CN202221209U - Refrigerator - Google Patents

Abstract

A refrigerator can brightly illuminate even on the condition that food with high height is contained near an illuminating mechanism. The refrigerator comprises a refrigerator main body provided with a storage chamber, a loading table arranged in the storage chamber and used for loading stored objects and the illuminating mechanism arranged below the loading table. Light irradiated by the illuminating mechanism is irradiated to the inclined top in the front of the refrigerator, and is reflected by a reflection face on the lower surface of the loading table.

Description

Refrigerator

Technical field

The direction of illumination that the utility model relates to the light that shines from the lighting mechanism that is arranged in the case has carried out improved refrigerator.

Background technology

In the past, refrigerator was provided with luminaire (lighting mechanism) in case, thereby to throwing light in the refrigerating chamber.This luminaire is arranged on end face, depth face or the side etc. in the refrigerating chamber.

In this luminaire, have following problem: for example, when being provided with under the situation of pulling out container in the refrigerating chamber bottom, thus from the light of luminaire can by around shelf or food block and produce shadow, thereby light is difficult to arrive the inner body of pulling out container.

Therefore, have following refrigerator: the depth face top taking in the incorporating section of pulling out container is provided with luminaire, utilizes this luminaire direct irradiation to pull out internal tank (for example patent documentation 1).

[patent documentation 1] TOHKEMY 2010-48431 communique

But; In the refrigerator of the structure that above-mentioned patent documentation 1 is put down in writing; There is following situation: when near the luminaire, for example take under the situation of highly high food etc. near the place ahead at luminaire; Stop by this food and form shadow around from the light of luminaire, thereby can't throw light on to the inner body of pulling out container brightly.

The utility model content

Therefore, the purpose of the utility model is, even provide a kind of under near the situation of taking in highly high food etc. the lighting mechanism, the refrigerator that also can throw light on brightly.

In order to reach above-mentioned purpose, the refrigerator according to the utility model is characterized in that, said refrigerator possesses: refrigerator main body has storeroom; Carry and put platform, be arranged in the said storeroom, be used for carrying and put reserve; And lighting mechanism, be arranged on the below of putting platform in said year; Shine towards the place ahead oblique upper the said refrigerator from the light of said lighting mechanism irradiation, and reflect by the reflecting surface of the lower surface of putting platform in said year.

And, can also for, the refrigerator of the utility model is provided with the wall that bloats that bloats towards the place ahead at the rear portion of said storeroom, said lighting mechanism is arranged at this rake that bloats the top in the wall.

And, can also do, the refrigerator of the utility model, the rear of the said lighting mechanism on the said rake on the said top that bloats wall is provided with the water output mechanism.

In addition, can also for, the refrigerator of the utility model has been taken in cooler at the said rear that bloats wall, between this cooler and said lighting mechanism, is provided with adiabatic mechanism.

Description of drawings

Fig. 1 is the vertical profile side view that illustrates based on the whole summary structure of the refrigerator of first embodiment.

Fig. 2 is the whole front view of refrigerator that illustrates under the state after door and shelf etc. is removed.

Fig. 3 is near the summary stereogram the shock chamber.

Fig. 4 is the enlarged front view of mist generating chamber periphery.

Fig. 5 is the cross-sectional vertical view of the X1-X1 line in Fig. 4.

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

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

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

Fig. 9 is the vertical profile front view of electrostatic atomization apparatus part.

Figure 10 is the stereogram of mist generating chamber and lighting unit periphery.

Figure 11 is based on the figure suitable with Fig. 9 of second embodiment.

Description of symbols

1: refrigerator main body; 3: refrigerating chamber (storeroom); 18: Quench box (accommodating container); 18d: notch; 24: refrigeration is with cooler (cooler); 36a: front walls (bellying); 36d: rake; 36f: slot part (water output mechanism); 38: heat-insulating material; 47: carry and put platform; 47c: reflecting surface (reflecting mechanism); 68: the shock chamber is with cool-air feed mouth (cool-air feed mouth); 80: lighting unit (lighting mechanism); 81: circuit substrate; 81b, 81c: light emitting diode (light source); 82: cover.

The specific embodiment

Below, with reference to accompanying drawing the refrigerator based on a plurality of embodiments is described.In addition, in each embodiment, identical in fact structure position is given identical mark and omitted explanation.

(first embodiment)

With reference to Fig. 1～Figure 10 first embodiment is described.As depicted in figs. 1 and 2, refrigerator main body 1 constitutes and is provided with in the body of thermal insulating box 2 of the lengthwise rectangular box shape of opening in front at above-below direction a plurality of storerooms of configuration side by side.

Specifically, in body of thermal insulating box 2, begin to be disposed with refrigerating chamber 3, vegetable compartment 4, be set side by side with ice-making compartment 5 and little refrigerating chamber 6 about thereunder, below ice-making compartment 5 and little refrigerating chamber 6, be provided with refrigerating chamber 7 from the higher level.

In ice-making compartment 5, be provided with known automatic ice-making plant 8 (with reference to Fig. 1).In addition, body of thermal insulating box 2 basically by the outer container 2a of steel plate system, plastic in case 2b and be arranged on outer container 2a and interior case 2b between heat-insulating material 2c constitute.

Refrigerating chamber 3 all is the storeroom of refrigerated storage temperature band (for example 1～4 ℃) with vegetable compartment 4, is separated up and down by the plastic partition wall 10 of the base plate that forms refrigerating chamber 3 between refrigerating chamber 3 and the vegetable compartment 4.

This partition wall 10 roughly is plane, and constitute its hinder marginal part have form towards above the protuberance 10a of convex form of protrusion (with reference to Fig. 6～Fig. 8).Be provided with the insulated door 3a of hinge open and close type at the front face of refrigerating chamber 3, be provided with the insulated door 4a of drawer type at the front face of vegetable compartment 4.

Back side portion at this insulated door 4a links the lower box 11 that the formation tank is arranged.Be provided with the upper box 12 more small-sized than lower box 11 at the rear, top of lower box 11.

In the refrigerating chamber 3 by a plurality of shelves 13 be divided into up and down multistage.As shown in Figure 3, the foot in refrigerating chamber 3 (top of partition wall 10) is provided with shock chamber 14 on the right side, and 14 left side further, is provided with storage tank 17 in the left side of egg box 15 and smallclothes box 16 at last egg box 15 and the smallclothes box 16 of being arranged with in the shock chamber.In shock chamber 14, be provided with Quench box 18 with the mode that can put into taking-up.Storage tank 17 is the parts that are used to store the water that the ice making tray 8a to automatic ice-making plant 8 supplies with.

Ice-making compartment 5, little refrigerating chamber 6 and refrigerating chamber 7 all are the storerooms of cryogenic temperature band (for example-10～-20 ℃), are separated up and down by adiabatic partition wall 19 between vegetable compartment 4 and ice-making compartment 5 and the little refrigerating chamber 6.

Be provided with the insulated door 5a of drawer type at the front face of ice-making compartment 5, linking in the back side portion of this insulated door 5a has ice container 20.Front face at little refrigerating chamber 6 also is provided with the insulated door that not shown binding has the drawer type of storage container.

Front face at refrigerating chamber 7 also is provided with the insulated door 7a that links the drawer type that storage container 22 is arranged.

Though detailed icon not; In this refrigerator main body 1, be assembled with freezing cycle device; This freezing cycle device possesses refrigeration with cooler 24 and freezing with cooler 25 these 2 coolers; Refrigeration is used for refrigerating chamber 3 and vegetable compartment 4 are cooled off with cooler 24, freezingly is used for ice-making compartment 5, little refrigerating chamber 6 and refrigerating chamber 7 are cooled off with cooler 25.

Rear side is provided with Machine Room 26 in the bottom of refrigerator main body 1; Though detailed icon not; In this Machine Room 26, be equipped with the compressor 27 that constitutes freezing cycle device and condenser (not shown) etc.; And, also be equipped with the cooling fan that is used for compressor 27 and condenser are cooled off and Defrost water evaporating ware 28 etc.Lean on the part of bottom to be provided with control device 29 at the back side of refrigerator main body 1, micro computer that refrigerator integral body is controlled etc. is installed at this control device 29.In addition, though and not shown, the ground wire of electrical equipment that is arranged at refrigerator main body 1 is via ground connection such as outer container 2a.

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

In this structure; Freezing during when driving with Air Blast fan 31; Carry out following circulation by the freezing cold air that generates with cooler 25: this cold air is supplied in ice-making compartment 5, little refrigerating chamber 6 and the refrigerating chamber 7 from cold air blow-off outlet 30a, returns freezing with in the 30a of cooler chamber then from return port 30b.

Ice-making compartment 5, little refrigerating chamber 6 and refrigerating chamber 7 are by this cold air cooling.In addition, be provided with rhone 32, the defrost water when this rhone 32 is used to accept freezing defrosting with cooler 25 in freezing lower portion with cooler 25.

The defrost water of being accepted by rhone 32 is directed to the Defrost water evaporating ware 28 that is arranged in the outer Machine Room of case 26, and is evaporated in Defrost water evaporating ware 28 parts.

And then; The refrigerating chamber 3 in being arranged at refrigerator main body 1 and the back, rear of vegetable compartment 4 are equipped with refrigeration with cooler 24, cold air path 34 and refrigerate with Air Blast fan 35 etc.; Cold air path 34 is used for the cool-air feed that is generated with cooler 24 by this refrigeration to above-mentioned refrigerating chamber 3 (and vegetable compartment 4) in, refrigerates to be used to make circulating cold air with Air Blast fan 35.

That is, the refrigeration that the rear (rear of shock chamber 14) of the subordinate of the refrigerating chamber 3 in refrigerator main body 1 is provided with a part that constitutes cold air path 34 refrigerates and is provided in this refrigeration with in the cooler chamber 36 with cooler 24 with cooler chamber 36.

Above refrigerating with cooler chamber 36, be provided with the cool-air feed passage 37 that extends above the court, refrigeration is communicated with the bottom of cool-air feed passage 37 with the upper end of cooler chamber 36.In this case, utilize refrigeration to constitute cold air path 34 with cooler chamber 36 and cool-air feed passage 37.

Being arranged at refrigeration also bloats towards the place ahead than cool-air feed passage 37 with the front walls 36a in the place ahead of cooler chamber 36.And forwardly the dorsal part of wall 36a (refrigeration with cooler 24 sides) is provided with and covers the heat-insulating material with thermal insulation 38 that refrigerates with the front surface of cooler 24 (for example polyurathamc etc. formed products).Be provided with a plurality of cool-air feed mouths 39 at refrigerating chamber 3 inner openings in the front portion of cool-air feed passage 37.

Be provided with the rhone of accepting from refrigerating with the defrost water of cooler 24 40 in refrigeration with the bottom in the cooler chamber 36, this rhone 40 is positioned at the below of refrigeration with cooler 24.The defrost water of being accepted by this rhone 40 also is directed into Defrost water evaporating ware 28 and the evaporation that is arranged in the outer Machine Room of case 26 with the defrost water of being accepted by rhone 32 equally.

The depth size of length dimension about rhone 40 and front and back is set for bigger with the depth size of length dimension about cooler 24 and front and back than refrigeration, can accept from refrigerating the size of all defrost water of dripping with cooler 24 thereby constitute.

Be equipped with refrigeration with Air Blast fan 35 at the rear of vegetable compartment 4, and be provided with air-supply passage 42 and suction inlet 43, above-mentioned refrigeration is positioned at the below of rhone 40 with Air Blast fan 35.Wherein, the upper end of air-supply passage 42 walk around rhone 40 with refrigeration be communicated with cooler chamber 36 (cold air path 34).Suction inlet 43 is at vegetable compartment 4 split sheds.

In addition, as shown in Figure 5, two bights are formed with connected entrance 44 (connected entrance 44 on right side only is shown) in Fig. 5 about the rear portion of the partition wall 10 of the base plate that constitutes refrigerating chamber 3.This connected entrance 44 is communicated with refrigerating chamber 3 and the vegetable compartment 4 that is positioned at the below of refrigerating chamber 3.

In this structure, main shown in the blank arrow of Fig. 1 when driving refrigeration with Air Blast fan 35, the air in the vegetable compartment 4 is inhaled into refrigeration with Air Blast fan 35 sides from suction inlet 43, and this air that is inhaled into is blown side out towards air-supply passage 42.

The air that is blown side out towards air-supply passage 42 carries out following circulation: this air is blown to refrigerating chamber 3 from a plurality of cool-air feed mouths 39 through cold air path 34 (refrigeration is with cooler chamber 36 and cool-air feed passage 37).The air that are blown to the refrigerating chamber 3 also are fed in the vegetable compartment 4 through connected entrance 44, and finally are inhaled into refrigeration with Air Blast fan 35.

In this process, become cold air by refrigeration with cooler 24 coolings through the air that refrigerates with cooler chamber 36, this Quilt with air conditioning is supplied to refrigerating chamber 3 and vegetable compartment 4, thus refrigerating chamber 3 and vegetable compartment 4 are cooled to the temperature of refrigerated storage temperature band.

Like Fig. 2, shown in Figure 4, the refrigeration in cold air path 34 forms and is provided with mist generating chamber 45 with the front face side of cooler chamber 36 with the mode that can load and unload, and this mist generating chamber 45 is positioned at the right side and is positioned at the rear portion of shock chamber 14 from forward observation.

Like Fig. 5～shown in Figure 8, this mist generating chamber 45 is formed by front walls 36a and passage component parts 46, and front walls 36a is positioned at the rear portion of shock chamber 14, and is arranged on the front of refrigeration with cooler chamber 36, and passage component parts 46 is assemblied in the front of this front walls 36a.

Thereby passage component parts 46 utilizes upside holding section 46a and downside holding section 46b to engage with the mode that can load and unload with front walls 36a (with reference to Fig. 8) is installed.In this case, partition wall 10 leans on the mode of the position of top to dispose with the downside holding section 46b that the rear end of the protuberance 10a that is arranged at its hinder marginal part is positioned at than passage component parts 46.That is, partition wall 10 is provided in the position of leaning on the top than the downside holding section 46b of passage component parts 46.

Mist generating chamber 45 forms the little flat rectangular box shape of depth size of left and right directions length and fore-and-aft direction along front walls 36a.And then the main part of electrostatic atomization apparatus 48 that is configured for producing the mist generating device of mist is incorporated in this mist generating chamber 45 (with reference to Fig. 9) with the mode that is covered the top by mist generating chamber 45.

Like Fig. 6～shown in Figure 8, above mist generating chamber 45, the rake 36d midway that bloats towards the place ahead of wall 36a forwardly is so that further outstanding form is provided with the lighting unit 80 that constitutes lighting mechanism towards the place ahead from rake 36d.

This lighting unit 80 constitutes: the circuit substrate 81 with light source is equipped on the upper surface of the 36h of eaves portion, and utilizes the front of the cover 82 covering circuit substrates 81 of arch face shape.

Specifically, the 36h of eaves portion is positioned at the top of the upside holding section 46a of passage component parts 46, and forms as one with front walls 36a and so that outstanding mode is provided with towards the place ahead from rake 36d.Be provided with in the part of the front end of the 36h of this eaves portion and be used to the hole (not shown) that card only is arranged at the card claw stop 82a (with reference to Fig. 7, Fig. 8) of cover 82.

2 light emitting diode 81b as light source are installed, the circuit substrate 81 of 81c is disposed at the upper surface of the 36h of this eaves portion with the mode of directed forward oblique upper.Specifically, circuit substrate 81 tilts about 15 degree from plumbness, and points to front surface and to carry the mode of putting platform 47 and dispose.

In this case, like Fig. 2 and shown in Figure 10, a light emitting diode 81b among 2 light emitting diode 81b, the 81c is provided with near the mode the central authorities that are positioned at Quench box 18.And another light emitting diode 81c is provided with near the mode the central authorities that are positioned at egg box 15 and smallclothes box 16.Be provided with light emitting diode accordingly with box like this, respectively in the left and right directions adjacency.

Be provided with the 36e of sealing portion at the rear of circuit substrate 81, this 36e of sealing portion and front walls 36a form as one and are outstanding towards the top from rake 36d.Utilize this 36e of sealing portion and rake 36d to form slot part 36f as the water output mechanism.This slot part 36f spreads all over the width setting of the left and right directions of lighting unit 80.

And, so that further outstanding mode is provided with fastener 36g towards the place ahead from the 36e of sealing portion.In this case, the 36e of sealing portion is highlyer than fastener 36g outstanding.Also be provided with in the part of the front end of this fastener 36g and be used to the hole (not shown) that card only is arranged at the card claw stop 82b of cover 82.

Like this, cover 82 is limited to the card that is arranged on 36h of eaves portion and fastener 36g with card claw stop 82a, the 82b of two end edge portions that are arranged on fore-and-aft direction and only installs with the mode in hole.

By the way, the decoration processing (surface texturing, surperficial decoration processing) etc. of giving decorative pattern at cover 82 medial surface through annular knurl processing or to the surface is formed with tiny groove, thus, is spread irradiation from the light of light emitting diode 81b, 81c.

As shown in Figure 9, electrostatic atomization apparatus 48 constitutes possesses mist generation unit 51 and the supply unit (transformer) 52 that produces mechanism as mist, and mist generation unit 51 has mist and emits portion 40, and supply unit 52 is used for mist is emitted the high voltage that portion 50 applies negative polarity.

Mist generation unit 51 possesses the water supply portion 53 that is used for mist is emitted portion's 50 supply moisture.Water supply portion 53 constitutes: this water supply portion 53 have the horizontal part 53a that left and right directions extends and from the right part of this horizontal part 53a towards below the vertical component effect 53b that extends; Be the word of falling L shape from top view, and in the housing 54 that constitutes L word shape, taken in water conservation parts 55.

Therefore, water supply portion 53 has kink 53c between horizontal part 53a and vertical component effect 53b.Horizontal part 53a in the water supply portion 53 and vertical component effect 53b with cold air path 34 in refrigeration dispose along front walls 36a with the parallel mode of the front walls 36a of cooler chamber 36.

Water conservation parts 55 for example are the parts that make the felted that fiber interweaving forms, and water imbibition and water-retaining property are excellent, and draw the water (defrost water) of the tank of stating after being stored in 56 by capillarity.In addition, as long as water conservation parts 55 can utilize capillarity to draw water, also can be continuous foamed body.

The horizontal part 53a of water supply portion 53 is configured in the position slightly on the right side in the mist generating chamber 45; As shown in Figure 8, the bottom of the bottom through channel component parts 46 of vertical component effect 53b and be formed at refrigeration and insert refrigeration the place ahead with the hole of the end difference 36b of the front portion of cooler chamber 36 with interior bottom, cooler chamber 36.

The periphery of water conservation parts 55 is covered by housing 54.Replace water conservation parts 55, also can utilize various parts to constitute the part of horizontal part 53a and the part of vertical component effect 53b.

Be provided with the tank 56 (with reference to Fig. 8) that constitutes water storage portion with the place ahead, bottom in the cooler chamber 36 in refrigeration.This tank 56 is between refrigeration is with cooler 24 and rhone 40; And be positioned at the below of water supply portion 53; Rhone 40 is positioned at refrigeration with the below of cooler 24, and this tank 56 is arranged to the cantilever position given prominence to towards the rear through the front portion being installed on refrigeration with the bottom 36c of the front walls 36a of cooler chamber 36.

Insert in this tank 56 from the top bottom of the vertical component effect 53b of water supply portion 53.The defrost water of dripping with cooler 24 from refrigeration is accepted and stored to tank 56.The water conservation parts 55 of water supply portion 53 are drawn to be stored in the water (defrost water) of tank 56 and it is supplied to mist and are emitted portion 50.

Like this, the water conservancy usefulness of mist being emitted portion's 50 supplies is stored in the defrost water of the refrigeration of tank 56 with cooler 24, thus, can automatically carry out the water supply to tank 56, can save the labour that the user supplies water.

Top at the terminal part of the rear portion side of tank 56 is formed with the low 56a of spilling water portion of wall that sets ground than around forming tank 56, and under the situation that the water in being stored in tank 56 overflows, water overflows from the 56a of this spilling water portion.The 56a of this spilling water portion is positioned at the top of rhone 40, is accepted by rhone 40 from the water that the 56a of spilling water portion overflows, and is discharged by the Defrost water evaporating ware outside machine 28.

Horizontal part 53a in water supply portion 53 is provided with mist and emits portion 50.Mist is emitted portion 50 and is emitted pin 57 by many mists that constitute teat respectively and constitute.

Emit pin 57 for mist; The upper side of horizontal part 53a towards above dispose many, be 4 in this case with the line shape that is arranged in left and right directions and the mode of leaving configuration respectively; And, the lower side of horizontal part 53a towards below dispose many, be 4 in this case with the line shape that is arranged in left and right directions and the mode of leaving configuration respectively.

Therefore, mist is emitted portion 50 by emit pin (teat) 57 formations towards different many outstanding mists of direction (above and below).According to this structure, the situation that is merely a direction with the projected direction of the teat that is used to produce mist is different, and the direction of the supply that can make mist is a plurality of directions, can widen the supply scope of mist.

And, emit portion 50 for mist, many mists are emitted pin (teat) 57 and are disposed with the mode of extending towards rightabout up and down across the horizontal part 53a of water supply portion 53.Thus, can emit mist, can widen the supply scope of mist towards top and rightabout below.

And many mists are emitted pin (teat) 57 and are configured to 2 utmost points up and down.Each root mist emit pin 57 with cold air path 34 in refrigeration dispose along front walls 36a with the parallel mode of the front walls 36a of cooler chamber 36.

Mist is emitted portion 50 and is arranged on the lower rear of refrigerating chamber 3 and is and vegetable compartment 4 adjoining positions, and is configured in the rear of shock chamber 14.

It for example is the parts that the carbon fiber mixing twisted of polyester fiber and conductive material formed together pin shape (bar-shaped) that each root mist is emitted pin 57, has water-retaining property and the absorption characteristic of drawing water, and has electric conductivity.Emit pin 57 at each root mist and supported the platinum nano-colloid.

For example can impregnated in the treatment fluid that contains the platinum nano-colloid and burn till and make this mist emit pin 57 to have supported the platinum nano-colloid through mist being emitted pin 57.

The housing 54 that each root mist is emitted the base end part perforation water supply portion 53 of pin 57 contacts with above-mentioned water conservation parts 55.What the left part of the horizontal part 53a in water supply portion 53 was provided with the electrode that is configured for accepting electric power left with outstanding mode receives electricity pin 58.In housing 54, contacted by the base end part of electricity pin 58 with water conservation parts 55.

Supply unit 52 is positioned at the left side of mist generation unit 51 and is arranged on mist generating chamber 45 with stationary state.Be provided with the power supply terminal 61 that is connected with lead 60, is made up of flag form (Off ア ス ト Application) (flat pattern) terminal in the right part of this supply unit 52, the electricity pin 58 of receiving of mist generation unit 51 is connected with this power supply terminal 61.

As everyone knows; Supply unit 52 possesses rectification circuit or booster circuit etc.; (for example-6kV), and export to via power supply terminal 61 and to receive electricity pin 58, above-mentioned rectification circuit comprises the high-tension transformer that high frequency electric source (AC power) is converted to direct current to produce the high voltage of negative polarity.

Thus, emit pin 57 from receiving electricity pin 58 moisture to be applied in each root mist via water conservation parts 55 from the high voltage of the negative polarity of supply unit 52, electronegative thereby each root mist is emitted pin 57.And in this case, the outer container 2a of refrigerator main body 1 is via ground wire ground connection such as (not shown).

In the electrostatic atomization apparatus 48 that constitutes by this way, draw by water conservation parts 55 and be supplied to each root mist and emit under the state of pin 57 at the water of tank 56, emit pin 57 at each root mist and be applied with high voltage from the negative polarity of supply unit 52.

At this moment, charge concentration is emitted the terminal part of pin 57 at each root mist, thereby the contained water of terminal part is given above capillary energy.Thus, each root mist is emitted the water splitting (Rayleigh division, rayleigh fission) of the terminal part of pin 57 and is fine emitted (electrostatic atomization phenomenon) from terminal part vaporificly.

Here, to be the water particle of being emitted electronegative vaporificly, and contain the hydroxyl (hydroxyl radical) that is generated by its energy.

Therefore, the hydroxyl with strong oxidation is emitted pin 57 from each root mist and is emitted with mist, can utilize the effect of hydroxyl to carry out degerming or deodorization.In this case, be provided with electronegative mist and emit the corresponding polarity of pin 57.

Therefore; The discharge self of emitting pin 57 from mist is highly stable; Can between sparking electrode and polarity, not produce corona discharge, can suppress the generation of pernicious gas (airborne nitrogen is carried out oxidation for ozone, ozone and nitrogen oxide of producing, nitrous acid, nitric acid etc.).

Be provided with mist with cool-air feed mouth 62 (with reference to Fig. 4, Fig. 7) in the refrigeration that constitutes mist generating chamber 45 with the front walls 36a of cooler chamber 36.This mist is configured in mist with cool-air feed mouth 62 and emits and do not emit pin 57 opposed position with mist in the portion 50, is configured in this case than mist and emits keep left side and be positioned at the position of the top of supply unit 52 of portion 50.

This mist connect heat-insulating material 38 with the rear portion of cool-air feed mouth 62 and with cold air path 34 in refrigeration with cooler chamber 36 internal communication, and front portion and mist generating chamber 45 internal communication.Therefore, the part through the inner cold air of cold air path 34 is supplied to mist generating chamber 45 interior (with reference to the arrow A 1 of Fig. 7) from this mist with cool-air feed mouth 62.

Be provided with mist towards refrigerating chamber above with cool-air feed mouth 62 with passage 63 (with reference to Fig. 4, Fig. 7) at mist, should be positioned at the dorsal part (rear side) that refrigerates with the front walls 36a of cooler chamber 36 with passage 63 towards mist of refrigerating chamber, and extend towards the top.

Should form in mist generating chamber 45 towards the rear the refrigerating chamber of opening with mist export mouth 63a towards the mist of refrigerating chamber with the bottom of passage 63, cool-air feed passage 37 internal communication in upper end and the cold air path 34.

The part of the mist that therefore, in mist generating chamber 45, produces is supplied to refrigerating chamber 3 in (with reference to the arrow B 1 of Fig. 4, Fig. 7) with passage 63, cool-air feed passage 37 from cool-air feed mouth 39 through the mist towards refrigerating chamber with mist export mouth 63a from refrigerating chamber.

In mist generating chamber 45; Be provided with the shock chamber with mist blow-off outlet 65 in keep left the slightly front upper of side of the ratio central authorities of passage component parts 46 with the mode outstanding towards the place ahead, this shock chamber is positioned at the top (with reference to Fig. 4, Fig. 7) of mist with cool-air feed mouth 62 with mist blow-off outlet 65.

The part of the mist that in mist generating chamber 45, produces in this case, is supplied to (with reference to the arrow B 2 of Fig. 4, Fig. 7) in the shock chamber 14 from the shock chamber with mist blow-off outlet 65.And, being provided with the egg box with mist blow-off outlet 66 (with reference to Fig. 4) in the front upper of passage component parts 46 with the mode outstanding towards the place ahead, this egg box is positioned at the left side of shock chamber with mist blow-off outlet 65 with mist blow-off outlet 66.The part of the mist that in mist generating chamber 45, produces also is supplied to (with reference to the arrow B 3 of Fig. 4) in the egg box 15 from the egg box with mist blow-off outlet 66.

Further, as shown in Figure 5, be provided with vegetable compartment with mist blow-off outlet 67 in the bottom on the right side of mist generating chamber 45.This vegetable compartment is communicated with connected entrance 44 via refrigerating chamber 3 with mist blow-off outlet 67.

Thus, the part of the mist in the mist generating chamber 45 is supplied in the vegetable compartment 4 with mist blow-off outlet 67, connected entrance 44 through vegetable compartment.Constitute in this case, the shock chamber respectively directly is communicated with mist generating chamber 45 and refrigerating chamber 3 with mist blow-off outlet 66 and vegetable compartment with mist blow-off outlet 67 with mist blow-off outlet 65, egg box.

Like this, directly be communicated with mist generating chamber 45 and refrigerating chamber 3, and the mist that will in mist generating chamber 45, produce a plurality of mist blow-off outlets (shock chamber with mist blow-off outlet 65, egg box with mist blow-off outlet 66 and vegetable compartment with mist blow-off outlet 67) of being supplied to each storeroom be arranged on the position that emits 57 opposed of pins with mist that is different from of mist generating chamber 45.

And refrigerating chamber is provided with the mode that the supply destination of mist differs from one another with mist export mouth 63a and a plurality of mist blow-off outlet (shock chamber with mist blow-off outlet 65, egg box with mist blow-off outlet 66 and vegetable compartment with mist blow-off outlet 67).Thus, can the mist that in mist generating chamber 45, produces be supplied to refrigerating chamber 3, shock chamber 14, egg box 15 and vegetable compartment 4 these 4 supply destinations.

Therefore, the supply scope of mist can be widened, the effective scope of mist can be enlarged.Further; In this case; Refrigerating chamber uses mist export mouth 63a, shock chamber to use mist blow-off outlet 65, egg box to use mist blow-off outlet 66 and vegetable compartment to use mist blow-off outlet 67 to be configured in mist and emits portion 50 as around the center, therefore can supply with mist export mouth 63a and each mist blow-off outlet refrigerating chamber well and emit the mist that portion 50 emits from mist.

In addition, the shock chamber with cool-air feed mouth 68 the top of mist generating chamber 45 be arranged on mist emit portion 50 above and be positioned at the place ahead (with reference to Fig. 4, Fig. 6, Fig. 8) of lighting unit 80.

As shown in Figure 8, this shock chamber connects heat-insulating material 38 with cool-air feed mouth 68 rear portions and is communicated with cooler chamber 36 with refrigeration, and the front portion connects mist generating chamber 45 and is communicated with shock chamber 14.Therefore, refrigeration directly is supplied to shock chamber 14 (with reference to the arrow A 2 of Fig. 6, Fig. 8) through this shock chamber with cool-air feed mouth 68 with the part of the cold air of cooler chamber 36.

, above mist generating chamber 45, be provided with to carry and put platform 47 to shown in Figure 8 like Fig. 6.Put platform 47 forms shock chamber 14 below refrigerating chamber 3 end face this year, and carry at upper surface and to be equipped with reserve etc.

Carry and put the support 49 and maintaining part 41 (with reference to Fig. 2, Fig. 4) supporting that be arranged on left and right sides sidewall of platform 47 by the rear portion that is arranged on refrigerating chamber 3 (shock chamber 14).On support 49, be provided with fitting projection 49a up integratedly with support 49.

And then, being provided with chimeric recess 47a carrying the rear portion lower surface put platform 47, this chimeric recess 47a and fitting projection 49a are chimeric.Through making these chimeric recess 47a and fitting projection 49a chimeric, carry and put platform 47 and be positioned with support 49, put platform 47 and be fixed and can not deviate from thereby carry towards the place ahead.

In this case, though details and not shown,, fitting projection 49 for example can spread all over the wide cut setting of left and right directions ground, also can form the structure of the protuberance that is provided with the cylindric or quadrangular shape at least 1 place.

Put platform 47 carrying, about making and the circumference of rear side erect, constitute water that water falls anti-locking mechanism and fall and prevent the 47b of portion thereby be provided with the mode of surrounding the three parts except the front portion.Thus, even if trickle down under the situation of carrying the upper surface put platform 47, can prevent to a certain extent also that this beverage or food juice from falling to carry the below of putting platform 47 at beverage or food juice etc.

In this case, water falls anti-locking mechanism and also can form following structure: thus carry put platform 47 about and the circumference of rear side recess is set stores unrestrained beverage or food juice etc. or be provided with and have absorptive sponge etc. and make its suction.

And, put platform 47 this year as the reflecting surface 47c of decoration processing that had enforcement that lower surface integral body all is made up of tiny concaveconvex shape from the reflection of light mechanism that is arranged at lighting unit 80 irradiations of carrying the below of putting platform 47.

Therefore, can the major part of the light of putting platform 47 irradiations from lighting unit 80 towards this year be reflexed in the egg box 15 and Quench box 18 of below.

Secondly, the Quench box 18 to the place ahead of being configured in lighting unit 80 is described in detail.As the Quench box 18 of accommodating container is that upper surface open and rear portion are set than the container of anterior low case shape.In this Quench box 18, be provided with notch 18d, this notch 18d is positioned at the position (with reference to Fig. 1) of also leaning on the below according to bright unit 80.

Specifically, for constitute Quench box 18 around wall, back plate 18a is lower and set for and be positioned at according to bright unit 80 also by the position (with reference to Fig. 1, Fig. 7, Fig. 8) of below than header board 18b.And then, through form be utilized in the upper back have otch about side plate 18c clip the structure of header board 18b and back plate 18a, the wall around being formed with at the rear portion of Quench box 18 is by the notch 18d of otch.

Thus, stop by carrying the back plate 18a and the side plate 18c that put platform 47 reflections and can not be configured Quench box 18 from the light of lighting unit 80 irradiation.Therefore, can guarantee that the capacity of Quench box 18 is big and can be efficiently to throwing light in the Quench box 18.

By the way; As shown in Figure 8; In this case; Directly will from refrigeration be arranged on cool-air feed mouth 68 (cool-air feed mouth) with the shock chamber of the shock chamber 14 of cool-air feed to the refrigerating chamber 3 of cooler 24 (cooler) and Quench box 18 Quench box 18 notch 18d the top and be the below of lighting unit 80, and be positioned at the place ahead of lighting unit 80.And then, between the refrigeration at the rear that is incorporated in passage component parts 46 is with cooler 24 and lighting unit 80, be provided with the heat-insulating material 38 of adiabatic mechanism.

Secondly, the effect of said structure is narrated.When refrigerating chamber 3 and vegetable compartment 4 are cooled off, by refrigeration with the cold air of cooler 24 coolings by refrigerate with the air-supply effect of Air Blast fan 35 mainly as among Fig. 1 to be supplied in the refrigerating chamber 3 from a plurality of cool-air feed mouths 39 through cool-air feed passage 37 shown in the blank arrow.

And the part of cold air directly is supplied in the shock chamber 14 (with reference to the arrow A 2 of Fig. 6, Fig. 8) from the shock chamber with cool-air feed mouth 68.Be supplied in the refrigerating chamber 3 and the cold air of shock chamber 14 collaborate after the cooling to reserves such as food contributes and are supplied in the vegetable compartment 4 from connected entrance 44.

The cold air that is supplied in the vegetable compartment 4 carries out following circulation repeatedly: this cold air is sucked into refrigeration with Air Blast fan 35 sides from suction inlet 43 after the cooling to reserves such as vegetables contributes, and is cooled off with cooler 24 by refrigeration once more.

As among Fig. 7 with shown in the arrow A 1, when refrigerating chamber 3 and vegetable compartment 4 were cooled off, refrigeration was supplied in the mist generating chamber 45 with cool-air feed mouth 62 from mist with the part of the interior cold air in cooler chamber 36.At this moment, when driving electrostatic atomization apparatus 48, as noted earlier, a plurality of each the root mist from mist generation unit 51 are emitted pin 57 and are emitted the fine mist that comprises hydroxyl.

Shown in the arrow B 1 of Fig. 7, a part of emitting the mist that pin 57 emits from mist is supplied in the refrigerating chamber 3 from cool-air feed mouth 39 with passage 63, cool-air feed passage 37 through the mist towards refrigerating chamber with mist export mouth 63a from refrigerating chamber.

And; Shown in the arrow B 2 of Fig. 4 and Fig. 7; A part of emitting the mist that pin 57 emits from mist is supplied in the shock chamber 14 from the shock chamber with mist blow-off outlet 65; And, as among Fig. 4 with shown in the arrow B 3, a part of emitting the mist that pin 57 emits from mist is supplied in the egg box 15 with mist blow-off outlet 66 from the egg box.

A part of further, emitting the mist that pin 57 emits from mist also is supplied in the vegetable compartment 4 through connected entrance 44 with mist blow-off outlet 67 from the vegetable compartment of right lower quadrant.

Therefore; In this embodiment; Can the mist that in mist generating chamber 45, produces be supplied to a plurality of supplies destinations such as refrigerating chamber 3, shock chamber 14, egg box 15 and vegetable compartment 4; The degerming of above-mentioned supply destination and the effect of deodorization can be expected, and the preserving moisture of vegetables etc. can be expected with fresh-keeping.

Secondly, the effect of illumination unit 80 describes.Spread by cover 82 from the light emitting diode 81b of lighting unit 80, the light of 81c irradiation, and the oblique upper irradiation towards the place ahead.And then the major part of the light after this diffusion is by being arranged at reflecting surface 47c reflection and further towards below diffusion (with reference to the arrow C of Fig. 7) towards the below of carrying the lower surface put platform 47.

Therefore, arrive the place ahead of each box (egg box 15, Quench box 18) easily from the light of lighting unit 80.Therefore, can utilize above-mentioned lighting unit 80, can improve the observability in the above-mentioned box efficiently to throwing light in each box.

And, see through to carry from the part of the light of lighting unit 80 irradiation and put platform 47 and be not reflected face 47c reflection.See through the light put platform 47 this year by the decoration processing of reflecting surface 47c and spread.Thus, can not put the sight line that platform 47 directly arrives the user, can reduce the dazzling sense that the user is given via carrying from the light of lighting unit 80 oblique upper irradiation towards the place ahead.

In addition, carrying the reflecting surface 47c that puts platform 47 also can form only to implementing decoration processing from the part that light shone of lighting unit 80.And; Reflecting surface 47c also can form following structure: the metal forming etc. carrying the back side (or surface) put platform 47 thereby for example having a light reflective properties through pressurization, heating transfer is implemented the hot stamping (hot stamping) of silver-colored gloss, or pastes aluminium-vapour deposition film etc.

Thus, the reflectivity of reflecting surface 47c improves, can be more brightly to throwing light in each box (egg box 15, Quench box 18).

Here; Unrestrained to the situation of carrying the upper surface of putting platform 47 at beverage or food juice; Beverage that should be unrestrained or food juice (below be called liquid) so long as amount to a certain degree just by be arranged on carry put platform 47 around water fall the portion of preventing 47 at a distance from retaining, can prevent that it from falling from year putting platform 47.

Water falls 47 in the portion of preventing and can for example fall the height that erects that prevents the 47b of portion according to water or fall the settings such as water absorption of the sponge that anti-locking mechanism sets as water at a distance from the allowance of the liquid of retaining.And then the upper surface put platform 47 is unrestrained to be had under the situation of the liquid that falls the allowance that prevents the 47b of portion above water carrying, and liquid falls the portion 47b of preventing from water and overflows.

At this moment, wait around going into year to put the lower surface of platform 47 through carrying the gap (not shown) of putting between platform 47 and the support 49, and fall to the rake 36d etc. of front walls 36a from carrying the liquid that the rear portion put platform 47 overflows.All be provided with the slot part 36f that forms by rake 36d and the 36e of sealing portion owing to spread all over the width of lighting unit 80 at the rear of lighting unit 80; Therefore, the aforesaid liquid of falling rake 36d falls (with reference to the arrow D of Figure 10) through slot part 36f from about lighting unit 80.

According to above-mentioned first embodiment, can access following action effect.

According to the structure of this embodiment, lighting unit 80 in refrigerating chamber 3, be arranged on carry put carrying of reserve put platform 47 below.And then oblique upper shines the light that shines from lighting unit 80 towards the place ahead, and reflexes in each box (egg box 15, Quench box 18) by being arranged on the reflecting surface 47c that carries the lower surface of putting platform 47.

Therefore, each box inside by the light of reflecting surface 47c reflection from above illumination, therefore can throw light on to each box inside efficiently from the top.

And, for example,, thereby also can prevent to stop that by highly high food the zone of shadow becomes big situation from the light of lighting unit 80 even if take near the lighting unit 80 at the rear in Quench box 18 under the situation of highly high food etc.

That is, can prevent as possible to cause deepenings in the Quench box 18 owing to taking in highly high food etc., can be inner to each box brightly, particularly Quench box 18 inner integral body thrown light on.

Lighting unit 80 constitutes has circuit substrate 81 and cover 82, and circuit substrate 81 is equipped with light emitting diode 81b, 81c, and disposes with the mode of directed forward oblique upper, and cover 82 covers the place ahead of this circuit substrate 81.Owing to implemented annular knurl processing or decoration processing, therefore, spread by cover 82 from the light of light emitting diode 81b, 81c at the medial surface of this cover 82.

Thus, even if high from the directive property of the light of light emitting diode 81b, 81c, light also can spread and expose to and carry the reflecting surface 47c that puts platform 47.Therefore, this light is reflected in the wider scope of reflecting surface 47c, can throw light on to each box (egg box 15, Quench box 18) inside to wider scope.

And then lighting unit 80 is arranged at rake 36d on the top of front wall portion 36a, and this front walls 36a is arranged on the rear portion of refrigerating chamber 3, and bloats towards the place ahead.Therefore, it is outstanding towards the place ahead from front walls 36a to suppress lighting unit 80 as possible, can guarantee the volume of shock chamber 14 (Quench box 18), egg box 15 and smallclothes box 16 biglyyer.

Further, at the rear of lighting unit 80, the width that spreads all over lighting unit 80 is provided with the slot part 36f that is formed by rake 36d and the 36e of sealing portion.For example; Put the upper surface of platform 47 and fall under the situation of rake 36d even if trickle down in carrying at liquid such as beverage or food juice; This liquid is also by slot part 36f guiding and from about lighting unit 80, fall, and therefore can prevent because the unfavorable condition that liquid gets into lighting unit 80 inside and waters the lighting unit 80 that circuit substrate 81 produces.

And, carrying and to put platform 47 and have reflecting surface 47c, this reflecting surface 47c is positioned to carry and puts the below of platform 47, and reflects the light from lighting unit 80.This reflecting surface 47c forms the form of the decoration processing that is made up of tiny concaveconvex shape of having carried the lower surface whole implementation put platform 47, therefore can be efficiently with reflexing to each box (egg box 15, Quench box 18) inside of below towards carrying the light of putting platform 47 irradiations from lighting unit 80.

Therefore, can throw light on to each box inside more efficiently.In addition, also can in this case, can prevent to cause damage carrying the upper surface enforcement decoration processing of putting platform 47 to carrying the upper surface of putting platform 47.And, also can the concavo-convex of wave be set and make light reflection, diffusion carrying the surface put platform 47.In this case, particularly spread at left and right directions through the concavo-convex light that can make that same column is set at left and right directions.

Quench box 18 based on this embodiment is containers of the case shape of upper surface open.The back plate 18a of this Quench box 18 is lower and be arranged on the position of leaning on the below according to bright unit 80 than header board 18b.And then, for Quench box 18, back plate 18a by about side plate 18c clamping, thus, this Quench box 18 has the notch 18d of the below that is positioned at lighting unit 80.

According to this structure, stop towards carrying back plate 18a and the side plate 18c that the light of putting platform 47 irradiations can not be configured Quench box 18 from lighting unit 80, can throw light on to Quench box 18 inside efficiently.

And header board 18b sets for higher than back plate 18a, and on side plate 18c, back plate 18a and the header board 18bs different with above-mentioned height are provided with notch 18d accordingly.

Promptly; In Quench box 18; Because stopping that the low front portion of possibility from the light of lighting unit 80 constitutes can take in the high food in aspect ratio rear portion etc., therefore, even if under the situation at the rear that lighting unit 80 is arranged on Quench box 18; Also can guarantee from the progress path of the light of lighting unit 80 irradiations, and can try one's best and guarantee the internal volume of Quench box 18 greatly.

And, the shock chamber be arranged on cool-air feed mouth 68 Quench box 18 notch 18d the top and be the below of lighting unit 80, and be positioned at the place ahead of lighting unit 80.And then, between refrigeration is with cooler 24 and lighting unit 80, be provided with heat-insulating material 38.

According to this structure, can prevent directly to contact with the circuit substrate 81 of lighting unit 80, particularly heating light emitting diode 81b how, the back side of 81c from the cold air of refrigeration with cooler 24.Therefore, can prevent owing to cold air contacts the dewfall phenomenon that causes in circuit substrate 81 generations with circuit substrate 81.

(second embodiment)

In this second embodiment, shown in figure 11, the structure of the mist generation unit 71 in the electrostatic atomization apparatus 70 of formation mist generating device is different with first embodiment.

Mist generation unit 71 possesses mist and emits portion 72 and this mist is emitted the water supply portion 73 that portion 72 supplies with moisture.Water supply portion 73 constitutes: this water supply portion 73 has from rounded rounded portions 73a of top view and the vertical component effect 73b that extends from this rounded portions 73a towards the below, and in housing 74, takes in the water conservation parts 75 same with first embodiment.

The bottom of vertical component effect 73b connects the end difference 36b (with reference to Fig. 8) of refrigeration with the front portion of cooler chamber 36 in the bottom of passage component parts 46, and is inserted in from the top and is arranged on refrigeration with in the interior tank 56 in cooler chamber 36.

Rounded portions 73a in the water supply portion 73 and vertical component effect 73b with cold air path 34 in refrigeration be provided with along front walls 36a with the parallel mode of the front walls 36a of cooler chamber 36.

Mist is emitted portion 72 and is through the peripheral part at rounded portions 73a and many mists that constitute teat respectively are set radially emit pin 57 and constitute.Therefore, mist is emitted portion 72 by emitting pin 57 (teat) formation towards many outstanding mists of different directions.

The base end part perforation housing 74 that each root mist is emitted pin 57 contacts with water conservation parts 75.Each root mist emit pin 57 also with cold air path 34 in refrigeration dispose along front walls 36a with the parallel mode of the front walls 36a of cooler chamber 36.

The left part of rounded portions 73a in water supply portion 73 is provided with the protuberance 73c outstanding towards left side side, on this protuberance 73c, receives electricity pin 58 to be provided with towards left outstanding state.This is connected with the power supply terminal 61 of supply unit 52 sides by electricity pin 58.

In this structure, the water that are stored in the tank 56 are drawn by water conservation parts 75, and are supplied to each root mist and emit pin 57.And, emit pin 57 from the high voltage of the negative polarity of supply unit 52 from receiving electricity pin 58 moisture to put on each root mist via water conservation parts 75, emit fine mist thereby emit pin 57 from each root mist.

Same with first embodiment, emit mist that pin 57 emits is supplied to so-called refrigerating chamber 3, shock chamber 14, egg box 15 and vegetable compartment 4 with mist export mouth 63a and a plurality of mist blow-off outlet (shock chamber with mist blow-off outlet 65, egg box with mist blow-off outlet 66, vegetable compartment with mist blow-off outlet 67) from refrigerating chamber a plurality of supplies destination from each root mist.

In this second embodiment, special, because emitting pin 57, mist is configuration radially, therefore, existence can be towards the advantage of emitting mist than the more direction of the situation of first embodiment.

In addition, in above-mentioned each embodiment, use electrostatic atomization apparatus 48, still, be not limited to this, for example also can use the supersonic atomizer that utilizes ultrasonic oscillator to make the structure of water atomization as mist generating device.

And lighting unit 80 forms the structure that is provided with 2 light emitting diode 81b, 81c, and still, the number and the configuration of light emitting diode are not limited to this.For example, also can only near the central authorities of Quench box 18, light emitting diode be set, the width that also can spread all over lighting unit 80 is provided with a plurality of.

As stated, according to refrigerator of the present invention, lighting mechanism is arranged in the following manner and carries the below put platform: thus make from the light of lighting mechanism up quadrature penetrate by carrying and put the platform reflection.

According to this structure, even if, also put the platform reflection by carrying through the top of food from the light of lighting mechanism irradiation near the lighting mechanism, for example take near the place ahead at lighting mechanism under the situation of highly high food etc.

Therefore, be difficult to produce the shadow of food etc., can utilize from carry the bright position ground of putting the platform reflection to around throw light on.

More than several embodiments of the present invention is illustrated, still, above-mentioned embodiment is as an example and proposes, and is not that intention limits scope of invention.Above-mentioned new embodiment can be implemented with other various embodiments, can in the scope of the purport that does not break away from invention, carry out various omissions, replacement, change.Above-mentioned embodiment and distortion thereof are contained in scope of invention or the purport, and, also be contained in the scope that the invention put down in writing with claims is equal to.

Claims (8)

1. refrigerator is characterized in that possessing:

Refrigerator main body has storeroom;

Carry and put platform, be arranged in the said storeroom, be used for carrying and put reserve; And

Lighting mechanism is arranged on the below of putting platform in said year;

Shine towards the place ahead oblique upper the said refrigerator from the light of said lighting mechanism irradiation, and reflect by the reflecting surface of the lower surface of putting platform in said year.

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

Said lighting mechanism has: circuit substrate, light source is installed, and light source disposes with the mode of directed forward oblique upper; And cover, cover the place ahead of this circuit substrate; This cover makes the light diffusion from said light source irradiation.

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

Be provided with the wall that bloats that bloats towards the place ahead at the rear portion of said storeroom, said lighting mechanism is arranged at this rake that bloats the top in the wall.

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

The rear of the said lighting mechanism on the said rake on the said top that bloats wall is provided with the water output mechanism.

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

Put platform in said year and have reflecting mechanism, this reflecting mechanism makes the light reflection from the below of putting platform this year.

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

Put in said year platform below and in the place ahead of said lighting mechanism, be provided with the accommodating container of upper surface open, on this accommodating container, be formed with notch, this cutting part is in the position of leaning on the below than said lighting mechanism.

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

Above the said notch and below said lighting mechanism, be used for the cool-air feed mouth of said storeroom cool-air feed is arranged to be positioned at than said lighting mechanism position on the front.

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

Take in cooler at the said rear that bloats wall, between this cooler and said lighting mechanism, be provided with adiabatic mechanism.

Images