigerator 100 is provided comprising: door 102L, 102R of refrigerating chamber 103 (104A, 105,106,107)；Ion generation unit 110 releases ion with discharge electrode from ion generation and supplies to refrigerator, institute It is that linear multiple electric conductors are constituted in one end by bundle that ion generation, which is stated, with discharge electrode；Fan 119 is used to send out Towards the wind of ion generation unit 110；And control unit 190, it is used to that fan to be connected when ion generation unit 110 is connected.

This revealed embodiment should be considered as illustration in all aspects, and not restrictive.Model of the invention It encloses not by above-mentioned explanation but is indicated by the scope of the claims, seek to include impartial with the scope of the claims Being had altered in meaning and range.In addition, about mutual group of composition of the different embodiments that this specification illustrates will be passed through It is constituted obtained by conjunction, is also contained in scope of the invention.

Description of symbols

1 discharge electrode

2 discharge electrodes

3 induction electrodes

4 induction electrodes

5 printed base plates

The hole 5a

The hole 5b

6 printed base plates

7 electric conductors

The joint portion 7a

8 electric conductors

The joint portion 8a

30 power circuits

31 step-up transformers

31a primary coil

31b secondary coil

32 diodes

33 diodes

100 refrigerators

101 ontologies

102L

102R

103 main refrigerating spaces

104 cooling boxes

Box under 104A

The upper box of 104B

104X recess portion

The protrusion 104Y

104Z door sensor

105 reefer spaces

106 fruit boxes

107 vegetable boxes

108 ice storage capacities

110 ion generation units

111 vibrating elements

117 bearing parts

118 protrusions

The protrusion 118B

119 fans

131 air coolant tubes

133 discharge openings

190 control units

1101 wirings

Claims (6)

1. a kind of refrigerator characterized by comprising

The door of refrigerating chamber；

Ion generation unit releases ion with discharge electrode from ion generation and supplies to refrigerator, and the ion generates use Discharge electrode is that linear multiple electric conductors are constituted in one end by bundle；And

Control unit is used for the opening action according to the door and the ion generation unit is connected, the closing according to the door It acts and disconnects the ion generation unit.

2. refrigerator according to claim 1, which is characterized in that further comprise for increasing the ion generation unit The composition of vibration.

3. a kind of refrigerator characterized by comprising

The door of refrigerating chamber；

Ion generation unit releases ion with discharge electrode from ion generation and supplies to refrigerator, and the ion generates use Discharge electrode is that linear multiple electric conductors are constituted in one end by bundle；And

For increasing the composition of the vibration of the ion generation unit when the door is closed.

4. a kind of refrigerator characterized by comprising

The door of refrigerating chamber；

Ion generation unit releases ion with discharge electrode from ion generation and supplies to refrigerator, and the ion generates use Discharge electrode is that linear multiple electric conductors are constituted in one end by bundle；And

The device of vibration is bestowed to the ion generation unit.

5. refrigerator according to any one of claim 1 to 4, which is characterized in that further comprise for described in the conducting When ion generation unit, towards the fan of ion generation unit air-supply.

6. a kind of refrigerator characterized by comprising

The door of refrigerating chamber；

Ion generation unit releases ion with discharge electrode from ion generation and supplies to refrigerator, and the ion generates use Discharge electrode is that linear multiple electric conductors are constituted in one end by bundle；

Fan is used to send out the wind towards the ion generation unit；And

Control unit is used to that the fan to be connected when the ion generation unit is connected.