CN105276897A - Refrigerator - Google Patents

Abstract

The invention provides a refrigerator capable of preventing the floor with the refrigerator thereon from getting stained or corroded by the water flowing along the back surface of the main body of the refrigerator. According to the technical scheme of the invention, the water that flows along the back surface of the main body (1) of the refrigerator is received and discharged by a grooved portion (35b) (water receiving part) of a binder (35). Meanwhile, the discharged water is received by an evaporation dish (38) (receiver). In this way, the water that flows along the back surface of the main body (1) of the refrigerator is prevented from dripping onto the floor of a room. Therefore, the floor is prevented from getting stained or corroded by the water.

Description

Refrigerator

Technical field

Embodiments of the present invention relate to refrigerator.

Background technology

All the time, for refrigerator, the refrigerator main body in inside with refrigerating chamber and the such storeroom of refrigerating chamber is provided with cooling device, utilizes this cooling device to carry out the cooling of above-mentioned storeroom.

Particularly refrigerator in recent years, some refrigerators by vacuum insulation panel separately or be used from the heat insulation perisporium of described refrigerator main body with foam heat insulating material one, reduce the thickness of the heat insulation perisporium of refrigerator main body according to the highland of the heat-proof quality of this vacuum insulation panel, realize the volume (such as with reference to patent document 1) expanding above-mentioned storeroom.

At first technical literature

Patent document

Patent document 1: Japanese Unexamined Patent Publication 2014-6039 publication

Summary of the invention

Arranging and under using the situation of refrigerator, such as, when the humidity being provided with the room of refrigerator increases, the back side of refrigerator main body can condense sometimes, or on refrigerator main body spatters during water sometimes water can adhere on it, water can flow down from the back side of refrigerator main body thus.If the water droplet flowed down from the back side of this refrigerator main body is fallen the floor in the room being provided with refrigerator, then not only likely this floor stained, even likely causes floor to be corroded.

Particularly employ for the refrigerator of vacuum insulation panel for the heat insulation perisporium of above-mentioned refrigerator main body, when this vacuum insulation panel is damaged, sometimes in refrigerator, the cold air of storeroom can cause condensing at the back side of refrigerator main body, very possible water can flow down from the back side of refrigerator main body, cause floor stained, corrosion.

Therefore, the invention provides a kind of refrigerator, the water flowed down from the back side of refrigerator main body can be avoided the to cause floor arranging refrigerator is stained, corrode such undesirable condition the generation of this refrigerator.

The feature of the refrigerator of present embodiment is, comprising: inside have storeroom refrigerator main body, be arranged at this refrigerator main body to cool described storeroom cooling device, be configured to receive the water that flows down from the back side of described refrigerator main body and the water acceptance division of discharging and the receiver receiving the water of discharging from this water acceptance division.

According to above-mentioned formation, owing to having the water acceptance division receiving and discharge the water flowed down from the back side of refrigerator main body and the receiver receiving the water of discharging from water acceptance division, therefore, the refrigerator of the present invention water flowed down from the back side of refrigerator main body can be avoided the to cause floor arranging refrigerator is stained, corrode such undesirable condition generation.

Accompanying drawing explanation

Fig. 1 is the stereogram observed from the below slightly down of Machine Room part representing the 1st embodiment.

Fig. 2 is the longitudinal sectional view of refrigerator entirety.

Fig. 3 is the longitudinal sectional view of the Machine Room part of III-III line along Fig. 1.

Fig. 4 is the perspective cut-away view of Machine Room part.

Fig. 5 is the amplification perspective cut-away view of the V part of Fig. 4.

Fig. 6 is the transverse sectional view of the Machine Room part of VI-VI line along Fig. 1.

Fig. 7 is the amplification longitudinal sectional view of the VII part of Fig. 3.

Symbol description:

The substrate (receiver) of 1 refrigerator main body, 5 refrigerating chambers (storeroom), 6 vegetable compartment (storeroom), 7 ice-making compartments (storeroom), 8 refrigerating chambers (storeroom), 23 refrigeration coolers (cooling device), 27 freezing coolers (cooling device), 31 Machine Rooms, the groove portion (water acceptance division) of 35b conjunction, 37 water receiving elements (water distributor, water-guiding element), 38 evaporating pans (receiver)

Detailed description of the invention

Referring to accompanying drawing, an embodiment is described.

First, Fig. 2 represents the longitudinally cutting face observing refrigerator entirety from right side and the figure obtained.According to this figure, refrigerator main body 1 has the housing of lengthwise on the whole, its perisporium comprises: outer container 2 and interior case 3 and the heat-barrier material 4 be filled between these two casees, this heat-barrier material 4 at rear wall as illustrated, be made up of separately vacuum insulation panel 4a, and at roof and diapire as illustrated, comprise vacuum insulation panel 4a and foam heat insulating material 4b.

The inside of above-mentioned refrigerator main body 1 is each storeroom, and topmost is refrigerating chamber 5, and the below of refrigerating chamber 5 is vegetable compartment 6, the below of vegetable compartment 6 is ice-making compartment 7, and the below of ice-making compartment 7 is refrigerating chamber 8, each storeroom is all front openings, and opening and closing is carried out by door 9 ~ 12 respectively in its each opening portion.

The rear side of the door 9 of refrigerating chamber 5 is provided with multilayer shelf 13, is provided with multiple layer tray 14 equally in refrigerating chamber 5, and foot is provided with ice temperature fresh-keeping container 15 in the mode that can pull out.

Be provided with vegetable container 16 in vegetable compartment 6, specifically, although not shown, vegetable container 16 be arranged to be drawn out along with the opening and closing of the door 10 of vegetable compartment 6 push.

Mechanism for ice maker 17 is provided with in ice-making compartment 7, this mechanism for ice maker 17 comprises: ice-making disc 17a, ice is peeled off from ice-making disc 17a deice drive division 17b, store the ice container 17c of ice that separates and detect the ice storage test rod 17d being stored in the ice amount (volume) of ice container 17c, ice container 17c specifically, although not shown, be arranged to be drawn out along with the opening and closing of the door 11 of ice-making compartment 7 push.

Be provided with upper and lower two containers 18,19 that keep in cold storage in refrigerating chamber 8, specifically, although not shown, the container 18,19 that keeps in cold storage two is arranged to be drawn out along with the opening and closing of the door 12 of refrigerating chamber 8 push.

In addition, kept apart by heat insulation next door 20 between vegetable compartment 6 and ice-making compartment 7, but all do not keep apart between vegetable compartment 6 and refrigerating chamber 5 and between ice-making compartment 7 and refrigerating chamber 8.

In the inboard of the containing section of the ice temperature fresh-keeping container 15 of refrigerating chamber 5, the mode separated by next door 22 is provided with refrigeration cooler room 21, in this refrigeration cooler room 21, is configured with refrigeration cooler 23 and refrigeration fan 24.

In addition, in the inboard of ice-making compartment 7 to refrigerating chamber 8, the mode of being kept apart by next door 26 is provided with freezing cooler room 25, in this freezing cooler room 25, is configured with freezing cooler 27 and freezing fan 28.

Condenser not shown in the compressor 30 that these coolers 23,27 and being arranged at configure in the Machine Room 29 of the rear lower outside refrigerator main body 1, Fig. 2 and form well-known refrigeration cycle as the capillary etc. of flow controller, worked by compressor 30, make not shown cold-producing medium from compressor 30 according to the sequential flowing of condenser, capillary, cooler 23,27 and then compressor 30, circulation.

Refrigeration cooler 23 and refrigeration fan 24 generate cold air, and as shown by the arrow such of this cold air is flowed, work as the cooling device cooled refrigerating chamber 5 and vegetable compartment 6 thus, freezing cooler 27 and freezing fan 28 similarly generate cold air, and as shown by the arrow such of this cold air is flowed, work as the cooling device cooled ice-making compartment 7 and refrigerating chamber 8 thus.

Then, Fig. 1 and Fig. 3 represents described Machine Room 29.According to these accompanying drawings, Machine Room 29 makes the transversely longer square cylinder of the rear recess of the base plate 2a of the outer container 2 of described refrigerator main body 1 be formed, by the substrate 31 making the bottom of this Machine Room 29 be combined with base plate 2a to form the bottom of this Machine Room 29, on this substrate 31 (in Machine Room 29), except described compressor 30, cool the fan 32 of this compressor 30, around and the mechanical part fixing the described refrigerator main body 1 such as the fan fixing member 33 of this fan 32, the condenser 34 of described refrigeration cycle is configured to substantial transverse arrangement.In addition, Fig. 1 represents and makes described refrigerator main body 1 slightly to the state after top rake (rear portion raises up).

In the rear upper edge of Machine Room 29, as shown in Figure 4 and Figure 5, the conjunction 35 combined with the backboard 2b of described outer container 2 by described base plate 2a is provided with.This conjunction 35 is with the strip of general mode throughout the whole transverse width of described base plate 2a and backboard 2b, has joint portion 35a in lower edge portion, and this joint portion 35a loads the rear edge portion 2 being bent into L-shaped of described base plate 2a _a1and combine with it, on top edge has groove portion 35b, and has many muscle 35c, inserts the lower edge portion 2 being bent into crank-like of backboard 2b in this groove portion 35b _b1, these many muscle 35c and the part opposed with groove portion 35b clamp the lower edge portion 2 of the backboard 2b of insertion _b1.

In addition, in the lower edge portion 2 by above-mentioned backboard 2b _b1the groove portion 35b of Intercalation part 35 under the state clamped by muscle 35c, groove portion 35b protrudes into the lower edge portion 2 than backboard 2b _b1the position of the main part foreign side slightly rearward of top.

This groove portion 35b is positioned at the bottom of the vacuum insulation panel 4a than the rear wall being configured at refrigerator main body 1

Position on the lower, the width dimensions of its left and right directions arranges larger than the width dimensions of the left and right directions of vacuum insulation panel 4b.

In addition, in figures 4 and 5, also show the blocking plate 36 of the opening portion at the back side blocking Machine Room 29, the upper edge of this blocking plate 36 is combined with conjunction 35 in the mode that can take off by not shown multiple bolts etc., and the major part beyond the upper edge of conjunction 35 is covered by this blocking plate 36 and is hidden.

In addition, in the diagram, the internal structure representing compressor 30 is omitted with oblique line.

In the substantially central portion of conjunction 35, as shown in Figure 3, be formed with the outlet pass 35d be communicated with above-mentioned groove portion 35b, in addition be formed with the water-flowing trough 35e be communicated with this outlet pass 35d downwards in the mode extended, be formed with the discharge outlet 35f be communicated with water-flowing trough 35e at its lowest end in the mode pointing to front.

And, the leading section of the extension 37a being formed at water receiving element 37 is configured with in the below (upper portion of the described compressor 30 in Machine Room 29) of discharge outlet 35f.Water receiving element 37 was the parts receiving the water (so-called defrost water) produced when defrosting originally, this defrosting be make to be attached to described refrigeration cooler 23 and described freezing cooler 27 frost melt and remove frost, in figure 6, reception is wherein expressed as Wr from the part of the water of refrigeration cooler 23, the part received from the water of freezing cooler 27 is expressed as Wf.

In addition, the defrosting of refrigeration cooler 23 is undertaken by air-supply, this air-supply only makes refrigeration fan 24 operate by such as stopping to refrigeration cooler 23 the supply system cryogen and carries out, and the defrosting of freezing cooler 27 is undertaken by making the not shown Defrost heater heating being arranged at this freezing cooler 27.

In side (being the now fan 32 side) end of water receiving element 37, as shown in Figure 1, be formed with adjutage portion 37b in the mode extended downwards, and make its bottom facing to evaporating pan 38.Evaporating pan 38 is positioned at the below of described fan 32 and fan fixing member 33 and condenser 34, and be configured at (in Machine Room 29) on described substrate 31, utilize the indirect thermal (such as 40 (DEG C) left and right) in the Machine Room 29 caused by heat that produced by mainly compressor 30, condenser 34 and by be additional to evaporating pan 38 condenser 34 a part caused by direct heat, make to flow through above-mentioned water receiving element 37 and the water evaporation that receives.

The extension 37a of described water receiving element 37 rearward extends near the central portion of water receiving element 37, as shown in Figure 3 and Figure 7, the lowest end of described conjunction 35 is positioned at directly over the leading section of this extension 37a, and described discharge outlet 35f is facing to the leading section of this extension 37a.

Next, the effect of the refrigerator of above-mentioned formation is described.

As mentioned above, arranging and under using the situation of refrigerator, such as, when the humidity being provided with the room of refrigerator increases, the back side of refrigerator main body can condense sometimes, or when refrigerator main body spatters water, water can be attached to it, and water can flow down from the back side of refrigerator main body sometimes thus.When particularly as in this embodiment vacuum insulation panel 4a being used for the heat insulation perisporium of refrigerator main body 1, when this vacuum insulation panel 4a occurs damaged, in refrigerator, the cold air of storeroom makes the back side of refrigerator main body 1 condense sometimes, and now, water can flow down from the back side of refrigerator main body 1.

In the refrigerator of present embodiment, for the water flowed down like this, the conjunction 35 at refrigerator main body 1 back side receives the water flowed down by groove portion 35b, and from outlet pass 35d, flows through water-flowing trough 35e and fall the extension 37a of water receiving element 37 from discharge outlet 35f.Fall the water on the extension 37a of this water receiving element 37, fall on evaporating pan 38 via adjutage portion 37b from the extension 37a of water receiving element 37 afterwards.Then, on this evaporating pan 38, receive the indirect thermal in Machine Room 29 and the direct heat caused by a part for condenser 34 and evaporated.

Therefore, the groove portion 35b of conjunction 35 is as to receive and the water acceptance division of discharging the water flowed down from the back side of refrigerator main body 1 works, evaporating pan 38 works as the receiver receiving the water of discharging from water acceptance division, water receiving element 37 works as the water distributor of the water of discharging from water acceptance division being led receiver, and this water distributor is the water-guiding element that the water defrosting by cooling device produced leads evaporating pan 38.

Like this, in the present embodiment, the water droplet flowed down from the back side of refrigerator main body 1 can be avoided to fall the floor in the room being provided with refrigerator, thereby, it is possible to prevent this floor stained and then corrode the generation of such undesirable condition.

In addition, in the present embodiment, evaporating pan 38 is received and the receiver of the water of discharging as reception by the groove portion 35b (water acceptance division) of conjunction 35, the evaporating pan 38 of the defrosting making to carry out cooling device that is refrigeration cooler 23 and described freezing cooler 27 and the water produced evaporation can be utilized as this receiver, do not need thus to arrange receiver in addition, reasonably to be formed, the generation that the floor in the room being provided with above-mentioned refrigerator is stained, corrode such undesirable condition can be prevented.

In addition, received and the receiver of the water of discharging by the groove portion 35b of this conjunction 35 as reception, also can be the substrate 31 of the Machine Room 29 being configured with the mechanical part comprising compressor 30 of refrigerator main body 1, so also can with utilize the reasonable formation of this substrate 31 the to prevent floor in the room being provided with above-mentioned refrigerator is stained, corrode such undesirable condition generation.

And, in the present embodiment, have and the groove portion 35b (water acceptance division) by conjunction 35 to be received and the water of discharging leads the water distributor of receiver, thus, the water of discharging from water acceptance division reliably can be led receiver, the generation that the floor in the room being provided with above-mentioned refrigerator is stained, corrode such undesirable condition can be prevented more reliably.

And then, in the present embodiment, using above-mentioned water distributor as water-guiding element, i.e. the water receiving element 37 of the water produced because of described cooling device defrosting being led evaporating pan 38, thus, to utilize the reasonable formation of this water receiving element 37, the generation that the floor in the room being provided with above-mentioned refrigerator is stained, corrode such undesirable condition can be prevented more reliably.

Present embodiment is illustrated for the situation utilizing vacuum insulation panel 4a to form separately the perisporium of refrigerator main body 1 at whole rear wall, but, the formation of heat-barrier material 4 also can be changed according to temperature province.Namely, also can use both vacuum insulation panel 4a and foam heat insulating material 4b in the rear projection region of the cryogenic temperature band of ice-making compartment 7, refrigerating chamber 8, and the rear projection region of the refrigerated storage temperature band of the target temperature refrigerating chamber 5 higher than cryogenic temperature band, vegetable compartment 6 is made up of separately vacuum insulation panel 4a.Thus, even if when vacuum insulation panel 4a there occurs breakage, compared with situation about being made up of separately vacuum insulation panel 4a, the heat insulation effect of foam heat insulating material 4b also can be utilized to suppress the generation of condensation.

In addition, present embodiment is illustrated for situation about being configured in Machine Room 29 by compressor 30, but, also can configure compressor 30 etc. in the upper surface rear portion installation space of refrigerator main body 1.Now, can not by compression the size etc. of machine 30 restriction the receiver receiving the water of discharging from water acceptance division is set.

In addition, present embodiment using the evaporating pan 38 in Machine Room 29 or substrate 31 as receiver, but, be not limited to this, also outer in Machine Room 29 receiver receiving dew can be set in addition.Now, by being configured to by receiver to carry out dismounting relative to refrigerator main body 1, user can confirm the water residuing in receiver, and can take off in units of receiver and process water, can improve usability.

Be explained above embodiments of the present invention, but this embodiment is only an example, is not to limit scope of invention.New embodiment can be implemented in other various modes, in the scope of purport not departing from invention, can various omission, replacement, change be carried out.These embodiments and distortion thereof are also contained in scope of invention and purport, and the invention be contained in described in claims and equivalent scope thereof.

Claims (11)

1. a refrigerator, is characterized in that, comprising:

Inside has the refrigerator main body of storeroom,

Be arranged at this refrigerator main body to cool the cooling device of described storeroom,

Be configured to receive and discharge the water acceptance division of the water flowed down from the back side of described refrigerator main body, and

Receive the receiver of the water of discharging from this water acceptance division.

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

Described receiver is evaporating pan, the water evaporation that this evaporating pan makes the defrosting by carrying out described cooling device and produces.

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

Described receiver is the substrate of the Machine Room of the mechanical part configuring described refrigerator main body.

4., according to the refrigerator in claims 1 to 3 described in any one, it is characterized in that:

There is the water distributor of the water of discharging from described water acceptance division being led described receiver.

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

Described water distributor is the water-guiding element that the water defrosting by carrying out described cooling device produced leads described evaporating pan.

6., according to the refrigerator in claims 1 to 3 described in any one, it is characterized in that:

The rear wall of described refrigerator main body uses vacuum heat insulation material.

7. refrigerator according to claim 4, is characterized in that:

The rear wall of described refrigerator main body uses vacuum heat insulation material.

8. refrigerator according to claim 5, is characterized in that:

The rear wall of described refrigerator main body uses vacuum heat insulation material.

9. refrigerator according to claim 6, is characterized in that:

The width dimensions of the left and right directions of described water acceptance division is larger than the width dimensions of the left and right directions of described vacuum heat insulation material.

10. refrigerator according to claim 7, is characterized in that:

The width dimensions of the left and right directions of described water acceptance division is larger than the width dimensions of the left and right directions of described vacuum heat insulation material.

11. refrigerators according to claim 8, is characterized in that:

The width dimensions of the left and right directions of described water acceptance division is larger than the width dimensions of the left and right directions of described vacuum heat insulation material.