CN218495493U

CN218495493U - Refrigerator

Info

Publication number: CN218495493U
Application number: CN202222613159.3U
Authority: CN
Inventors: 王春利; 李康; 崔展鹏
Original assignee: Qingdao Haier Refrigerator Co Ltd; Haier Smart Home Co Ltd
Current assignee: Qingdao Haier Refrigerator Co Ltd; Haier Smart Home Co Ltd
Priority date: 2022-09-30
Filing date: 2022-09-30
Publication date: 2023-02-17
Anticipated expiration: 2032-09-30

Abstract

The utility model relates to a refrigerator, it includes: the refrigerator comprises a box body, a first storage chamber and a second storage chamber which are arranged side by side in the transverse direction of the box body at intervals, and a first cooling chamber and a second cooling chamber which are arranged side by side in the transverse direction of the box body at intervals, wherein the first cooling chamber and the second cooling chamber are respectively adjacently positioned below the first storage chamber and the second storage chamber; the first evaporator and the second evaporator are respectively arranged in the first cooling chamber and the second cooling chamber and are configured to respectively provide cold energy for the first storage chamber and the second storage chamber. A first water receiving tray is formed at the bottom of the first cooling chamber, the first water receiving tray is formed by enclosing a plurality of first inclined parts, the bottoms of the plurality of first inclined parts are intersected, and a first water discharging opening is formed at the intersection; and a second water pan is formed at the bottom of the second cooling chamber, the second water pan is formed by enclosing a plurality of second inclined parts, the bottoms of the plurality of second inclined parts are intersected, and a second water outlet is formed at the intersection.

Description

Refrigerator with a door

Technical Field

The utility model relates to a cold-stored freezing technique especially relates to a refrigerator.

Background

In daily life, people mainly utilize the refrigerator to refrigerate and store food, the evaporator of most refrigerators is positioned at the back, and the air outlet and the air return direction of an air duct are disordered, so that the temperature reduction and the fresh keeping are not facilitated. In recent years, the bottom refrigerator with the evaporator positioned at the bottom of the inner container is researched and developed and popularized, and the arrangement mode of the evaporator can realize the parallel of air outlet and air return of the air duct, namely parallel flow refrigeration.

The arrangement of using a bottom evaporator is well applied to French type refrigerators at present. However, for a refrigerator with a wider width, if one evaporator is adopted, the bottom wall of the cooling chamber cannot form a larger inclination angle due to the height limitation of the cooling chamber, so that the water drainage angle at the water drainage port at the bottom of the cooling chamber is too small to drain the defrosting water in time, the problem of frost blockage of the evaporator is caused, and the refrigerating performance of the refrigerator is damaged.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome at least one defect of prior art, provide a refrigerator that has the bottom and put evaporimeter and the difficult stifled problem of frost that produces of evaporimeter.

A further object of the present invention is to improve the efficiency of the discharge of the condensate produced by the evaporator.

It is another further object of the present invention to improve the support stability of the evaporator.

In order to achieve the above object, the present invention provides a refrigerator, which includes:

the refrigerator comprises a box body, a first storage chamber and a second storage chamber which are arranged side by side and at an interval in the transverse direction of the box body, and a first cooling chamber and a second cooling chamber which are arranged side by side and at an interval in the transverse direction of the box body, wherein the first cooling chamber and the second cooling chamber are respectively adjacently positioned below the first storage chamber and the second storage chamber;

the first evaporator and the second evaporator are respectively arranged in the first cooling chamber and the second cooling chamber and are configured to respectively provide cold energy for the first storage chamber and the second storage chamber; wherein

A first water receiving tray is formed at the bottom of the first cooling chamber, the first water receiving tray is formed by enclosing a plurality of first inclined parts, the bottoms of the first inclined parts are intersected, and a first water discharging opening is formed in the intersected position; and a second water pan is formed at the bottom of the second cooling chamber, the second water pan is formed by enclosing a plurality of second inclined parts, the bottoms of the plurality of second inclined parts are intersected, and a second water outlet is formed at the intersection.

Optionally, the plurality of first inclined portions include a first rear inclined portion inclined downward from rear to front, a first front inclined portion inclined downward from front to rear, and a first left inclined portion and a first right inclined portion inclined downward from left and right sides to a lateral middle portion, respectively;

the plurality of second inclined portions include a second rear inclined portion inclined downward from rear to front, a second front inclined portion inclined downward from front to rear, and a second left inclined portion and a second right inclined portion respectively inclined downward from left and right sides to a lateral middle portion.

Optionally, the first front-side inclined portion, the first rear-side inclined portion, the second front-side inclined portion and the second rear-side inclined portion each extend straight.

Optionally, the first front-side inclined portion, the first rear-side inclined portion, the second front-side inclined portion, and the second rear-side inclined portion each include an angle of 7 ° or more from a horizontal plane.

Optionally, the degree of tilt of the first front-side tilt is greater than the degree of tilt of the first rear-side tilt;

the second front-side inclined portion is inclined to a greater extent than the second rear-side inclined portion.

Optionally, the first left inclined portion, the first right inclined portion, the second left inclined portion, and the second right inclined portion each extend in a curved manner.

Optionally, the first left inclined portion, the first right inclined portion, the second left inclined portion and the second right inclined portion are all inclined downward from back to front; and is

The degree of the first left inclined portion and the second left inclined portion being inclined downward in a left-to-right direction is gradually increased; the first right inclined portion and the second right inclined portion are gradually decreased in degree of being inclined downward in a left-to-right direction.

Any section of the first left-side inclined portion and the first right-side inclined portion is inclined downward to a greater extent than the first rear-side inclined portion; any section of the second left-side inclined portion and the second right-side inclined portion is inclined downward to a greater extent than the second rear-side inclined portion.

Optionally, the bottom of the rear section of the first evaporator directly or indirectly abuts against the first rear inclined portion, and the bottom of the front end of the first evaporator directly or indirectly abuts against the first front inclined portion, so that the first evaporator is placed transversely in the first cooling chamber and inclines downward from back to front;

the bottom of the rear section of the second evaporator is directly or indirectly attached to the second rear inclined portion, and the bottom of the front end of the second evaporator is directly or indirectly attached to the second front inclined portion, so that the second evaporator is placed transversely in the second cooling chamber and is inclined downward from back to front.

Optionally, at least one first rear limiting block and at least one first front limiting block are respectively arranged on the first rear inclined part and the first front inclined part; a first bottom supporting plate is arranged between the first rear limiting block and the first front limiting block, and the first evaporator is fixedly supported on the first bottom supporting plate;

the second rear inclined part and the second front inclined part are respectively provided with at least one second rear limiting block and at least one second front limiting block; and a second bottom supporting plate is arranged between the second rear limiting block and the second front limiting block, and the second evaporator is fixedly supported on the second bottom supporting plate.

The utility model discloses a be injectd the cooling chamber that has two horizontal intervals to set up in the refrigerator box to provide cold volume for two bottom storing rooms respectively, compare in a cooling chamber, the utility model discloses a width of every cooling chamber on transversely upwards greatly reduces. And the water receiving tray at the bottom of each cooling chamber is formed by enclosing a plurality of inclined parts, and water outlets are formed at the intersection positions of the bottoms of the inclined parts. From this, under the same height restriction, the utility model discloses a degree of inclination for forming a plurality of inclinations of water collector is higher, is favorable to the comdenstion water or the defrosting water that the evaporimeter produced to flow to the outlet along the inclination more fast to avoided the evaporation formula to produce the stifled problem of frost.

Further, the water collector of two cooling chamber bottoms is by preceding, after, a left side, four slopes in four directions on the right side are from last down drawing in the formation, wherein, the left side, two slopes in two directions on the right side are all crooked to be extended, and in the direction towards the outlet, the degree of inclination of two slopes crescent, the velocity of flow of the comdenstion water of keeping away from the drain outlet region has been cushioned, the velocity of comdenstion water flow direction outlet near the drain outlet region has been improved, thereby avoid outlet department gathering comdenstion water, the discharge efficiency of comdenstion water has further been improved.

Further, in order to avoid the great support stability to the evaporimeter of water collector slope degree to cause the influence, the utility model discloses still further set up the stopper on the rake of both sides in the front and back, the backup pad restriction that will be used for supporting the evaporimeter is between two stoppers in the front and back, ensures that the evaporimeter can not produce the ascending displacement of fore-and-aft direction, has improved the support stability of evaporimeter.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter by way of example and not by way of limitation with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily to scale. In the drawings:

fig. 1 is a schematic structural view of a refrigerator according to an embodiment of the present invention;

fig. 2 is a partially exploded view of a refrigerator according to an embodiment of the present invention;

FIG. 3 isbase:Sub>A schematic cross-sectional view taken along section line A-A in FIG. 1;

FIG. 4 is a schematic cross-sectional view taken along section line B-B in FIG. 1;

fig. 5 is a schematic enlarged view of a portion C in fig. 3;

fig. 6 is a schematic enlarged view of a portion D in fig. 4;

fig. 7 is a schematic structural view of the first and second inner containers according to an embodiment of the present invention.

Detailed Description

The utility model providesbase:Sub>A refrigerator, figure 1 is according to the utility model disclosesbase:Sub>A schematic structure chart of refrigerator of an embodiment, figure 2 is according to the utility model disclosesbase:Sub>A partial structure exploded view of refrigerator of an embodiment, figure 3 is the schematic cross-sectional view of cutting along 1 well cutting line A-A, figure 4 is the schematic cross-sectional view of cutting along 1 well cutting line B-B, figure 5 is the schematic enlarger of part C in figure 3, figure 6 is the schematic enlarger of part D in figure 4.

Referring to fig. 1 to 6, the refrigerator 1 of the present invention includes a box 10, a first storage compartment 111 and a second storage compartment 121 spaced apart from and disposed side by side in a transverse direction of the box 10, and a first cooling compartment 112 and a second cooling compartment 122 spaced apart from and disposed side by side in the transverse direction of the box 10 are defined in the box 10, and the first cooling compartment 112 and the second cooling compartment 122 are respectively located below the first storage compartment 111 and the second storage compartment 121 adjacently. That is, the first storage compartment 111 and the second storage compartment 121 are two independent storage compartments, and the first cooling compartment 112 and the second cooling compartment 122 are independent of each other.

The refrigerator 1 further comprises a first evaporator 21 and a second evaporator 22, which are respectively arranged in the first cooling chamber 112 and the second cooling chamber 122 and are configured to provide cold energy to the first storage compartment 111 and the second storage compartment 121, respectively. That is, the refrigerator 1 includes two bottom evaporators independent of each other. The evaporator is arranged at the bottom, so that the rear space of the storage chamber is not occupied, and the effective volume of the storage chamber can be increased.

Particularly, a first water pan 31 is formed at the bottom of the first cooling chamber 112, the first water pan 31 is enclosed by a plurality of first inclined parts, the bottoms of the plurality of first inclined parts intersect, and a first drainage port 311 is opened at the intersection; the second water receiving tray 32 is formed at the bottom of the second cooling chamber 122, the second water receiving tray 32 is formed by enclosing a plurality of second inclined portions, the bottoms of the plurality of second inclined portions intersect, and a second water outlet 321 is formed at the intersection.

The utility model discloses a be injectd the cooling chamber that has two horizontal intervals to set up in the refrigerator box 10 to provide cold volume for two bottom storing rooms respectively, compare in a cooling chamber, the utility model discloses a width of every cooling chamber on transversely upwards greatly reduces. And the water receiving tray at the bottom of each cooling chamber is formed by enclosing a plurality of inclined parts, and water outlets are formed at the intersection positions of the bottoms of the inclined parts. From this, under the same height restriction, the utility model discloses a degree of inclination for forming a plurality of inclinations of water collector is higher, is favorable to the comdenstion water or the defrosting water that the evaporimeter produced to flow to the outlet along the inclination more fast to avoided the evaporation formula to produce the stifled problem of frost.

In some embodiments, the first storage compartment 111 and the first cooling compartment 112 are separated by a first cover plate 131, and the second storage compartment 121 and the second cooling compartment 122 are separated by a second cover plate 132. The refrigerator 1 further includes a first air-returning cover 141 disposed at a front side of the first cover plate 131 and a second air-returning cover 142 disposed at a front side of the second cover plate 132. The first air-return cover 141 is provided with a first air-return opening 1411 through which the return air flow of the first storage compartment 111 flows to the first cooling compartment 112, and the second air-return cover 142 is provided with a second air-return opening 1421 through which the return air flow of the second storage compartment 121 flows to the second cooling compartment 122.

Specifically, the first storage compartment 111 and the first cooling compartment 112 may be defined in the same first inner container 11, and separated by a first cover 131. The second storage compartment 121 and the second cooling compartment 122 may be defined in the same second inner container 12 and separated by a second cover 132.

Fig. 7 is a schematic structural view of the first and second inner containers according to an embodiment of the present invention. In some embodiments, the plurality of first inclined portions include a first rear inclined portion 312 inclined downward from rear to front, a first front inclined portion 313 inclined downward from front to rear, and a first left inclined portion 314 and a first right inclined portion 315 inclined downward from left and right sides to a lateral middle portion, respectively. The plurality of second inclined portions include a second rear inclined portion 322 inclined downward from rear to front, a second front inclined portion 323 inclined downward from front to rear, and a second left inclined portion 324 and a second right inclined portion 325 inclined downward from left and right sides to a lateral middle portion, respectively.

That is, the first drain pan 31 and the second drain pan 32 are both funnel-shaped members formed by converging and converging the four inclined portions from top to bottom, so that on one hand, the condensed water generated by the first evaporator 21 and dropped on any position of the first drain pan 31 can be effectively collected to the first drain opening 311, and the condensed water generated by the second evaporator 22 and dropped on any position of the second drain pan 32 can be effectively collected to the second drain opening 321; on the other hand, compare in the water collector of obconic shape, the utility model discloses a water collector that encloses by the ascending rake in four directions more is favorable to the installation and the support of evaporimeter.

In some embodiments, the first front-side inclined portion 313, the first rear-side inclined portion 312, the second front-side inclined portion 323, and the second rear-side inclined portion 322 each extend straight so as to support the first evaporator 21 between the first front-side inclined portion 313 and the first rear-side inclined portion 312, and to support the second evaporator 22 between the second front-side inclined portion 323 and the second rear-side inclined portion 322.

Further, the included angles between the first front inclined portion 313, the first rear inclined portion 312, the second front inclined portion 323, and the second rear inclined portion 322 and the horizontal plane are equal to or greater than 7 °, so that the front and rear sides of the first and

second drip trays

31 and 32 are inclined by an amount sufficient for condensed water to flow rapidly.

In some embodiments, the degree of tilt of the first front-side tilt 313 is greater than the degree of tilt of the first rear-side tilt 312. That is, the first rear-side inclined portion 312 is more gentle, thereby facilitating formation of surface support between the rear section of the first evaporator 21 and the first rear-side inclined portion 312 when the first evaporator 21 is supported by the first front-side inclined portion 313 and the first rear-side inclined portion 312, thereby improving the support stability of the first evaporator 21.

In some embodiments, the degree of tilt of the second front-side inclined portion 323 is greater than the degree of tilt of the second rear-side inclined portion 322. That is, the second rear-side inclined portion 322 is more gentle, thereby facilitating formation of surface support between the rear section of the second evaporator 22 and the second rear-side inclined portion 322 when the second evaporator 22 is supported by the second front-side inclined portion 323 and the second rear-side inclined portion 322, thereby improving the support stability of the second evaporator 22.

In some embodiments, the first left inclined portion 314, the first right inclined portion 315, the second left inclined portion 324, and the second right inclined portion 325 each extend in a curved manner.

Further, the first left inclined portion 314, the first right inclined portion 315, the second left inclined portion 324, and the second right inclined portion 325 are all inclined downward from the rear to the front. The degree to which the first left inclined portion 314 and the second left inclined portion 324 are inclined downward in the left-to-right direction gradually increases; the degree of the first right inclined portion 315 and the second right inclined portion 325 inclined downward in the left-to-right direction gradually decreases.

That is to say, two slopes in two directions of the left side and the right side of first defrosting pan 31 and second defrosting pan 32 are all extended in a bending way, and in the direction of the water outlet towards the bottom of the two slopes, the slope degree of the two slopes is gradually increased, the flow speed of the condensed water far away from the water outlet area is delayed, and the speed of the condensed water near the water outlet area flowing to the water outlet is increased, so that the condensed water is prevented from gathering at the water outlet, and the drainage efficiency of the condensed water is further improved.

In some embodiments, the first left inclined portion 314, the first right inclined portion 315, the second left inclined portion 324, and the second right inclined portion 325 are all inclined downward from back to front. Any section of the first left inclined portion 314 and the first right inclined portion 315 is inclined downward to a higher degree than the first rear inclined portion 312. Each of the sections of the second left-side inclined portion 324 and the second right-side inclined portion 325 is inclined downward to a greater extent than the second rear-side inclined portion 322.

Specifically, the degree of the first and second left

inclined portions

314 and 324 inclined downward in the left-to-right direction gradually increases, and the degree of the first and second right inclined

portions

315 and 325 inclined downward in the left-to-right direction gradually decreases. That is, the sections in which the first and second left

inclined portions

314 and 324 are inclined least downward are the respective leftmost sections thereof, and the sections in which the first and second right inclined

portions

315 and 325 are inclined least downward are the respective rightmost sections thereof.

Further, the leftmost section of the first left-side inclined portion 314 and the rightmost section of the first right-side inclined portion 315 are both inclined downward to a greater extent than the first rear-side inclined portion 312, whereby when the first evaporator 21 is supported on the first front-side inclined portion 313 and the first rear-side inclined portion 312, a sufficiently large downwardly-recessed water-containing space can be formed in the lower portion of the first evaporator 21, avoiding a problem that the first evaporator 21 is easily frosted by contact with condensed water.

Further, the leftmost section of the second left inclined portion 324 and the rightmost section of the second right inclined portion 325 are both inclined downward to a greater extent than the second rear-side inclined portion 322, whereby when the second evaporator 22 is supported on the second front-side inclined portion 323 and the second rear-side inclined portion 322, a sufficiently large downwardly-recessed water-containing space can be formed in the lower portion of the second evaporator 22, avoiding a problem that the second evaporator 22 is easily frosted by contact with condensed water.

In some embodiments, the bottom of the rear section of the first evaporator 21 is directly or indirectly attached to the first rear-side inclined portion 312, that is, there is sufficient surface support between the first evaporator 21 and the first rear-side inclined portion 312, which is beneficial to the stability of the first evaporator 21. The bottom of the front end of the first evaporator 21 directly or indirectly abuts against the first front-side inclined portion 313 so that the first evaporator 21 lies laterally within the first cooling chamber 112 and is inclined downward from the rear to the front. The first evaporator 21 is obliquely arranged, so that the first evaporator 21 with a larger area can be arranged in the limited space in the first cooling chamber 112, and the refrigeration effect of the first storage compartment 111 is improved.

In some embodiments, the bottom of the rear section of the second evaporator 22 directly or indirectly abuts against the second rear-side inclined portion 322, that is, there is enough surface support between the second evaporator 22 and the second rear-side inclined portion 322 to facilitate the stability of the second evaporator 22. The bottom of the front end of the second evaporator 22 directly or indirectly abuts against the second front-side inclined portion 323, so that the second evaporator 22 lies laterally within the second cooling chamber 122 and is inclined downward from rear to front. The second evaporator 22 is obliquely arranged, so that the second evaporator 22 with a larger area can be arranged in the limited space in the second cooling chamber 122, and the refrigerating effect of the second storage compartment 121 is improved.

Because the utility model discloses a refrigerator 1 has two cooling chambers of putting at the bottom, and the width of every cooling chamber is less, consequently, under the condition of same cooling chamber height, the tilting degree of the water collector of cooling chamber bottom is higher. That is, the first rear-side inclined portion 312 of the first drain pan 31 for forming surface support to the first evaporator 21 and the second rear-side inclined portion 322 of the second drain pan 32 for forming surface support to the second evaporator 22 are inclined to a higher degree than the inclined portion for forming surface support to one evaporator in the related art, and therefore, the inclination degree of the first evaporator 21 and the second evaporator 22 is higher, and sliding displacement is more easily generated.

To this end, in some embodiments, at least one first rear limiting block 316 and at least one first front limiting block 317 are provided on the first rear inclined portion 312 and the first front inclined portion 313, respectively. A first bottom support plate 211 is provided between the first rear stopper 316 and the first front stopper 317, and the first evaporator 21 is fixedly supported on the first bottom support plate 211. Thereby, the first bottom support plate 211 is restrained between the first rear stopper 316 and the first front stopper 317 without displacement in the front-rear direction, thereby restricting the degree of freedom in the front-rear direction of the first evaporator 21 fixedly supported on the first bottom support plate 211.

Similarly, the second rear inclined portion 322 and the second front inclined portion 323 are provided with at least one second rear stopper 326 and at least one second front stopper 327, respectively. A second bottom support plate 221 is provided between the second rear stopper 326 and the second front stopper 327, and the second evaporator 22 is fixedly supported on the second bottom support plate 221. Thereby, the second bottom support plate 221 is restrained between the second rear stopper 326 and the second front stopper 327 without displacement in the front-rear direction, thereby restricting the degree of freedom in the front-rear direction of the second evaporator 22 fixedly supported on the second bottom support plate 221.

In some embodiments, a first lateral positioning block may be disposed between two lateral ends of the first evaporator 21 and two lateral sidewalls of the first cooling chamber 112, respectively, so as to limit the freedom degree of the first evaporator 21 in the lateral direction. A first top stopper is disposed between the top of the first evaporator 21 and a first cover plate for separating the first storage compartment 111 and the first cooling compartment 112, so as to limit the degree of freedom of the first evaporator 21 in the vertical direction through the first top stopper and the first rear inclined portion 312 of the first water receiving tray 31.

Similarly, a second lateral positioning block is respectively disposed between two lateral ends of the second evaporator 22 and two lateral sidewalls of the second cooling chamber 122 to limit the freedom degree of the second evaporator 22 in the lateral direction. A second top stopper is disposed between the top of the second evaporator 22 and a second cover plate for partitioning the second storage compartment 121 and the second cooling compartment 122, so as to limit the degree of freedom of the second evaporator 22 in the vertical direction through the second top stopper and a second rear inclined portion 322 of the second water collector 32.

It will be understood by those skilled in the art that the four inclined portions defining the first drip tray 31 may be flat inclined portions extending straight, curved inclined portions extending in a curved manner, or partially extending straight and partially extending in a curved manner.

In some embodiments, a first air duct assembly 41 and a second air duct assembly 42 are respectively disposed at the rear sides of the first storage compartment 111 and the second storage compartment 121, and a first air supply duct and a second air supply duct are respectively defined inside the first air duct assembly 41 and the second air duct assembly 42. A first air supply fan is arranged in the first air supply duct, and the first air supply duct is communicated with the first storage chamber 111 and the first cooling chamber 112, so that cooling air flow generated in the first cooling chamber 112 is enabled to flow to the first storage chamber 111 through the first air supply fan. A second air supply fan is arranged in the second air supply duct, and the second air supply duct is communicated with the second storage compartment 121 and the second cooling compartment 122, so that cooling air flow generated in the second cooling compartment 122 is made to flow to the second storage compartment 121 through the second air supply fan.

In some embodiments, the first storage compartment 111 and the first cooling compartment 112 are separated by a first cover 131, and the second storage compartment 121 and the second cooling compartment 122 are separated by a second cover 132. The refrigerator 1 further includes a first air-returning cover 141 disposed at a front side of the first cover plate 131 and a second air-returning cover 142 disposed at a front side of the second cover plate 132. The first air-return cover 141 is provided with a first air-return opening 1411 through which the return air flow of the first storage compartment 111 flows to the first cooling compartment 112, and the second air-return cover 142 is provided with a second air-return opening 1421 through which the return air flow of the second storage compartment 121 flows to the second cooling compartment 122.

In some embodiments, the first storage compartment 111 and the second storage compartment 121 can be a freezing compartment and a temperature-changing compartment, respectively. Specifically, the temperature of the first storage chamber 111 is usually between-24 ℃ and-14 ℃, and the temperature of the second storage chamber 111 can be adjusted to-24 ℃ to 8 ℃ at will.

In some embodiments, the refrigerator 1 further defines a third storage compartment 151 above the first storage compartment 111 and the second storage compartment 121, and a third cooling compartment 152 behind the third storage compartment 151, and a third evaporator 23 is disposed in the third cooling compartment 152 to provide cold energy to the third storage compartment 151 through the third evaporator 23.

Specifically, the third storage compartment 151 may be a refrigerating compartment, and the temperature therein is generally 2 to 10 ℃.

It should also be understood by those skilled in the art that the terms "upper", "lower", "front", "rear", "top", "bottom", etc. used in the embodiments of the present invention are used as terms for indicating the orientation or positional relationship with respect to the actual use state of the refrigerator 1, and these terms are only used for the convenience of description and understanding of the technical solutions of the present invention, and do not indicate or imply that the device referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

Thus, it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been shown and described in detail herein, many other variations and modifications can be made to the invention consistent with the principles of the invention, which may be directly determined or derived from the disclosure of the present invention, without departing from the spirit and scope of the invention. Accordingly, the scope of the present invention should be understood and interpreted to cover all such other variations or modifications.

Claims

1. A refrigerator, characterized by comprising:

the refrigerator comprises a box body, a first storage chamber and a second storage chamber which are arranged side by side in the transverse direction of the box body at intervals, and a first cooling chamber and a second cooling chamber which are arranged side by side in the transverse direction of the box body at intervals, wherein the first cooling chamber and the second cooling chamber are respectively and adjacently positioned below the first storage chamber and the second storage chamber;

A first water receiving tray is formed at the bottom of the first cooling chamber, the first water receiving tray is formed by enclosing a plurality of first inclined parts, the bottoms of the first inclined parts are intersected, and a first water discharging opening is formed in the intersected position; and a second water receiving tray is formed at the bottom of the second cooling chamber, the second water receiving tray is formed by enclosing a plurality of second inclined parts, the bottoms of the plurality of second inclined parts are intersected, and a second water outlet is formed at the intersection.

2. The refrigerator according to claim 1,

the plurality of first inclined parts comprise a first rear inclined part which is inclined downwards from back to front, a first front inclined part which is inclined downwards from front to back, and a first left inclined part and a first right inclined part which are respectively inclined downwards from left and right sides to a transverse middle part;

3. The refrigerator according to claim 2,

the first front-side inclined portion, the first rear-side inclined portion, the second front-side inclined portion, and the second rear-side inclined portion each extend straight.

4. The refrigerator according to claim 3,

the first front inclined portion, the first rear inclined portion, the second front inclined portion and the second rear inclined portion are all at an angle greater than or equal to 7 ° with respect to a horizontal plane.

5. The refrigerator according to claim 3,

the degree of tilt of the first front-side inclined portion is greater than the degree of tilt of the first rear-side inclined portion;

6. The refrigerator according to claim 2,

the first left inclined portion, the first right inclined portion, the second left inclined portion, and the second right inclined portion are each curvedly extended.

7. The refrigerator according to claim 6,

the first left inclined portion, the first right inclined portion, the second left inclined portion, and the second right inclined portion are all inclined downward from back to front; and is provided with

8. The refrigerator according to claim 2,

Either section of the first left-side inclined portion and the first right-side inclined portion is inclined downward to a greater extent than the first rear-side inclined portion; either section of the second left-side inclined portion and the second right-side inclined portion is inclined downward to a greater extent than the second rear-side inclined portion.

9. The refrigerator according to claim 2,

the bottom of the rear section of the first evaporator is directly or indirectly attached to the first rear inclined part, and the bottom of the front end of the first evaporator is directly or indirectly attached to the first front inclined part, so that the first evaporator is transversely arranged in the first cooling chamber and is inclined downwards from back to front;

the bottom of the rear section of the second evaporator is directly or indirectly attached to the second rear inclined portion, and the bottom of the front end of the second evaporator is directly or indirectly attached to the second front inclined portion, so that the second evaporator is transversely arranged in the second cooling chamber and is inclined downward from back to front.

10. The refrigerator according to claim 9,

the first rear inclined part and the first front inclined part are respectively provided with at least one first rear limiting block and at least one first front limiting block; a first bottom supporting plate is arranged between the first rear limiting block and the first front limiting block, and the first evaporator is fixedly supported on the first bottom supporting plate;