CN102345961B - Refrigerator - Google Patents

Abstract

The invention provides a refrigerator capable of achieving degerming or deodorization in soft freezer. In the invention, the fog ejected from a degerming ingredient generating mechanism is provided to the soft freezer and a vegetable chamber, thereby preventing the temperature of the vegetable chamber being way too cold. The refrigerator of the invention comprises: a refrigerator body having a soft freezer and a degerming ingredient generating mechanism for generating degerming ingredients. The refrigerator is structurally characterized in that the degerming ingredient generating mechanism is configured inside the soft freezer, thereby supplying the degerming ingredients generated by the degerming ingredient generating mechanism to the soft freezer.

Description

Refrigerator

Technical field

Embodiments of the present invention relate to a kind of refrigerator.

Background technology

In recent years, in domestic refrigerator, there is as everyone knows a kind of mist generating device of utilizing electrostatic atomization to produce mist (degerming composition produces mechanism) that for example arranges, and the mist being produced by this mist generating device is supplied to the refrigerator of the storeroom of refrigerating chamber etc.Now, in the mist being produced by mist generating device, comprise the degerming composition with the hydroxy radical (hydroxyl radical) of strong oxidation or ozone (ozone) etc., therefore can expect degerming or the deodorizing of the supply target of mist.

[prior art document]

[patent documentation]

[patent documentation 1] Japanese Patent Laid-Open 2006-57999 communique

No. 4052353 communique of [patent documentation 2] Japan Patent

In domestic refrigerator, possessing of having is mainly suitable for preserving the refrigerating chamber of the temperature section of meat or fish, and urgently expects degerming or the deodorizing of this refrigerating chamber.

Summary of the invention

Therefore, provide a kind of refrigerator of realizing degerming or the deodorizing of refrigerating chamber.

And if utilize the air-flow of the cold air by cooler that the mist of emitting from mist generating device (degerming composition produces mechanism) is supplied to a plurality of storerooms that comprise vegetable compartment, vegetable compartment likely can become cold.

Therefore, provide a kind of refrigerator, the mist of emitting from mist generating device (degerming composition produces mechanism) is supplied to the refrigerator of a plurality of storerooms that comprise vegetable compartment, can prevent that vegetable compartment is excessively cold.

According to the refrigerator of present embodiment, it is characterized in that comprising: refrigerator body, has refrigerating chamber; Cooler, is located in this refrigerator body, for cooling described refrigerating chamber; Pressure fan, makes the air of described refrigerating chamber contact described cooler circulation; And degerming composition produces mechanism, produce degerming composition, and adopt following structure, that is, and by described degerming composition produce mechanism be disposed at described refrigerating chamber in portion, by produced the degerming composition that mechanism produces by this degerming composition, be supplied to described refrigerating chamber.

Accordingly, can easily realize degerming or the deodorizing of the refrigerating chamber of storage meat or fish etc.

Accompanying drawing explanation

Fig. 1 means the vertical profile side view of schematic configuration of the refrigerator integral body of the 1st embodiment.

Fig. 2 is the front elevation of removing the refrigerator body that the state of door or shelf etc. represents.

Near the stereogram of summary Tu3Shi refrigerating chamber.

Fig. 4 is the amplification front view of dedicated conduits periphery for mist.

Fig. 5 is the cross-sectional plane along the X1-X1 line in Fig. 4.

Fig. 6 is the vertical profile side view along the X2-X2 line in Fig. 4.

Fig. 7 is the vertical profile side view along the X3-X3 line in Fig. 4.

Fig. 8 is the vertical profile side view along the X4-X4 line in Fig. 4.

Fig. 9 is the bottom (refrigerating chamber) of refrigerating chamber and near vertical profile front elevation vegetable compartment.

Figure 10 is the vertical profile side view along the X5-X5 line in Fig. 9.

Figure 11 is the vertical profile front elevation of electrostatic atomization apparatus part.

Figure 12 is the figure that is equivalent to Figure 11 of the 2nd embodiment.

Figure 13 is the figure that is equivalent to Figure 11 of the 3rd embodiment.

Figure 14 is the figure that is equivalent to Figure 11 of the 4th embodiment.

Figure 15 is the figure that is equivalent to Figure 11 of the 5th embodiment.

Figure 16 is the figure that is equivalent to Fig. 1 of the 6th embodiment.

Reference numeral:

1: refrigerator body

2: heat insulating box

2a: outer container

2b: interior case

2c, 38: heat-barrier material

3: refrigerating chamber

3a, 4a, 5a, 7a: insulated door

4: vegetable compartment

5: ice-making compartment

6: little refrigerating chamber

7: refrigerating chamber

8: automatic ice-making plant

8a: ice making box

10: partition wall

11: lower box

12: upper box

13: shelf

14: refrigerating chamber

15: egg box

16: little thing box

17: storage tank

18: micro-box (container) that freezes

18a: front surface wall

18b: notch

19: heat insulation partition wall

20: ice container

22: tank

24: refrigeration cooler

25: the freezing cooler of using

26: Machine Room

27: compressor

28: Defrost water evaporating ware

29: control device

30: the freezing cooler chamber of using

30a: cold air blow-off outlet

30b: return port

31: the freezing Air Blast fan of using

32: drainpipe

34: air coolant tube

35: refrigeration pressure fan

36: cooler chamber is used in refrigeration

36a: front walls

36b: section portion

36c: bottom

37: cool-air feed conduit

39: cool-air feed mouth

40: drainpipe

42: air-supply conduit

43: suction inlet

45: mist dedicated conduits

46: conduit member of formation

48,85: electrostatic atomization apparatus (mist produces (emitting) mechanism, degerming composition produces mechanism)

50,87: mist is emitted portion

51,86: mist generation unit

52: supply unit

53: water unit

53a: horizontal part

53b, 88b: vertical component effect

53c: bend

54,89: box

55,90: water-keeping material

56: tank (water storage portion)

56a: spilling water portion

57: mist is emitted pin

58: be subject to electricity pin

60: wire

61: power supply terminal

62: mist cool-air feed mouth

63: towards the mist conduit of refrigerating chamber

63a: refrigerating chamber mist blow-off outlet

65: mist blow-off outlet (blow-off outlet) for refrigerating chamber

66: egg box mist blow-off outlet

67: vegetables mist blow-off outlet

67a: path constriction wall

67b: path

68: refrigerating chamber's cool-air feed mouth

70: mounting plate (top plate portion)

71a, 71b: demarcation strip

72: fresh-keeping cover

73: vent passage

74a, 74b: blow vent (air outlet slit)

75: connected entrance (air outlet slit)

76:V conduit

77: blow vent

81,82: wind direction board

83: heater

88: water unit

88a: rounded portions

88c: protuberance

185: elongate catheter (conduit)

185a: epimere conduit

185b: hypomere conduit

185c: interconnecting part

186: blow-off outlet

A1, A2, B1, B2, B3, C, C1, C2: arrow

L1, L2: distance

The specific embodiment

The refrigerator (deep freezer) of a plurality of embodiments is described with reference to accompanying drawing below.In addition, in each embodiment, for identical in fact constituting parts, mark identical symbol, and description thereof is omitted.

(the 1st embodiment)

First, with reference to Fig. 1～Figure 11, the 1st embodiment is described.As shown in Figure 1 and Figure 2, refrigerator body 1 is in the heat insulating box 2 of the lengthwise rectangular box shape of front surface opening, along the vertical direction a plurality of storerooms of spread configuration and forming.

Particularly, in heat insulating box 2, be sequentially provided with refrigerating chamber 3, vegetable compartment 4 from epimere, thereunder, left and right is arranged and is provided with ice-making compartment 5 and little refrigerating chamber 6, is provided with refrigerating chamber 7 below them.

In ice-making compartment 5, be provided with well-known automatic ice-making plant 8 (with reference to Fig. 1).In addition, heat insulating box 2 is heat-barrier material 2c is set and forms between the outer container 2a of steel plate system and plastic interior case 2b substantially.

Refrigerating chamber 3 and vegetable compartment 4 are the storeroom of refrigerated storage temperature section, between refrigerating chamber 3 and vegetable compartment 4, by the partition wall 10 of plastics (plastic) system, separate up and down.Conventionally, the holding temperature of refrigerating chamber 3 is made as 1 ℃～5 ℃, and the holding temperature of vegetable compartment 4 is made as than its slightly high 2 ℃～6 ℃.

In the front surface portion of refrigerating chamber 3, be provided with the insulated door 3a of hinge (hinge) open and close type, at the front surface of vegetable compartment 4, be provided with the insulated door 4a of pull-out type.In the back part of insulated door 4a, linking the lower box 11 that forms tank.On the top of lower box 11, be provided with the upper box 12 more small-sized than lower box 11.

In refrigerating chamber 3, by a plurality of shelves 13, be separated into up and down multistage.As shown in Figure 3, the foot in refrigerating chamber 3 (top of partition wall 10), is provided with micro-freezing (chilled) chamber 14 on right side, in its left side, on have egg box 15 and little thing box 16, and then, in their left side, be provided with storage tank (tank) 17.

Storage tank 17 is for storing the water of the ice making box 8a that is supplied to automatic ice-making plant 8, and can be arranged by user (user) handling ground.

In refrigerating chamber 14, can come in and go out and be provided with micro-box 18 (being equivalent to container) that freezes.From the top of refrigerating chamber 14 to arrange storage tank 17 part top and be provided with mounting plate 70.

As shown in Figure 9, between refrigerating chamber 14 and the setting unit of egg box 15 and little thing box 16, be provided with demarcation strip 71a, and, between the setting unit of egg box 15 and little thing box 16 and the setting unit of storage tank 17, be also provided with demarcation strip 71b.

Mounting plate 70 forms the top plate portion of refrigerating chamber 14, and the top of refrigerating chamber 14 is sealed by this mounting plate 70.The front surface of refrigerating chamber 14 is sealed by micro-front surface wall 18a that freezes box 18 of receiving state.

The holding temperature of refrigerating chamber 14 is slightly low compared with the vegetable compartment of the refrigerating chamber on top 3 and bottom 4, for example, be made as 0 ℃～1 ℃.The vegetable compartment 4 of refrigerating chamber 14 and below is upper and lower adjacency via partition wall 10.

As shown in Fig. 1 and Figure 10, in micro-upper back of freezing box 18, particularly, when from forward observation, from the upper back of micro-left and right sidewall that freezes box 18 to the top of rear wall, in the lower mode in front portion than front surface wall 18a and left and right sidewall, be formed with notch 18b.

Ice-making compartment 5, little refrigerating chamber 6 and refrigerating chamber 7 are the storeroom of cryogenic temperature section (for example-18 ℃ of left and right), between vegetable compartment 4 and ice-making compartment 5 and little refrigerating chamber 6, by heat insulation partition wall 19, separate up and down.

In the front surface portion of ice-making compartment 5, be provided with the insulated door 5a of pull-out type, in the back part of this insulated door 5a, linking ice container 20.In the front surface portion of little refrigerating chamber 6, though not shown, be also provided with the insulated door of the pull-out type that is linking tank.In the front surface portion of refrigerating chamber 7, be also provided with the insulated door 7a of the pull-out type that is linking tank 22.

In this refrigerator body 1, be assembled with and possess cooler 24 and the freezing freeze cycle (cycle) with cooler 25 these 2 coolers for refrigeration, described refrigeration with cooler 24 for to the storeroom of refrigerated storage temperature section, be refrigerating chamber 3 and vegetable compartment 4 with refrigerating chamber 14 carry out cooling, described freezing with cooler 25 for being that described ice-making compartment 5, little refrigerating chamber 6 and refrigerating chamber 7 carry out cooling to the storeroom of cryogenic temperature section.

In the bottom of refrigerator body 1 rear side, be provided with Machine Room 26, in this Machine Room 26, be equipped with and form the compressor 27 of freeze cycle and condenser etc., and be equipped with for they being carried out to cooling cooling fan (fan) or Defrost water evaporating ware 28 etc.

Portion's part on the lower at the back side of refrigerator body 1, is provided with the control device 29 of controlling whole micro computer (micro computer) etc. is installed.Refrigeration with cooler 24 and freezing with cooler 25 via together forming the compressor 27 etc. of freeze cycle and be indirectly electrically connected at outer container 2a with these coolers 24,25.

The back of the refrigerating chamber 7 in refrigerator body 1, is provided with freezing with cooler chamber 30.Freezing with in cooler chamber 30 at this, be positioned at bottom and be equipped with described freezingly with cooler 25 or defrosting heater (heater) (not shown) etc., and be positioned at top and be equipped with freezing with Air Blast fan 31.Pars intermedia at the freezing front surface with cooler chamber 30, is provided with cold air blow-off outlet 30a, is provided with return port 30b in bottom.

In this forms, when driving freezing use Air Blast fan 31, by the freezing cold air generating with cooler 25, undertaken being supplied in ice-making compartment 5, little refrigerating chamber 6, refrigerating chamber 7 from described cold air blow-off outlet 30a, and then from return port 30b, return freezing with the circulation in cooler chamber 30.

By this cold air, ice-making compartment 5, little refrigerating chamber 6 and refrigerating chamber 7 are able to cooling.In addition, at the freezing lower quadrate part with cooler 25, be provided with the drainpipe 32 of the defrost water while accepting the freezing defrosting with cooler 25.The defrost water that this drainpipe 32 is accepted is conducted to the interior set Defrost water evaporating ware 28 in Machine Room 26 evaporation outside refrigerator.

And, refrigerating chamber 3 in refrigerator body 1 and the back of vegetable compartment 4, be equipped with in the following manner refrigeration with cooler 24 or for by the cool-air feed being generated with cooler 24 by this refrigeration extremely the interior air coolant tube 34 of described refrigerating chamber 3 (and vegetable compartment 4), for making the refrigeration pressure fan 35 etc. of described circulating cold air.

That is, the rear (rear of refrigerating chamber 14) of the hypomere of the refrigerating chamber 3 in refrigerator body 1, the refrigeration that is provided with a part that forms air coolant tube 34 is with cooler chamber 36, in this refrigeration, is equipped with in cooler chamber 36 and refrigerates use cooler 24.

Above refrigerating with cooler chamber 36, be provided with the cool-air feed conduit 37 extending upward, refrigeration is communicated in the bottom of cool-air feed conduit 37 with the upper end of cooler chamber 36.Now, by refrigeration, with cooler chamber 36 and cool-air feed conduit 37, form air coolant tube 34.

Refrigeration is more given prominence in the place ahead to cool-air feed conduit 37 with the front walls 36a of cooler chamber 36.And, at the dorsal part of this front walls 36a, be provided with the heat-barrier material 38 with thermal insulation.In the front portion of cool-air feed conduit 37, be provided with a plurality of cool-air feed mouths 39 to refrigerating chamber 3 inner openings.

In refrigeration, with 36Nei bottom, cooler chamber, be positioned at refrigeration and be provided with drainpipe 40 with the below of cooler 24, this drainpipe 40 is accepted from refrigerating by the defrost water of cooler 24 and being expelled to outside refrigerator.

The defrost water of being accepted by this drainpipe 40 also with the defrost water of being accepted by drainpipe 32 similarly, be conducted to the interior set Defrost water evaporating 28 in described Machine Room 26 outside refrigerator evaporation.

The length dimension of the left and right of drainpipe 40 and the depth of front and back are sized to be greater than the length dimension of left and right and the depth size of front and back of cooler 24 for refrigeration, to be configured to, all accept the size by the defrost water of cooler 24 drippages from refrigeration.

At the rear of described vegetable compartment 4, be positioned at the below of drainpipe 40 and be equipped with refrigeration with pressure fan 35, and be provided with air-supply conduit 42 and suction inlet 43.Wherein, air-supply conduit 42 is communicated in refrigeration and uses cooler chamber 36 (air coolant tube 34) in the mode of the roundabout drainpipe 40 in upper end.Suction inlet 43 is at vegetable compartment 4 inner openings.

At the lower surface at rear portion of partition wall 10 that forms the bottom (bottom of refrigerating chamber 14) of refrigerating chamber 3, as shown in Fig. 1, Fig. 9, Figure 10, be positioned at the top of vegetable compartment 4 and fresh-keeping cover (crisper cover) 72 is installed, between this fresh-keeping cover 72 and partition wall 10, be formed with the vent passage 73 that spreads all over left and right directions and extend.

As shown in Figure 9, at the rear portion of partition wall 10, be positioned at the rear of refrigerating chamber 14 and be provided with the blow vent 74a being formed by a plurality of peristomes, and being also provided with at the rear of the setting unit of little thing box 16 the blow vent 74b being formed by a plurality of peristomes.

Between these blow vents 74a, 74bShi refrigerating chamber 14 and vent passage 73 and between the setting unit of little thing box 16 and vent passage 73, be communicated with.The left and right sides portion of vent passage 73 is open, and is communicated in the top of vegetable compartment 4.

And the portion that falls of the right corner at the rear portion of partition wall 10, as shown in Figure 5, is positioned at the rear of refrigerating chamber 14 and is formed with the connected entrance 75 consisting of a plurality of peristomes.Below these connected entrances 75, as shown in Fig. 9 and Figure 10, be provided with V conduit 76.

The upper end of this V conduit 76 is communicated in refrigerating chamber 14 via connected entrance 75, bottom is communicated in the top of vegetable compartment 4 via the blow vent 77 (with reference to Figure 10) forming on fresh-keeping cover 72.

Now, the blow vent 74a in refrigerating chamber 14 and connected entrance 75 as become the air in refrigerating chamber 14 outlet air outlet slit and bring into play function.And these blow vents 74a and connected entrance 75 are configured in micro-box 18 that freezes is accommodated under the state in refrigerating chamber 14, by this, micro-ly do not frozen the position that box 18 is stopped up.

Blow vent 74b in the setting unit of little thing box 16 brings into play function as the air outlet slit of the setting unit of little thing box 16, and, be configured in the position of not stopped up by this little thing box 16 under the state of taking in little thing box 16.

In this structure, when driving refrigeration with pressure fan 35, main as shown in the hollow arrow of Fig. 1, the air in vegetable compartment 4 is sucked into pressure fan 35 sides for refrigeration from suction inlet 43, and the air of this suction is blown to air-supply conduit 42 sides.

Be blown to the air of air-supply conduit 42 sides and blow out to refrigerating chamber 3 from a plurality of cool-air feed mouths 39 by air coolant tube 34 (cooler chamber 36 and cool-air feed conduit 37 for refrigeration), and as described later, also directly blown out to refrigerating chamber 14.

Blow out air interior to refrigerating chamber 3 and that refrigerating chamber 14 (setting unit that also comprises little thing box 16 and egg box 15) is interior mainly as shown in the arrow C 1 of Fig. 9, from blow vent 74a, 74b, flow out to vent passage 73, and towards left to and the right vent passage 73 of flowing through, then left and right two outer surfaces of the upper box 12 by vegetable compartment 4 are supplied in vegetable compartment 4.

And, a part for air in refrigerating chamber 14 is carried out following circulation as shown in the arrow C 2 of Figure 10,, from connected entrance 75, passes through V conduit 76 that is, and be supplied in vegetable compartment 4 from blow vent 77, the air being supplied in vegetable compartment 4 is finally sucked with pressure fan 35 by refrigeration.

In this process, by refrigeration, use the air in cooler chamber 36 to become cold air after refrigeration is cooling with cooler 24, this Quilt with air conditioning is supplied to refrigerating chamber 3, refrigerating chamber 14 and vegetable compartment 4, makes thus refrigerating chamber 3, refrigerating chamber 14 and vegetable compartment 4 be cooled to the temperature of refrigerated storage temperature section.

In addition, as described later, use a part for the cold air after cooler 24 to be directly supplied to refrigerating chamber 14 by refrigeration, thus, refrigerating chamber 14 is maintained than refrigerating chamber 3 and the low temperature (0 ℃～1 ℃) of vegetable compartment 4.

The front surface side of cooler chamber 36 for refrigeration in air coolant tube 34, as shown in Figure 2, Figure 4 shows,, and is positioned at the rear of refrigerating chamber 14 and is releasably provided with dedicated conduits 45 for mist on right side from forward observation.

This mist uses dedicated conduits 45 also as shown in Fig. 5～Fig. 8, by refrigeration, with the front walls 36a of cooler chamber 36 and be arranged on refrigeration and formed with the conduit member of formation 46 of the front surface of cooler chamber 36, thereby become, form conduit member of formation 46 that mist uses dedicated conduits 45 with respect to front walls 36a and formation removably.

Now, mist forms the less flat rectangular box shape of depth size of the long and fore-and-aft direction of left and right directions along front walls 36a by dedicated conduits 45.And, at this mist, with in dedicated conduits 45, take in the main part of electrostatic atomization apparatus 48, this electrostatic atomization apparatus 48 is configured for producing the mist generating device of mist.

Electrostatic atomization apparatus 48, except produce (emitting) mechanism as mist, also produces mechanism and brings into play function as degerming composition generation mechanism, deodorizing composition.Below, this electrostatic atomization apparatus 48 is described in detail.

Electrostatic atomization apparatus 48 as shown in figure 11, has possessed and has had mist and emit the mist generation unit (unit) 51 of portion 50 and apply negative high-tension supply unit (transformer (transformer)) 52 and form for mist being emitted to portion 50.

Mist generation unit 51 possesses emits to mist the water unit 53 that portion 50 supplies with moisture.Water unit 53 has the horizontal part 53a extending along left and right directions and the vertical component effect 53b extending from the right part of this horizontal part 53a downwards, and from top view, be contrary L word shape, this mist generation unit 51 is in the box 54 that is L word shape, to take in water-keeping material 55 and form.

Therefore, water unit 53 has bend 53c between horizontal part 53a and vertical component effect 53b.Horizontal part 53a in water unit 53 and vertical component effect 53b become parallel mode with the refrigeration with air coolant tube 34 with the front walls 36a of cooler chamber 36, along front walls 36a, configure.

Water-keeping material 55 is for example felt (felt) shape that Filament-wound Machine is formed, and water imbibition and water-retaining property excellence, and utilizes capillarity to draw the water (defrost water) storing in tank 56 described later (water storage portion).In addition, as long as water-keeping material 55 can utilize capillarity to draw water, can be also continuous foamed body.

The horizontal part 53a of water unit 53 is configured in mist with slightly keeping right in dedicated conduits 45, as shown in Figure 8, the bottom, the refrigeration that run through conduit member of formation 46 are inserted into the front portion that 36Nei bottom, cooler chamber is used in refrigeration with the anterior formed hole of the 36b of section portion of cooler chamber 36 in the bottom of vertical component effect 53b.

The periphery of water-keeping material 55 is covered by box 54.In water-keeping material 55, also can make the part of horizontal part 53a and the part of vertical component effect 53b be formed by different members.

Front portion in refrigeration with 36Nei bottom, cooler chamber, is provided with the tank 56 (with reference to Fig. 8) that forms water storage portion.This tank 56 refrigeration with cooler 24 and be present between the drainpipe 40 below it and water unit 53 below, by front portion being installed on to the bottom 36c of the front walls 36a of cooler chamber 36 for refrigeration, thus the cantilever position of being arranged to rearward give prominence to.

Now, the anterior bottom 36c that tank 56 is installed is positioned at the below of front walls 36a and to front walls 36a, more protrudes (giving prominence to) in the place ahead via the 36b of section portion.

If front walls 36a is made as to the 1st protuberance, bottom 36c will become to its 2nd protuberance that more give prominence in the place ahead.Tank 56 is being installed under the installment state of bottom 36c, certainly refrigeration with cooler 24 and form refrigeration with the interior case 2b of the rear surface of cooler chamber 36 away from.Refrigeration contacts with the interior case 2b of the rear surface of cooler 36 with formation refrigeration with cooler 24.

Between tank 56 and interior case 2b, guarantee there is predetermined distance (now, space length is more than 20mm, and creepage distance is more than 30mm) as the distance that is electrically insulated.And, tank 56 also separates with cooler 24 with refrigeration, at tank 56 and refrigeration, uses between the lower surface of cooler 24, guarantees to have predetermined distance (now, space length is more than 20mm, and creepage distance is more than 30mm) as being electrically insulated distance.In addition, be electrically insulated distance be to design according to the regulation of electrical appliance safety law.

The bottom of conduit member of formation 46, the anterior formed hole of the 36b of section portion of refrigeration use cooler chamber 36 are run through in the bottom of vertical component effect 53b in water unit 53, and are inserted in tank 56 from top.

Tank 56 is accepted from refrigeration and is also stored by the defrost water of cooler 24 drippages.The water-keeping material 55 of water unit 53 as mentioned above, utilizes capillarity to draw the water of tank 56 interior storages (defrost water) and be supplied to mist and emits portion 50.

Top at the leading section of the rear portion side of tank 56, is formed with and is set as the spilling water portion 56a (with reference to Fig. 8) lower than other parts, when the water of tank 56 interior storages overflows, will overflow from the 56a of spilling water portion.

The 56a of this spilling water portion is positioned at the top of described drainpipe 40, and the water overflowing from the 56a of this spilling water portion is accepted by drainpipe 40, and is discharged to the Defrost water evaporating ware 28 outside machine.

On horizontal part 53a in water unit 53, be provided with mist and emit portion 50.Mist is emitted portion 50 and by many mists that form respectively teat, is emitted pin (pin) 57 to form (with reference to Figure 11).

It is in the upper side of horizontal part 53a upward that mist is emitted pin 57, by many, be now that 4 mists are emitted pin 57 and are arranged in the horizontal stroke one row shape of left and right directions and separate and configure respectively, and, in the lower side of horizontal part 53a, towards ground, by many, be now that 4 mists are emitted pin 57 and are arranged in the horizontal stroke one row shape of left and right directions and separate and configure respectively.

Therefore, mist is emitted portion 50 and is emitted pin (teat) 57 formations by the outstanding a plurality of mists of the direction towards different (top and below).Mist is emitted portion 50 and is configured to, a plurality of mists emit that pin (teat) 57 is clipped in the middle the horizontal part 53a of water unit 53 and up and down contrary direction extend.

And a plurality of mists are emitted pin (teat) 57 and are configured to two sections.It is with the front walls 36a of cooler chamber 36, to become parallel mode to configure along this front walls 36a with the refrigeration with air coolant tube 34 that each mist is emitted pin 57.Mist is emitted the position that portion 50 is located at the lower rear of refrigerating chamber 3 and is adjacent to vegetable compartment 4, and be configured in refrigerating chamber 14 in portion.

It is for example using polyester (polyester) fiber with as carbon (carbon) the fiber mixing twisted of conductive material and form pin-shaped (bar-shaped) person that each mist is emitted pin 57, has the absorption characteristic of water-retaining property and water, and has electric conductivity.

Each mist is emitted pin 57 and is being carried platinum nano-colloid (nano choroid).Platinum nano-colloid for example can be impregnated in the treatment fluid that contains platinum nano-colloid by mist being emitted to pin 57, and it is calcined and is carried.

Box 54 and the contact water-keeping material 55 of water unit 53 run through in the bottom that each mist is emitted pin 57.The left part of horizontal part 53a in water unit 53, is provided with in the mode outstanding towards a left side to form and is subject to electricity to sell 58 with the electricity that is subject to of electrode.Be subject to the bottom of electricity pin 58 at the interior contact water-keeping material 55 of box 54.

Supply unit 52, is positioned at the left side of mist generation unit 51 and is stationary state and is arranging with in dedicated conduits 45 at mist.In the right part of this supply unit 52, be provided with and linking wire 60 and by the power supply terminal 61 that fastening (fasten) (flat pattern) terminal forms, on this power supply terminal 61, connecting mist generation unit 51 described in be subject to electricity pin 58.

Supply unit 52 as everyone knows as, possess to comprise high frequency electric source (AC power) is converted to the rectification circuit of high-tension transformer of direct current or booster circuit etc., produce negative high voltage (for example-6kV), and via power supply terminal 61, export to and be subject to electricity pin 58.

Thus, from the negative high voltage of supply unit 52, from being subject to electricity pin 58 moisture via water-keeping material 55, be applied to each mist and emit pin 57, make each mist emit pin 57 electronegative.And now, the outer container 2a of refrigerator body 1 is via ground wire (not shown) etc. and ground connection.

In the electrostatic atomization apparatus 48 forming in this way, at the water of tank 56, by water-keeping material 55, drawn and be supplied to each mist and emit under the state of pin 57, each mist is emitted to pin 57 and apply the negative high voltage from supply unit 52.

Now, charge concentration is emitted the leading section of pin 57 in each mist, and the contained water of this leading section is given and surpassed capillary energy (energy).Thus, the water that each mist is emitted the leading section of pin 57 divides (Lei Shi division, Rayleigh fission), and is fine vaporific and emit (electrostatic atomization phenomenon) by leading section.

, be vaporific water particle of emitting electronegative herein, and to comprise the degerming composition, the deodorizing composition that by this energy, generate be hydroxy radical (hydroxyl radical).

Thereby the hydroxy radical with strong oxidation is emitted pin 57 from each mist and is together released with mist, can carry out degerming or deodorizing by the effect of hydroxy radical.Now, do not arrange and emit with electronegative mist the comparative electrode that pin 57 is corresponding.

Therefore, the electric discharge self of emitting pin 57 from mist becomes very mild, can between sparking electrode and comparative electrode, not produce corona (corona) electric discharge, thereby can suppress the generation of pernicious gas (ozone (ozone) or ozone make airborne nitrogen that oxidation occur and the nitrogen oxide that produces, nitrous acid, nitric acid etc.).

Herein, mist is emitted pin 57 (mist is emitted portion 50) can be referred to as the degerming composition discharging gear release mechanism (being also deodorizing composition discharging gear release mechanism) of emitting this degerming composition of hydroxy radical (being also deodorizing composition), and electrostatic atomization apparatus 48 can be referred to as degerming composition and produce mechanism's (deodorizing composition produces mechanism).

At formation mist, with the refrigeration of the rear wall of dedicated conduits 45, use the front walls 36a of cooler chamber 36, be provided with cool-air feed mouth 62 (with reference to Fig. 4, Fig. 7) for mist.This mist is to emit pin 57 position in opposite directions at the mist of not emitting in portion 50 with mist with cool-air feed mouth 62, is now to emit more left side of portion 50 at mist, is disposed at the top of supply unit 52.

This mist runs through heat-barrier material 38 with the rear portion of cool-air feed mouth 62 and is communicated to the refrigeration use cooler chamber 36 in air coolant tube 34, and front portion is communicated to dedicated conduits 45 for mist.

Therefore, the part by the cold air in air coolant tube 34 is supplied to mist with in dedicated conduits 45 (with reference to the arrow A 1 of Fig. 7) from this mist with cool-air feed mouth 62.From mist with cool-air feed mouth 62 be supplied to mist with the cold air in dedicated conduits 45 in the interior formation convection current of dedicated conduits 45 for mist.

Above mist use cool-air feed mouth 62, be positioned at refrigeration and with the dorsal part of the front walls 36a of cooler chamber 36, be provided with the conduit 63 for the mist towards refrigerating chamber (with reference to Fig. 4, Fig. 7) extending upward.Should with the bottom of conduit 63, become mist blow-off outlet 63a for refrigerating chamber at mist with dedicated conduits 45 inner openings towards the mist of refrigerating chamber, upper end is communicated in the cool-air feed conduit 37 in air coolant tube 34.

Therefore, at mist, by a part for the mist of dedicated conduits 45 interior generations, from refrigerating chamber, with mist blow-off outlet 63a, pass through conduit 63, the cool-air feed conduit 37 for mist towards refrigerating chamber, and be supplied in refrigerating chamber 3 (with reference to the arrow B 1 of Fig. 4, Fig. 7) from cool-air feed mouth 39.

Front surface portion (positions different from upper surface) at mist with the conduit member of formation 46 in dedicated conduits 45, be positioned at mist and with the top of cool-air feed mouth 62, be provided with mist blow-off outlet 65 (with reference to Fig. 4, Fig. 7) for refrigerating chamber, Cong Gai refrigerating chamber is supplied to a part for mist in refrigerating chamber 14 (with reference to the arrow B 2 of Fig. 4, Fig. 7) with mist blow-off outlet 65.

Refrigerating chamber is the front surface portion tubular forward that more give prominence in the place ahead of conductive pipe member of formation 46 with mist blow-off outlet 65, and be positioned at more top (with reference to Fig. 9), micro-upper end (notch 18b) of freezing the rear wall of box 18, comprise from refrigerating chamber and mostly from micro-notch 18b that freezes the upper back of box 18, be supplied to micro-freezing in box 18 with the air that mist blow-off outlet 65 is blown out to the mist in refrigerating chamber 14.

And, front surface portion at conduit member of formation 46, be positioned at refrigerating chamber and with the left side of mist blow-off outlet 65, be provided with mist blow-off outlet 66 (with reference to Fig. 4) for egg box, a part for mist is also supplied in egg box 15 (with reference to the arrow B 3 of Fig. 4) with mist blow-off outlet 66 from this egg box.

And then the bottom at mist with the right side of dedicated conduits 45, as shown in Figure 5, is provided with mist blow-off outlet 67 for vegetable compartment.This vegetable compartment is communicated in connected entrance 75 with mist blow-off outlet 67, and mist is also supplied in vegetable compartment 4 (with reference to the arrow C 2 of Figure 10) by vegetable compartment mist blow-off outlet 67, connected entrance 75, V conduit 76, blow vent 77 by a part for the mist in dedicated conduits 45.

Now, vegetable compartment is set to the total aperture area S1 of mist blow-off outlet 67 the total aperture area S2 (S1 < S2) that is less than refrigerating chamber's use mist blow-off outlet 65.

And, in Fig. 4, to mist, with the mist that is blown into cold air in dedicated conduits 45, by cool-air feed mouth 62 and vegetable compartment, by the distance L 1 between mist blow-off outlet 67, be set to and be greater than the distance L 2 (L1 > L2) of cool-air feed Kou62Yu refrigerating chamber between mist blow-off outlet 65 for mist.

And then as shown in figure 11, at mist, with on the conduit member of formation 46 of dedicated conduits 45, being positioned at becomes vegetable compartment and is provided with path constriction wall 67a with the top of the upstream side of mist blow-off outlet 67.This path constriction wall 67a becomes the mist of flowing through is carried out to the form of constriction by the air flow vegetable compartment in dedicated conduits 45 with the path 67b of mist blow-off outlet 67.

Top at mist by dedicated conduits 45, is positioned at mist and emits the top of portion 50 and be provided with cool-air feed mouth 68 (with reference to Fig. 4, Fig. 6, Fig. 8) for refrigerating chamber.This refrigerating chamber is with cool-air feed mouth 68 as shown in Fig. 6, Fig. 8 and Fig. 9, and the front surface portion that is conductive pipe member of formation 46 is the outstanding tubular forward in the place ahead more, and top (with reference to Fig. 9) more, the upper end that is positioned at micro-rear wall of freezing box 18.

Refrigerating chamber runs through heat-barrier material 38 with the rear portion of cool-air feed mouth 68 and is communicated to refrigeration use cooler chamber 36, and front portion is run through mist and by dedicated conduits 45, is communicated to refrigerating chamber 14.

Therefore, refrigeration is directly supplied to refrigerating chamber 14 (with reference to the arrow A 2 of Fig. 6, Fig. 8) by a part for the cold air of cooler chamber 36 with cool-air feed mouth 68 by this refrigerating chamber, Yi Jiang refrigerating chamber 14 is maintained than refrigerating chamber 3 and the low temperature of vegetable compartment 4 and is 0 ℃～1 ℃.And heat-barrier material 38 also doubles as refrigeration and emits the insulating mechanism between portion 50 with cooler 24 and mist.

Secondly, the effect of said structure is narrated.As mentioned above, refrigerating chamber 3 and vegetable compartment 4 are being carried out when cooling, the air-supply effect with pressure fan 35 by refrigeration with the cooled cold air of cooler 24 through refrigeration, as mainly as shown in the hollow arrow in Fig. 1, by cool-air feed conduit 37, and be supplied in refrigerating chamber 3 from a plurality of cool-air feed mouths 39, and a part of cold air is directly supplied in refrigerating chamber 14 (with reference to the arrow A 2 of Fig. 6, Fig. 8) with cool-air feed mouth 68 from refrigerating chamber.

Be supplied in refrigerating chamber 3 and the cold air of refrigerating chamber 14 after contributing to reserve cooling of food etc., as mentioned above, main as shown in the arrow C 1 of Fig. 9, from blow vent 74a, 74b, flow out to vent passage 73, and towards left to and the right vent passage 73 of flowing through, left and right two outer surfaces of the upper box 12 by vegetable compartment 4 are supplied in vegetable compartment 4 again, and, a part for cold air in refrigerating chamber 14 is as shown in the arrow C 2 of Figure 10, from connected entrance 75, pass through V conduit 76, and be supplied in vegetable compartment 4 from blow vent 77.

Be supplied to cold air in vegetable compartment 4 after contributing to reserve cooling of vegetables etc., from suction inlet 43, be sucked into pressure fan 35 sides for refrigeration, again by refrigeration, with cooler 24, carried out cooling, thereby repeat such circulation.

And when this refrigerating chamber 3 and vegetable compartment 4 cooling, refrigeration, is supplied in mist use dedicated conduits 45 with cool-air feed mouth 62 from mist by a part for the cold air in cooler chamber 36 as shown in the arrow A 1 in Fig. 7.Be supplied to mist and with the cold air in dedicated conduits 45, encounter the inner surface of conduit member of formation 46, thereby spread with the interior formation convection current of dedicated conduits 45 at mist.

Now, when driving electrostatic atomization apparatus 48, a plurality of mists from mist generation unit 51 are emitted the fine mist that pin 57 contains hydroxy radical as emitting as mentioned above.

A part of emitting the mist that pin 57 emits from mist as shown in the arrow B 1 of Fig. 7, the cold air of taking advantage of convection current from refrigerating chamber with mist blow-off outlet 63a by conduit 63, cool-air feed conduit 37 for mist towards refrigerating chamber, and be supplied in refrigerating chamber 3 from cool-air feed mouth 39.

And, a part of emitting the mist that pin 57 emits from mist is as shown in the arrow B 2 of Fig. 4 and Fig. 7, from refrigerating chamber, with mist blow-off outlet 65, be supplied to especially micro-the freezing in box 18 in refrigerating chamber 14, and as shown in the arrow B 3 in Fig. 4, also from egg box, with mist blow-off outlet 66, be supplied in egg box 15.

And then a part of emitting the mist that pin 57 emits from mist is also supplied in vegetable compartment 4 by connected entrance 75, V conduit 76, blow vent 77 with mist blow-off outlet 67 from the vegetable compartment of right lower quadrant.

Therefore, in the present embodiment, mist can be supplied to a plurality of supply targets such as refrigerating chamber 3, refrigerating chamber 14, egg box 15 and vegetable compartment 4 with the mist of dedicated conduits 45 interior generations, thereby can expect that these supply with the degerming of target or the effect of deodorizing, and also can expect the moisturizing of vegetables etc. or fresh-keeping.

According to above-mentioned the 1st embodiment, can obtain action effect as described below.

Owing to having adopted following structure, , by the electrostatic atomization apparatus 48 that forms degerming composition and produce mechanism's (mist discharging gear release mechanism) be arranged at refrigerating chamber 14 in portion, the mist that comprises degerming composition (hydroxy radical) being produced by this electrostatic atomization apparatus 48 is supplied to refrigerating chamber 14, therefore refrigerating chamber 14 can utilize Cong Gai refrigerating chamber with the cold air of cool-air feed mouth 68 supplies, to be cooled to than till refrigerating chamber 3 and the low temperature of vegetable compartment 4, the temperature of refrigerating chamber 14 can be maintained to approximately 0 ℃, can easily realize degerming or the deodorizing of the refrigerating chamber 14 of storage meat or fish etc., and also can carry out moisturizing or fresh-keeping.

And that uses by refrigeration that pressure fan 35 circulates uses a part for the air (cold air) after cooler 24 to emit portion 50 (Fig. 7) from mist with the mist that cool-air feed mouth 62 is supplied to electrostatic atomization apparatus 48 by refrigeration.

Now, from mist, emit mist that portion 50 emits and emit the air of portion 50 (cold air) and together from refrigerating chamber, with mist blow-off outlet 65, blow out to refrigerating chamber 14 with being supplied to mist, and by connected entrance 44, blow out to vegetable compartment 4 with mist blow-off outlet 67 from vegetable compartment.

Herein, vegetable compartment is set to and is less than the aperture area S2 of mist blow-off outlet 65 for refrigerating chamber with the aperture area S1 of mist blow-off outlet 67, and the air quantity (amount of cold air) therefore blowing side out to vegetable compartment 4 with mist blow-off outlet 67 from vegetable compartment is less than from refrigerating chamber and blows out to the air quantity (amount of cold air) in refrigerating chamber 14 with mist blow-off outlet 65.

Therefore, can suppress the air quantity (amount of cold air) that blows side out to vegetable compartment 4 with mist blow-off outlet 67 from vegetable compartment, thereby can prevent: vegetable compartment 4 is because using the cold air after cooler 24 to become cold by refrigeration.

Due to the mist of using air supply to mist after cooler 24 to emit portion 50 by refrigeration is configured to and is longer than cool-air feed Kou62Yu distance L 2 between mist blow-off outlet 65 for refrigerating chamber for described mist by the distance L 1 between mist blow-off outlet 67 by cool-air feed mouth 62 and vegetable compartment, though be therefore supplied to mist from mist with cool-air feed mouth 62, with the cold air in dedicated conduits 45, easily flow to mist blow-off outlet 65 for refrigerating chamber, but more difficultly in contrast flow to mist blow-off outlet 67 sides for vegetable compartment, and then cold air difficulty flows to vegetable compartment 4 sides.Whereby, also can prevent that vegetable compartment 4 from becoming cold because of cold air.

At mist, by cool-air feed mouth 62 and vegetable compartment, configure mist between with mist blow-off outlet 65 and emitting portion 50.Whereby, from mist, emit the mist that portion 50 emits and easily flow to mist blow-off outlet 65 for vegetable compartment, thereby also mist can be supplied to vegetable compartment 4 well.

Owing to having adopted, the mist that comprises degerming composition being produced by electrostatic atomization apparatus 48 is also supplied to the structure with the vegetable compartment 4 of refrigerating chamber 14 adjacency, therefore also can realizes degerming or the deodorizing of vegetable compartment 4, and also can realize the moisturizing of vegetables etc. or fresh-keeping.

Owing to having adopted following structure,, in micro-upper back of freezing box 18, be formed with notch 18b, the mist that comprises degerming composition blowing out with mist blow-off outlet 65 from refrigerating chamber is supplied to micro-freezing in box 18 from notch 18b, and the mist efficiency that comprises degerming composition therefore can Jiang Cong refrigerating chamber blowing out with mist blow-off outlet 65 is supplied to micro-freezing in box 18 well.

And, because refrigerating chamber is tubular with mist blow-off outlet 65, therefore the Wu Cong refrigerating chamber that comprises degerming composition can be supplied to micro-freezing in box 18 well with mist blow-off outlet 65.

Owing to having adopted following structure,, the top of refrigerating chamber 14 is stopped up by the mounting plate 70 that forms top plate portion, front surface is stopped up by micro-front surface wall 18a that freezes box 18, therefore micro-box 18 that freezes is being accommodated under the state in refrigerating chamber 14, the mist that comprises degerming composition being supplied in refrigerating chamber 14 is difficult to leak into outside, thereby the effect of the mist that makes to comprise degerming composition can more effectively play a role in refrigerating chamber 14.

In refrigerating chamber 14, be provided with blow vent 74a and the connected entrance 75 of the outlet of the air that becomes refrigerating chamber 14, air in refrigerating chamber 14 flows out to the outside of refrigerating chamber 14 from blow vent 74a and connected entrance 75 respectively, so can easily accept the supply with the mist that comprises degerming composition in mist blow-off outlet 65Xiang refrigerating chamber 14 from refrigerating chamber.

Adopt following structure, that is, in the bottom of refrigerating chamber 14, be provided with the connected entrance 75 that refrigerating chamber 14 is communicated with vegetable compartment 4, and micro-box 18 that freezes has not stopped up connected entrance 75.Thus, even if take under micro-state that freezes box 18, also connected entrance 75 can be guaranteed in refrigerating chamber 14, thereby the flowing of air of the mist by this connected entrance 75 can be guaranteed to comprise.

Owing to having adopted following structure,, electrostatic atomization apparatus 48 has the tank 56 of the defrost water of cooler 24 for the refrigeration accepted and store, water in this tank 56 is carried out to atomization, and the mist that comprises degerming composition is supplied to refrigerating chamber 14, therefore as mentioned above, the mist that comprises degerming composition (hydroxy radical) can be supplied to refrigerating chamber 14, thereby can realize degerming or the deodorizing of refrigerating chamber 14, and also can realize moisturizing or fresh-keeping.

And, in electrostatic atomization apparatus 48, water used is to have utilized the defrost water of cooler 24 for the refrigeration of tank 56 interior storages, therefore the water supply to tank 56 can be automatically carried out, thereby the time that user (user) supplies water can be saved.

Because refrigeration is arranged on the rear of refrigerating chamber 14 with cooler 24, therefore can utilize near the refrigeration of refrigerating chamber 14 to be used as by the defrost water of cooler 24 water using in electrostatic atomization apparatus 48.

The deep freezer of present embodiment has adopted possesses the freeze cycle of cooler 24 and freezing double evaporators (evaporator) mode with cooler 25 these 2 coolers for refrigeration.

Herein, as the freezing peripheral temperature with cooler 25 of deep freezer of freeze cycle of employing double evaporators mode or the peripheral temperature of the cooler of the deep freezer of single evaporator mode as present embodiment can become because of the heating of Defrost heater positive temperature when defrosting, but can remain the temperature below-20 ℃ beyond when defrosting.

Suppose below these coolers, to be provided with tank, even if utilize tank to accept and store defrost water when the defrosting of cooler, the water in this tank also easily freezes and is difficult to melt.

Therefore, exist and be difficult to stably mist be emitted to the problem that portion 50 carries out the supply of water.

For this point, in the present embodiment, in possessing the deep freezer of refrigeration by cooler 24 and the freezing double evaporators mode with cooler 25 these 2 coolers, adopted tank 56 has been arranged on to the structure of cooler 24 belows for refrigeration.

In the deep freezer of double evaporators mode, although refrigeration can become negative (minus) temperature by the peripheral temperature of cooler 24 in the cooling running with cooler 24 in this refrigeration, but still far above the freezing temperature with cooler 25, and, during in the freezing cooling running with cooler 25, the running of (storeroom of cryogenic temperature section cooling in) or compressor 27 stops, can by refrigeration by the air circulation of pressure fan 35, rise to approach refrigerating chamber 3 temperature+3 ℃ near till.

Therefore, be arranged on refrigeration with the shipwreck in the tank 56 of cooler 24 belows to freeze, and, even if freeze also easily thawing, thereby, can stably to mist, emit portion 50 and carry out the supply of water.

The mist of electrostatic atomization apparatus 48 is emitted portion 50 and by the outstanding a plurality of mists of the direction towards different, is emitted 57 of pins (teat) to form.By this structure, the projected direction that produces the teat of use from mist is only that unidirectional situation is different, the direction of the supply of mist can be made as to multiple directions, thereby can widen the supply scope of mist.

Mist is emitted portion 50 structure that rightabout extends up and down by adopting described mist to emit that pin (teat) 57 is clipped in the middle the horizontal part 53a of water unit 53, thereby also mist can be emitted towards the rightabout of top and below, can widen the supply scope of mist.

And it is become parallel mode and configure along this front walls 36a with the front walls 36a of cooler chamber 36 with the refrigeration with air coolant tube 34 that the horizontal part 53a of water unit 53 and each mist are emitted pin 57, can realize thus the slimming of fore-and-aft direction.By mist being emitted to pin (teat) 57, be configured to two sections, can realize compactness (compact) and change.

Mist is emitted portion 50 makes a plurality of described mists emit the structure that pin (teat) 57 arrangement shape in column configures by employing, can increase the discharging amount of mist, thus the supply scope that can further widen mist, and, can realize slimming.

Adopted following structure, that is, water unit 53 has bend 53c, is provided with the tank 56 that stores water below bend 53c, the water storing can be supplied to described bend 53c in tank 56.Thus, the water of tank 56 can be supplied to mist via bend 53c and emit pin 57.

Supply unit 52 emits that portion 50 is clipped in the middle and the opposition side that is disposed at bend 53c by mist.Thus, can make supply unit 52 more away from tank 56.

And, by supply unit 52 and mist generation unit 51 are become to parallel mode and configure along this front walls 36a with the front walls 36a of cooler chamber 36 with the refrigeration with air coolant tube 34, can realize the slimming of the depth direction of electrostatic atomization apparatus 48.

The mist of electrostatic atomization apparatus 48 is emitted to mist in portion 50 emits pin (teat) 57 and configures in the mode along air coolant tube 34.Thus, can suppress the depth size of the fore-and-aft direction of electrostatic atomization apparatus 48, thereby can realize slimming.Follow in this, can suppress the minimizing of refrigerator internal volume.

In the front portion of air coolant tube 34, be provided with the cool-air feed mouth 62 for mist with dedicated conduits 45 interior cool-air feeds to mist, the mist of electrostatic atomization apparatus 48 is emitted to the place ahead that portion 50 is disposed at described air coolant tube 34.

Thus, can utilize from mist and be supplied to the cooling air in dedicated conduits 45 for mist with cool-air feed mouth 62, make to emit from mist the mist that portion 50 emits and fly away at a distance.

Mist is emitted portion 50 (mist is emitted pin 57) with cool-air feed mouth 62 and mist and is configured on the position of left and right deviation in the different mode in the position with in opposite directions (in direct mode in opposite directions), therefore from mist, with cool-air feed mouth 62, is supplied to mist and with the cooling air in dedicated conduits 45, can directly blow to mist and emit portion 50 (mist is emitted pin 57).

Thus, can make mist emit pin 57 and directly be subject to that dry phenomenon is suppressed with the cooling air of cool-air feed mouth 62 from mist.

In refrigerator body 1, comprise accommodating to there is the dedicated conduits 45 for mist that mist is emitted the electrostatic atomization apparatus 48 of portion 50, at this mist, with in dedicated conduits 45, be provided with the different a plurality of mist blow-off outlets of supply target that make to be emitted by mist the mist that portion 50 produces.

A plurality of mist blow-off outlets specifically refer to mist blow-off outlet 63a for refrigerating chamber, for refrigerating chamber, mist blow-off outlet 65, egg box are used mist blow-off outlet 66 and mist blow-off outlet 67 for vegetable compartment.

Thus, mist can be supplied to refrigerating chamber 3, refrigerating chamber 14, egg box 15 and vegetable compartment 4 these 4 supply targets with the mist of dedicated conduits 45 interior generations, can widen the supply scope of mist, thereby can expand the effective scope of mist.

Refrigerating chamber 14 in the supply target of mist, egg box 15 and vegetable compartment 4 have respectively micro-box 18, egg box 15, vegetable box (lower box 11, upper box 12) of freezing, and mist can be supplied in these boxes well.

Now, a plurality of mist blow-off outlets (mist blow-off outlet 66 and mist blow-off outlet 67 for vegetable compartment for mist blow-off outlet 63a for refrigerating chamber, mist blow-off outlet 65 for refrigerating chamber, egg box) are to be configured in centered by mist is emitted portion 50 around, therefore can be supplied to well each mist blow-off outlet by emit the mist that portion 50 emits from mist.

Mist generation unit 51 has mist and emits pin (teat) 57, a plurality of mist blow-off outlets of dedicated conduits 45 for mist (mist blow-off outlet 66 and mist blow-off outlet 67 for vegetable compartment for mist blow-off outlet 63a for refrigerating chamber, mist blow-off outlet 65 for refrigerating chamber, egg box) are to be configured in that to emit pin 57 position in opposite directions from mist be on different position (directly position) in opposite directions, therefore, even just in case have finger or foreign matter to insert mist with in dedicated conduits 45 from mist blow-off outlet, also can prevent that them from directly contacting mist and emitting pin 57, thereby can guarantee security.

And, due to form mist with the conduit member of formation 46 of dedicated conduits 45 for loading and unloading, so can easily carry out the maintenance (maintenance) of mist generation unit 51 grades.

Air coolant tube 34 have configuration refrigeration with the refrigeration of cooler 24 with the front walls 36a (the 1st protuberance) of cooler chamber 36 and be positioned at the below of this front walls 36a and configure the bottom protuberance 36c (the 2nd protuberance) of tank 56, to mist, with the mist of the interior supply wind of dedicated conduits 45 (cold air), with cool-air feed mouth 62, be located on the front walls 36a that becomes the 1st protuberance.

According to this structure, tank 56 is configured in air coolant tube 34, from mist, with cool-air feed mouth 62, be supplied to the cold air in dedicated conduits 45 for mist (wind) and can be supplied to tank 56, thus the shipwreck of tank 56 interior storages with evaporation, thereby can guarantee well the water that mist is used.

The bottom protuberance 36c that becomes the 2nd protuberance is in the greatly outstanding mode in the place ahead and establishing more of the front walls 36a towards becoming the 1st protuberance, the electrostatic atomization apparatus 48 that forms mist discharging gear release mechanism has water is transferred to the water-keeping material 55 till mist is emitted portion 50 from tank 56, the mist that this water-keeping material 55 extends to air coolant tube 34 from bottom protuberance 36c is used in dedicated conduits 45, and mist is emitted the place ahead that portion 50 is configured in front walls 36a.

According to this structure, on front walls 36a, be formed with the cool-air feed mouth 62 for mist with the interior supply wind of dedicated conduits 45 (cold air) to mist, from this mist, with cool-air feed mouth 62, be supplied to mist and with the wind in dedicated conduits 45, can not blow to the bottom of the water-keeping material 55 of the water of drawing tank 56, therefore, especially can prevent: the bottom of water-keeping material 55, because becoming dry with the wind of cool-air feed mouth 62 from mist, emits portion 50 thereby the water of tank 56 can be supplied to mist well.And because water-keeping material 55 is covered by box 54, even if therefore box 54 is subject to wind, water-keeping material 55 is also difficult to become dry.

(the 2nd embodiment)

Figure 12 represents the 2nd embodiment.In the 2nd embodiment, the structure of the mist generation unit 86 in the electrostatic atomization apparatus 85 of formation degerming composition generation mechanism is different from the 1st embodiment.

Mist generation unit 86 possesses mist and emits portion 87 and this mist is emitted to the water unit 88 that portion 87 supplies with moisture.Water unit 88 has from the rounded rounded portions 88a of top view and the vertical component effect 88b that extends downwards from this rounded portions 88a, and is to form by taking in to box 89 with the same water-keeping material 90 of the 1st embodiment.

The bottom of conduit member of formation 46 and the anterior 36b of section portion (with reference to Fig. 8) that cooler chamber 36 is used in described refrigeration are run through in the bottom of vertical component effect 88b, and from top, insert refrigeration with in the interior set tank 56 in cooler chamber 36.

Rounded portions 88a in water unit 88 and vertical component effect 88b become parallel mode to configure along this front walls 36a with the refrigeration with air coolant tube 34 with the front walls 36a of cooler chamber 36.

Mist is emitted portion 87 and by many mists that form respectively teat, is emitted pin 57 to be formed.Mist is emitted pin 57 and is the peripheral part that is located at radially rounded portions 88a.

Therefore, mist is emitted portion 87 and by the outstanding a plurality of mists of the direction towards different, is emitted pin 57 (teat) to be formed.The bottom that each mist is emitted pin 57 is run through box 89 and contacts with water-keeping material 90.

It is also with the front walls 36a of cooler chamber 36, to become parallel mode to configure along front walls 36a with the refrigeration with air coolant tube 34 that each mist is emitted pin 57.

The left part of rounded portions 88a in water unit 88, is provided with the outstanding protuberance 88c in side left, on this protuberance 88c, is provided with is subject to electricity pin 58 with outstanding left state.This is subject to electricity pin 58 to be connected in the power supply terminal 61 of supply unit 52 sides.

In this structure, the water of tank 56 interior storages is drawn by capillarity by water-keeping material 90, and is supplied to each mist and emits pin 57.And, from the negative high voltage of supply unit 52, from being subject to electricity pin 58 moisture via water-keeping material 90, be applied to each mist and emit pin 57, based on this, from each mist, emit pin 57 and emit fine mist.

From each mist emit mist that pin 57 emits be with the 1st embodiment similarly, from a plurality of mist blow-off outlets (mist blow-off outlet 66 and mist blow-off outlet 67 for vegetable compartment for mist blow-off outlet 63a for refrigerating chamber, mist blow-off outlet 65 for refrigerating chamber, egg box), be supplied to a plurality of supply targets such as refrigerating chamber 3, refrigerating chamber 14, egg box 15 and vegetable compartment 4.

In this kind the 2nd embodiment, especially due to mist, to emit pin 57 be to be radial configuration, therefore compares with the situation of the 1st embodiment, has advantages of and can emit mist to more direction.

(the 3rd embodiment)

Figure 13 represents the 3rd embodiment.In the 3rd embodiment, following aspect is different from the 1st embodiment.

Vegetable compartment is being carried out on the path constriction wall 67a of constriction with the path 67b of the upstream of mist blow-off outlet 67, be stationary state and be provided with wind direction board 81.The further constriction path 67b of this wind direction board 81.

By wind direction board 81 is set, can further reduces the amount of the cold air blowing side out to vegetable compartment 4 with mist blow-off outlet 67 from vegetable compartment, thereby can prevent the excessively cold of vegetable compartment 4.

(the 4th embodiment)

Figure 14 represents the 4th embodiment.In the 4th embodiment, following aspect is different from the 3rd embodiment.

In path constriction wall 67a, replace the wind direction board 81 of stationary state and be provided with rotationally wind direction board 82.By the turned position of this wind direction board 82, can change the aperture area of path 67b.

Preferably by not shown motor (motor), control the turned position of this wind direction board 82.Whereby, also can obtain the action effect same with the 3rd embodiment.

(the 5th embodiment)

Figure 15 represents the 5th embodiment.In the 5th embodiment, following aspect is different from the 1st embodiment.

In vegetable compartment, with in the path 67b above mist blow-off outlet 67, be provided with the heater 83 being formed by electric heater.Utilize this heater 83 to heat the air by path 67b (cold air), can improve thus the temperature of the air blowing out with mist blow-off outlet 67 from vegetable compartment, thereby can further positively prevent the excessively cold of vegetable compartment 4.

(the 6th embodiment)

Figure 16 represents the 6th embodiment.In the 6th embodiment, following aspect is different from the 1st embodiment.

In the demarcation strip 10 of separating, be provided with the elongate catheter 185 (conduit) that direction (left and right directions in Figure 16) is extended forwards, backwards between to refrigerating chamber 3 and vegetable compartment 4.This elongate catheter 185 is the two sections of epimere conduit 185a and hypomere conduit 185b, and epimere conduit 185a utilizes anterior interconnecting part 185c with hypomere conduit 185b and is communicated with.

The top at the rear portion of epimere conduit 185a is wherein communicated in mist blow-off outlet 67 for vegetable compartment via connected entrance 75.At the lower surface of hypomere conduit 185b, be provided with the blow-off outlet 186 of a plurality of upper openings to vegetable compartment 4.

In said structure, in mist, with air and the mist of the interior generation convection current of dedicated conduits 45, by vegetable compartment mist blow-off outlet 67, connected entrance 75, be supplied to the epimere conduit 185a of elongate catheter 185.Be supplied to the air of epimere conduit 185a and mist as shown in the arrow C of Figure 16, in epimere conduit 185a after flowing in the place ahead, in interconnecting part 185c, direction is changed into down, and towards rear, flow in hypomere conduit 185b, then blow out to vegetable compartment 4 from a plurality of blow-off outlets 186.

In the above-described embodiment, the air blowing out with mist blow-off outlet 67 from vegetable compartment and mist temperature the process by elongate catheter 185 uprises gradually, therefore by the relatively high air of vegetable compartment 4 supplying temperatures, also can prevent thus the excessively cold of vegetable compartment 4.

(other embodiments)

As degerming composition, produce mechanism, be not limited to above-mentioned electrostatic atomization apparatus, for example, also can adopt following structure,, by sparking electrode being applied to high voltage, produce ion (ion), and the composition that this ion and airborne moisture are combined into is emitted as degerming composition.And, also can adopt following structure, that is, utilize corona discharge etc. to produce ozone, and emit ozone as degerming composition.

And then, also can use ultrasonic type atomising device, that is, the ultrasonic vibration by ultrasonic vibration element makes the water atomization storing in water storage portion and mist is emitted.And, as for blowing out the mist blow-off outlet of the mist of emitting from mist discharging gear release mechanism, can not possess mist blow-off outlet 63a and egg box mist blow-off outlet 66 for refrigerating chamber yet.

As mentioned above, according to the refrigerator of present embodiment, adopted following structure,, by the degerming composition that produces mist produce mechanism be arranged at refrigerating chamber in portion, the degerming composition of the hydroxy radical being produced by this degerming composition generation mechanism or ozone etc. is supplied to refrigerating chamber, therefore can easily realizes degerming or the deodorizing of the refrigerating chamber of storage meat or fish etc.

And, according to the refrigerator of present embodiment, utilizing by the cold air after cooler, the mist of emitting from the mist portion of emitting is supplied to the refrigerator of refrigerating chamber and vegetable compartment, vegetable compartment is set as being less than the aperture area of mist blow-off outlet for refrigerating chamber with the aperture area of mist blow-off outlet.

Thus, the air quantity blowing side out to vegetable compartment with mist blow-off outlet from vegetable compartment (amount of cold air) becomes to be less than from refrigerating chamber and blows out to the air quantity (amount of cold air) in refrigerating chamber with mist blow-off outlet.

Therefore, can suppress the air quantity (amount of cold air) that blows side out to vegetable compartment 4 with mist blow-off outlet from vegetable compartment, thereby can prevent: vegetable compartment became cold because of the cold air by after cooler.

The above, it is only preferred embodiment of the present invention, not the present invention is done to any pro forma restriction, although the present invention discloses as above with preferred embodiment, yet not in order to limit the present invention, any those skilled in the art, do not departing within the scope of technical solution of the present invention, when can utilizing the structure of above-mentioned announcement and technology contents to make a little change or being modified to the equivalent embodiment of equivalent variations, but every content that does not depart from technical solution of the present invention, any simple modification of above embodiment being done according to technical spirit of the present invention, equivalent variations and modification, all still belong in the scope of technical solution of the present invention.

Claims (8)

1. a refrigerator, is characterized in that comprising:

Refrigerator body, has refrigerating chamber and vegetable compartment;

Cooler, is located in this refrigerator body, for cooling described refrigerating chamber and vegetable compartment;

Pressure fan, makes the air of described refrigerating chamber and described vegetable compartment contact described cooler circulation;

Degerming composition produces mechanism, has water storage portion, and the water of this water storage portion is carried out atomization and from the mist portion of emitting, emits the mist that comprises degerming composition;

Refrigerating chamber's mist blow-off outlet; And

Vegetable compartment mist blow-off outlet,

To the described mist portion of emitting supply with by described pressure fan, circulate, by a part for the air after described cooler, mist and this air of from the described mist portion of emitting, emitting are together blown out to described refrigerating chamber with mist blow-off outlet from described refrigerating chamber, and blow out to described vegetable compartment with mist blow-off outlet from described vegetable compartment

Described vegetable compartment is set as being less than the aperture area of mist blow-off outlet for described refrigerating chamber with the aperture area of mist blow-off outlet.

2. refrigerator according to claim 1, is characterized in that,

Described vegetable compartment is communicated in the connected entrance forming on the demarcation strip that described refrigerating chamber and vegetable compartment are separated with mist blow-off outlet, the mist blowing out with mist blow-off outlet from described vegetable compartment is supplied to described vegetable compartment by described connected entrance.

3. refrigerator according to claim 1, is characterized in that,

Be provided with the refrigerating chamber's cool-air feed mouth that the air by after described cooler is directly supplied to described refrigerating chamber.

4. refrigerator according to claim 1, is characterized in that,

The mist of the air supply by after described cooler to described mist being emitted to portion is constituted as and is longer than described mist cool-air feed mouth and the described refrigerating chamber distance between mist blow-off outlet by the distance between mist blow-off outlet by cool-air feed mouth and described vegetable compartment.

5. refrigerator according to claim 4, is characterized in that,

At described mist, by cool-air feed mouth and described vegetable compartment, dispose described mist between with mist blow-off outlet and emit portion.

6. refrigerator according to claim 1, is characterized in that,

In described vegetable compartment with being provided with wind direction board in mist blow-off outlet.

7. refrigerator according to claim 1, is characterized in that,

At the heater that is provided with heating use in mist blow-off outlet for described vegetable compartment.

8. refrigerator according to claim 1, is characterized in that,

From described vegetable compartment with mist blow-off outlet till be provided with conduit the path of described vegetable compartment.

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