CN105066566A - Water receiving disk for refrigerator and refrigerator - Google Patents

Abstract

The invention discloses a water receiving disk for a refrigerator and the refrigerator. The water receiving disk is provided with a water inlet, a water collecting groove and a water guide passage arranged between the water inlet and the water collecting groove. Melted frost water entering the water receiving disk through the water inlet passes through the water guide passage and then flows into the water collecting groove. The length of the water guide passage is larger than the straight line distance between the water inlet and the water collecting groove. According to the technical scheme, the water guide passage is arranged on a bottom plate. After entering the water receiving disk from the water inlet, the melted frost water flows along the water guide passage. In the flowing process, part of the melted frost water adheres to the water guide passage and is evaporated later, and part of the melted frost water is directly evaporated in the flowing process. Therefore, the amount of the melted frost water flowing into the water collecting groove is largely reduced, and the situation that as a large amount of melted frost water concentrates in the water collecting groove, an overflow phenomenon is caused is avoided.

Description

Water catcher for refrigerator and refrigerator

Technical field

The present invention relates to refrigerator technical field, particularly a kind of Water catcher for refrigerator and refrigerator.

Background technology

The large-sized wind cooling defrosting tray of refrigerator of current use is inadequate due to volume, often all adopts two drip tray.For small-sized direct cooling refrigerator, because its defrosting water is less, adopt two drip tray can take large capacity compressor space, the single drip tray of general employing.

Existing drip tray is generally provided with water inlet and water leg, and defrosting water is entered in water inlet plate by water inlet, and flows towards water leg.In flow process, defrosting water can constantly evaporation, but due to the restriction of drip tray volume, the water route length flowed through of defrosting water is shorter, and defrosting water can not evaporate completely, can be collected stays in water leg by a large amount of defrosting waters.Along with the increase of service time, the defrosting water in water leg can get more and more, and may cause defrosting water overflow.

Summary of the invention

Main purpose of the present invention is to provide a kind of drip tray, is intended to the length increasing the water route that defrosting water flows through, and to improve defrosting water evaporation effect, and then reduces the defrost water yield combined in drip tray, avoids white water overflow.

For achieving the above object, the conduit pipe that the drip tray that the present invention proposes is provided with water inlet, water leg and is located between described water inlet and described water leg; The defrosting water being entered described drip tray by described water inlet, via after described conduit pipe, flow to described water leg, and the length of described conduit pipe is greater than the air line distance between described water inlet to described water leg.

Preferably, described drip tray comprises base plate and is connected to described first side plate, the second side plate, the 3rd side plate and the 4th side plate; Described first side plate, the 3rd side plate, the second side plate and the 4th side plate successively head and the tail connect, and surround a rectangular box, and the length of described first side plate are greater than the length of described 3rd side plate; Described water inlet is located at one end of close described 3rd side plate of described base plate, and described base plate one end near described 4th side plate is located at by described water leg.

Preferably, described base plate is provided with several interval and arranges the first water fender and the second water fender, and described first water fender one end is fixedly connected with described first side plate, is provided with the first gap between the other end and described second side plate; Described second water fender one end is fixedly connected with described second side plate, the other end extend be disposed adjacent two described between the first water fender, and and be provided with the second gap between described first side plate; Described conduit pipe is formed between described first water fender and described second water fender.

Preferably, described first water fender is vertically connected on described first side plate; Described second water fender is vertically connected on described second side plate.

Preferably, described first water fender tilts to be connected on described first side plate, and the distance between described first water fender and described 3rd side plate increases to the one end away from described first side plate gradually by near one end of described first side plate; Described second water fender tilts to be connected on described second side plate, and the distance between described second water fender and described 3rd side plate increases to the one end away from described second side plate gradually by near one end of described second side plate.

Preferably, described base plate is provided with the water guide face for described defrosting water to be guided to described water leg by described water inlet, and described water guide face is inclined-plane or cambered surface.

Preferably, described drip tray comprises base plate and is connected to described first side plate, the second side plate, the 3rd side plate and the 4th side plate; Described first side plate, the 3rd side plate, the second side plate and the 4th side plate successively head and the tail connect, and surround a rectangular box, and the length of described first side plate are greater than the length of described 3rd side plate; Described water inlet is located at the centre position of described base plate; Described water leg comprises the first water collecting unit and the second water collecting unit, and described first water collecting unit is located at described base plate one end near described 3rd side plate, and described second water collecting unit is located at described base plate one end near described 4th side plate; Described conduit pipe comprises the first water guide unit and the second water guide unit, and described first water guide unit is located between described water inlet and described first water collecting unit, and described second water guide unit is located between described water inlet and described second water collecting unit.

Preferably, the rough surface of described base plate.

The present invention also proposes a kind of refrigerator, comprises drip tray, the conduit pipe that described drip tray is provided with water inlet, water leg and is located between described water inlet and described water leg; The defrosting water being entered described drip tray by described water inlet, via after described conduit pipe, flow to described water leg, and the length of described conduit pipe is greater than the air line distance between described water inlet to described water leg.

Technical solution of the present invention by arranging conduit pipe on base plate, after defrosting water enters described drip tray by described water inlet, flow along described conduit pipe, in flow process, part defrosting water is adhered on described conduit pipe, and in subsequent evaporation, part is directly evaporated in flow process, the defrost water yield that can flow to described water leg is reduced in a large number, effectively prevent defrosting water and combine in water leg in a large number and the generation of the overflow situation caused.

Accompanying drawing explanation

Fig. 1 is the top view of drip tray first embodiment of the present invention;

Fig. 2 is the cross-sectional view of the drip tray shown in Fig. 1;

Fig. 3 is the cross-sectional view of drip tray second embodiment of the present invention;

Fig. 4 is the top view of drip tray of the present invention 3rd embodiment;

Fig. 5 is the top view of drip tray of the present invention 4th embodiment;

Fig. 6 is the structural representation of base plate in drip tray one embodiment of the present invention.

Drawing reference numeral illustrates:

Label	Title	Label	Title
				102/102’	Base plate	103/103’	Water guide face
104	First side plate	106	Second side plate
				108	3rd side plate	109	4th side plate
120	Water inlet	140/140’	Water leg
				142	First water collecting unit	144	Second water collecting unit
160/160’/160”	Conduit pipe	161	First water guide unit
				162/162’	First water fender	163	Second water guide unit
164/164’	Second water fender

The realization of the object of the invention, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Detailed description of the invention

Be described further with regard to technical scheme of the present invention below in conjunction with drawings and the specific embodiments.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

The present invention proposes a kind of Water catcher for refrigerator.

As shown in Figures 1 and 2, Fig. 1 is the top view of drip tray first embodiment of the present invention; Fig. 2 is the cross-sectional view of the drip tray shown in Fig. 1.

In the present embodiment, the described drip tray conduit pipe 160 that is provided with water inlet 120, water leg 140 and is located between described water inlet 120 and described water leg 140; The defrosting water being entered described drip tray by described water inlet 120, via after described conduit pipe 160, flow to described water leg 140, and the length of described conduit pipe 160 is greater than the air line distance between described water inlet 120 to described water leg 140.Drip tray of the present invention, after defrosting water enters described drip tray by described water inlet 120, flow along described conduit pipe 160, in flow process, part defrosting water is adhered on described conduit pipe 160, and in subsequent evaporation, part is directly evaporated in flow process, the defrost water yield that can flow to described water leg 140 is reduced in a large number, effectively prevent defrosting water and combine in water leg 140 in a large number and the generation of the overflow situation caused.

Particularly, in the present embodiment, described drip tray is installed on the top of the compressor (not shown) of described refrigerator, when the defrosting water in described drip tray evaporates, the heat around compressor can be absorbed, and then effectively can reduce the temperature of described compressor, improve the reliability of compressor operating.

Further, in the present embodiment, described drip tray comprises base plate 102, is connected to described base plate 102 and the first side plate 104 and the second side plate 106 be oppositely arranged, and is connected to described base plate 102 and the 3rd side plate 108 be oppositely arranged and the 4th side plate 109; Described first side plate 104, the 3rd side plate 108, second side plate 106 and the 4th side plate 109 successively head and the tail connect, and surround a rectangular box (sign).Described first side plate 104 has identical size and structure with described second side plate 104, described 3rd side plate 108 has identical size and structure with described 4th side plate 109, and the length of described first side plate 104 is greater than the length of described 3rd side plate 108, also namely, described framework and described base plate 102 surround the accommodation space (sign) that has the rectangle of opening.Described water inlet 120, described water leg 140 and described conduit pipe 160 are all located on described base plate 102.

In the present embodiment, described water inlet 120 is located at one end of close described 3rd side plate 108 of described base plate 102, and described base plate 102 one end near described 4th side plate 109 is located at by described water leg 140.Particularly, described base plate 102 is provided with several interval and arranges the first water fender 162 and the second water fender 164, described first water fender 162 one end is fixedly connected with described first side plate 104, is provided with the first gap (sign) between the other end and described second side plate 106; Described second water fender 164 one end is fixedly connected with described second side plate 106, the other end extend be disposed adjacent two described between the first water fender 162, and and be provided with the second gap (not shown) between described first side plate 104; Described conduit pipe 160 is formed between described first water fender 162 and described second water fender 164, enter the defrosting water of described drip tray successively after described first water fender 162 leads with described second water fender 164 by described water inlet 120, flow in described water leg 140.Particularly, described first water fender 162 has identical size and structure with described second water fender 164, and the length of described first water fender 162 is less than the length of described 3rd side plate 108, also be, described first water fender 162 and described second side plate 106, all there is gap between second water fender 164 and the first side plate 104, can flow through to make defrosting water.Preferably, described first water fender 162 is relatively large with the roughness of the outer surface of described second water fender 164, to make more defrosting water can be adhered to described first water fender 162 with on described second water fender 16, promote the evaporation effect of defrosting water further.

Further, simultaneously with reference to figure 2, described base plate 102 is provided with water guide face 103, to make the defrosting water being entered described drip tray by described water inlet 120, and can at the flows by action of described defrosting water self gravitation to described water leg 140.Particularly, in the present embodiment, described water guide face 103 is inclined-plane, described base plate 102 is a flat board being obliquely installed in described framework, it is provided with water leg 140 end and is tilted to lower setting, to make the defrosting water being entered described drip tray by described water inlet 120, via after described conduit pipe 160 under the effect of described defrosting water self gravitation, described water leg 140 can be flowed to.

Further, as shown in Figure 3, Fig. 3 is the cross-sectional view of drip tray second embodiment of the present invention.

The difference of the present embodiment and above-mentioned first embodiment is only, in the present embodiment, described base plate 102 ' is arc, and also namely described water guide face 103 ' is arcwall face, and it can realize above-mentioned technique effect equally.

Further, as shown in Figure 4, Fig. 4 is the top view of drip tray of the present invention 3rd embodiment.

The difference of the present embodiment and above-mentioned first embodiment is only, in the present embodiment, described first water fender 162 ' tilts to be connected on described first side plate 104, and the distance between described first water fender 162 ' and described 3rd side plate 108 increases to the one end away from described first side plate 104 gradually by near one end of described first side plate 104; Described second water fender 164 ' tilts to be connected on described second side plate 106, and the distance between described second water fender 164 ' and described 3rd side plate 108 increases to the one end away from described second side plate 106 gradually by near one end of described second side plate 106.Also be, in the present embodiment, described first water fender 162 ' is all obliquely installed towards the direction of described water leg 140 with described second water fender 164 ', while improving defrosting water evaporation efficiency, is led in the direction of defrosting water towards described water leg 140, to avoid when the defrost water yield is larger, the overflow caused due to described first water fender 162 ' and the stop of described second water fender 164 '.

Further, as shown in Figure 5, Fig. 5 is the top view of drip tray of the present invention 4th embodiment.

Described water inlet 120 is located at the centre position of described base plate 102; Described water leg 140 ' comprises the first water collecting unit 142 and the second water collecting unit 144, described first water collecting unit 142 is located at described base plate 102 one end near described 3rd side plate 108, and described second water collecting unit 144 is located at described base plate 102 one end near described 4th side plate 109; Described conduit pipe 160 " comprise the first water guide unit 161 and the second water guide unit 163; and described first water guide unit 161 is located between described water inlet 120 and described first water collecting unit 142, and described second water guide unit 163 is located between described water inlet 120 and described second water collecting unit 144.Particularly, in the present embodiment, described first water guide unit 161 can adopt with described second water guide unit 163 structure that the conduit pipe (160 and/or 160 ') in above-mentioned all embodiments is identical, and has identical technique effect, and therefore not to repeat here.

Further, as shown in Figure 6, Fig. 6 is the structural representation of base plate in drip tray one embodiment of the present invention.

In the present embodiment, described base plate 102 has coarse surface, for slowing down the flow velocity of defrosting water, to improve the evaporation efficiency of defrosting water further.

The present invention also proposes a kind of refrigerator, comprise drip tray, the concrete structure of described drip tray is with reference to above-described embodiment, because refrigerator of the present invention have employed whole technical schemes of above-mentioned all embodiments, therefore all beneficial effects that the technical scheme having above-described embodiment is equally brought, this is no longer going to repeat them.

Should be noted that; the technical scheme of each embodiment of the present invention can be combined with each other; but must be can be embodied as basis with those skilled in the art; when technical scheme combination occur conflicting maybe cannot realize time will be understood that the combination of this technical scheme does not exist, also not within the protection domain of application claims.

These are only the preferred embodiments of the present invention; not thereby the scope of the claims of the present invention is limited; every equivalent structure transformation utilizing description of the present invention and accompanying drawing content to do, or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present invention.

Claims (9)

1. a Water catcher for refrigerator, is characterized in that, the conduit pipe that described drip tray is provided with water inlet, water leg and is located between described water inlet and described water leg; The defrosting water being entered described drip tray by described water inlet, via after described conduit pipe, flow to described water leg, and the length of described conduit pipe is greater than the air line distance between described water inlet to described water leg.

2. Water catcher for refrigerator as claimed in claim 1, it is characterized in that, described drip tray comprises base plate and is connected to described first side plate, the second side plate, the 3rd side plate and the 4th side plate; Described first side plate, the 3rd side plate, the second side plate and the 4th side plate successively head and the tail connect, and surround a rectangular box, and the length of described first side plate are greater than the length of described 3rd side plate; Described water inlet is located at one end of close described 3rd side plate of described base plate, and described base plate one end near described 4th side plate is located at by described water leg.

3. Water catcher for refrigerator as claimed in claim 2, it is characterized in that, described base plate is provided with several interval and arranges the first water fender and the second water fender, and described first water fender one end is fixedly connected with described first side plate, is provided with the first gap between the other end and described second side plate; Described second water fender one end is fixedly connected with described second side plate, the other end extend be disposed adjacent two described between the first water fender, and and be provided with the second gap between described first side plate; Described conduit pipe is formed between described first water fender and described second water fender.

4. Water catcher for refrigerator as claimed in claim 3, it is characterized in that, described first water fender is vertically connected on described first side plate; Described second water fender is vertically connected on described second side plate.

5. Water catcher for refrigerator as claimed in claim 3, it is characterized in that, described first water fender tilts to be connected on described first side plate, and the distance between described first water fender and described 3rd side plate increases to the one end away from described first side plate gradually by near one end of described first side plate; Described second water fender tilts to be connected on described second side plate, and the distance between described second water fender and described 3rd side plate increases to the one end away from described second side plate gradually by near one end of described second side plate.

6. Water catcher for refrigerator as claimed in claim 2, it is characterized in that, described base plate is provided with the water guide face for described defrosting water to be guided to described water leg by described water inlet, and described water guide face is inclined-plane or cambered surface.

7. Water catcher for refrigerator as claimed in claim 1, it is characterized in that, described drip tray comprises base plate and is connected to described first side plate, the second side plate, the 3rd side plate and the 4th side plate; Described first side plate, the 3rd side plate, the second side plate and the 4th side plate successively head and the tail connect, and surround a rectangular box, and the length of described first side plate are greater than the length of described 3rd side plate; Described water inlet is located at the centre position of described base plate; Described water leg comprises the first water collecting unit and the second water collecting unit, and described first water collecting unit is located at described base plate one end near described 3rd side plate, and described second water collecting unit is located at described base plate one end near described 4th side plate; Described conduit pipe comprises the first water guide unit and the second water guide unit, and described first water guide unit is located between described water inlet and described first water collecting unit, and described second water guide unit is located between described water inlet and described second water collecting unit.

8. the Water catcher for refrigerator according to any one of claim 2 to 7, is characterized in that, the rough surface of described base plate.

9. a refrigerator, is characterized in that, comprises the drip tray according to any one of the claims 1 to 8.