CN109708375B

CN109708375B - Refrigerator with a door

Info

Publication number: CN109708375B
Application number: CN201810670188.9A
Authority: CN
Inventors: 王宁; 李鸿亮; 吴光瑞; 梁星; 周生平
Original assignee: Haier Smart Home Co Ltd
Current assignee: Haier Smart Home Co Ltd
Priority date: 2018-06-26
Filing date: 2018-06-26
Publication date: 2021-11-26
Anticipated expiration: 2038-06-26
Also published as: CN109708375A

Abstract

The present invention provides a refrigerator, comprising: the inner container, an air duct panel which is arranged close to the back wall of the inner container and forms an evaporator chamber with the inner container, and a refrigerating device which is partially arranged in the evaporator chamber; the refrigerating device includes: the air channel assembly is arranged between the evaporator chamber and the refrigerating chamber and used for conveying cold air; the evaporator includes: the two groups of sub-evaporators are communicated with each other and are arranged in parallel in the same plane, and the heating part is arranged between the two groups of sub-evaporators; the wind channel subassembly includes: the air channel is communicated with the evaporator chamber and the refrigerating chamber, and the fan is arranged in the evaporator chamber and corresponds to the air channel; the fan is transversely arranged in the evaporator chamber along the horizontal direction. According to the refrigerator, the centrifugal fan is transversely arranged in the evaporator chamber, so that the arrangement space of the evaporator chamber is more compact, and the utilization efficiency of the fan is improved.

Description

Refrigerator with a door

Technical Field

The invention relates to the field of household appliances, in particular to a refrigerator.

Background

Refrigerators have been widely popularized as household appliances; in the design process of refrigerators, attention is paid to how to increase the volume of each refrigerating chamber of the refrigerators. A refrigerator generally comprises a plurality of refrigerating compartments and an evaporator compartment arranged in any one of the refrigerating compartments, wherein refrigerating components such as a compressor, an evaporator, a heating pipe, a fan and the like are arranged in the evaporator compartment; as such, the size of the evaporator chamber directly affects the volume of the refrigeration compartment.

Disclosure of Invention

The invention aims to provide a refrigerator.

In order to achieve the above object, an embodiment of the present invention provides a refrigerator including: the refrigerator comprises a refrigerator body, a door body matched with the refrigerator body to open the refrigerator body, an inner container arranged in the refrigerator body to form a refrigerating chamber, an air channel panel arranged close to the rear wall of the inner container and forming an evaporator chamber with the inner container, and a refrigerating device partially arranged in the evaporator chamber; the refrigerating apparatus includes: the evaporator is arranged in the evaporator chamber, the heating part is used for removing condensation on the evaporator, and the air duct assembly is arranged between the evaporator chamber and the refrigerating chamber and used for conveying cold air;

the evaporator includes: the two groups of sub-evaporators are communicated with each other and are arranged in parallel in the same plane, and the heating part is arranged between the two groups of sub-evaporators;

the air duct assembly includes: the air duct is communicated with the evaporator chamber and the refrigerating chamber, and the fan is arranged in the evaporator chamber and corresponds to the air duct; the fan is transversely arranged in the evaporator chamber along the horizontal direction.

As a further improvement of an embodiment of the present invention, the refrigerating compartment includes: a refrigerating compartment, the duct comprising: the intercommunication the evaporimeter room with the cold-stored air inlet duct of walk-in, the fan includes cold-stored fan, cold-stored fan is transversely arranged in along the horizontal direction the wind channel entry of cold-stored air inlet duct, the axis that cold-stored fan formed with the axis that the wind channel entry of cold-stored air inlet duct formed is coaxial.

As a further improvement of an embodiment of the present invention, the refrigerator further includes: a compartment partition horizontally disposed in the refrigerating compartment to partition an independent temperature-changing compartment in the refrigerating compartment; the evaporator chamber is arranged behind the temperature-changing chamber; the compartment shelf includes: the evaporator chamber and the refrigerating chamber share the same partition plate; the extension plate, the air duct panel and the inner container form the evaporator chamber.

As a further improvement of an embodiment of the present invention, the air duct assembly further includes: and the refrigerating air return opening is used for guiding cold air from the cold storage chamber to the evaporator chamber and is arranged on the extension plate.

As a further improvement of an embodiment of the present invention, the air duct assembly further includes: the temperature-changing air inlet is used for guiding cold air from the evaporator chamber to the temperature-changing chamber, and the temperature-changing air return inlet is used for guiding the cold air from the temperature-changing chamber to the evaporator chamber, and the temperature-changing air inlet and the temperature-changing air return inlet are both arranged on the air duct panel.

As a further improvement of an embodiment of the present invention, the fan further includes: and the variable temperature fan is transversely arranged at the variable temperature air inlet along the horizontal direction.

As a further improvement of an embodiment of the present invention, the two sets of sub-evaporators are arranged obliquely in opposite directions in a vertical direction perpendicular to the extending direction thereof.

As a further improvement of one embodiment of the invention, the two groups of sub-evaporators are identical in structure and are symmetrically arranged.

As a further improvement of an embodiment of the present invention, the fan is a centrifugal fan.

As a further improvement of an embodiment of the present invention, the air duct assembly further includes: and the air door is arranged corresponding to the air duct and used for controlling the opening and closing of the air duct.

The invention has the beneficial effects that: according to the refrigerator, the centrifugal fan is transversely arranged in the evaporator chamber, so that the arrangement space of the evaporator chamber is more compact, the utilization efficiency of the fan is improved, and the problems of low use efficiency and low space utilization rate of the evaporator under the condition that the height of the evaporation chamber is insufficient are solved.

Drawings

FIG. 1 is a schematic view of a partial structure of a refrigerator according to the present invention;

FIG. 2 is a schematic view of the structure of the inner container not shown in FIG. 1;

FIG. 3 is a schematic structural view of the shelf of FIG. 2 without the compartments shown;

FIG. 4 is a schematic structural view of the duct panel of FIG. 3, not shown;

FIG. 5 is a perspective view of a portion of FIG. 4;

FIG. 6 is a schematic diagram of the exploded structure of FIG. 4;

FIG. 7 is a side view of the structure of FIG. 6;

fig. 8 is a schematic structural view of the fixing frame not shown in fig. 4.

Detailed Description

The present invention will be described in detail below with reference to embodiments shown in the drawings. The present invention is not limited to the embodiment, and structural, methodological, or functional changes made by one of ordinary skill in the art according to the embodiment are included in the scope of the present invention.

It is noted that terms used herein such as "upper," "lower," "front," "rear," and the like, denote relative spatial positions of elements or features for ease of description, and are used for convenience in describing the relationship of one element or feature to another element or feature as illustrated in the figures. In the specific embodiment of the invention, the direction facing the user in the practical application of the refrigerator is taken as the front.

A refrigerator generally includes: the refrigerator comprises a refrigerator body, a door body matched with the refrigerator body to open the refrigerator body, and an inner container arranged in the refrigerator body to form a refrigerating chamber, wherein the refrigerating chamber can comprise at least one of a cold storage chamber, a freezing chamber and a temperature changing chamber; the air channel panel is arranged close to the rear wall of the inner container and forms an evaporator chamber with the inner container, and the refrigerating device is arranged in the evaporator chamber.

Referring to fig. 1 to 3 in combination, a refrigerator according to an embodiment of the present invention does not show a refrigerator body and a door body, but only shows components and connection structures thereof related to the present invention. Specifically, a refrigerating compartment 10 is formed between the inner containers 1 of the embodiment, and the air duct panel 20 and the compartment shelf 30 are arranged in the refrigerating compartment 10 to separate the independent temperature-changing compartment 40 and the evaporator compartment 50 from each other in the refrigerating compartment 10; of course, in other embodiments of the present invention, the inner container 10 may directly form a refrigerating compartment, a temperature changing compartment, and an evaporator compartment which are independently arranged; the refrigerator further includes: and a refrigeration unit 60 partially disposed within the evaporator chamber 50.

In an embodiment of the present invention, the compartment shelf 30 includes: a partition plate 31 common to the temperature-changing compartment 40 and the refrigerating compartment 10, and an extension plate 33 extending from the partition plate 31 rearward of the temperature-changing compartment 40 and common to the evaporator compartment 50 and the refrigerating compartment 10; the extension plate 33, the air duct panel 20 and the inner container 1 form the evaporator chamber 50 therebetween. Further, the duct panel 20 includes: a front panel 21 arranged parallel to the rear wall of the inner container 1; the front panel 21, the compartment shelf 30 and the rear wall and the side wall of the inner container 1 directly form a temperature-changing compartment 40; in a preferred embodiment of the present invention, the air duct panel 20 further includes: the temperature-changing chamber 40 is formed by two parallel side walls 23 extending from the front panel 21 to the rear wall of the inner container 1, the front panel 21, the chamber shelf 30, the rear wall of the inner container 1 and the two parallel side walls 23.

In an embodiment of the present invention, as shown in fig. 4, the refrigeration apparatus 60 includes: an evaporator 61 arranged in the evaporator chamber 50, a heating component 63 for removing condensation on the evaporator 61, an air duct component arranged between the evaporator chamber 50 and the refrigerating chamber for conveying cold air, and a flow guide device 69 for guiding defrosting water dropping from the evaporator.

As shown in fig. 5, 6 and 8, the evaporator 61 is a coil evaporator, and includes: the evaporator comprises two groups of sub-evaporators (61 a, 61 b) which are communicated with each other and are arranged side by side in the same plane, the two groups of sub-evaporators (61 a, 61 b) are obliquely arranged in opposite directions in the vertical direction, and the distances formed by the two groups of sub-evaporators (61 a, 61 b) in the vertical direction from top to bottom are sequentially increased. In an embodiment of the present invention, the two sets of sub-evaporators (61 a, 61 b) may have the same or different structures; in a specific embodiment of the invention, the two groups of sub-evaporators (61 a, 61 b) have the same structure and are symmetrically arranged, and the evaporator 61 integrally forms an isosceles trapezoid table structure; thus, the arrangement height of the evaporator 61 can be reduced, and the heat exchange efficiency is kept unchanged; the space is saved; in addition, a gap is formed between the two groups of sub-evaporators (61 a, 61 b), so that the contact area of each group of sub-evaporators (61 a, 61 b) and air can be increased, and the heat exchange efficiency of the evaporator 61 is improved.

In a preferred embodiment of the present invention, as shown in fig. 5, 6 and 7, the refrigeration apparatus 60 further includes: a holder 67 for holding the evaporator 61 and the heating member 63, the holder 67 being disposed inside the evaporator chamber 50; the fixing frame 67 includes: two brackets 671 which are identical in structure and are arranged in parallel with each other in the evaporator chamber 50; the evaporator 61 and the heating part 63 are both disposed between the two brackets 671; the rack 671 includes: a plate-shaped support body 6711 perpendicular to the bottom wall of the inner container 1, and a plurality of first through holes 6713 opened on the support body 6711, wherein a connecting line between adjacent first through holes 6713 forms a trapezoidal region, and the support 671 further includes: a second through hole 6715 opened in said trapezoidal region. When the refrigeration equipment is installed, the evaporator 61 simultaneously penetrates through the first through holes 6713 of the two brackets 671 to be erected between the two brackets 671; the heating element 63 simultaneously passes through the second through holes 6715 of the two brackets 671 to be bridged between the two brackets 671.

In a preferred embodiment of the present invention, with reference to fig. 5, 6 and 8, the heating component may be a heating pipe or a heating wire, which is disposed between two sets of sub-evaporators (61 a, 61 b). In the specific embodiment of the present invention, the heating member is a heating wire 63, and is arranged in a spiral shape along the arrangement direction thereof; in order to avoid the heating wire 63 from being damaged by external force, the refrigeration apparatus 60 further includes: the protective sleeve 64 is used for protecting the heating wire 63, and the protective sleeve 64 is sleeved outside the heating wire 63. The arrangement mode of the heating wires can be specifically set according to needs, for example: linear, curved, S-shaped, etc.; further, the position of the heating wire 63 can be specifically set according to the arrangement density, height and width of the evaporators, and the heating wire 63 is only required to be ensured to be positioned between the two evaporators (61 a, 61 b). In this embodiment, the heater wires 63 are arranged at the same density or gradually decreased from the two ends of any sub-evaporator (61 a, 61 b) to the middle thereof, which are arranged in the horizontal direction, so that the portions of the evaporator coated on the circumferential side of the heater wires 63 are heated uniformly.

The evaporator is arranged into two groups of sub-evaporators which are communicated with each other and are arranged side by side in the same plane; and the two groups of sub-evaporators are obliquely arranged along opposite directions in the vertical direction perpendicular to the extending direction of the two groups of sub-evaporators, so that the problem of less arrangement of the evaporators in the height direction can be solved, the heat exchange efficiency of the evaporators is improved in the same height interval, and further, compared with the traditional method that the heating component is arranged outside the evaporators, the heating component is arranged between the two groups of sub-evaporators, and the heat dissipation efficiency of the heating component can be improved.

As shown in fig. 4, 5, and 6, the flow guide device 69 includes: a water receiving tray 691 arranged below the evaporator 61 and the heating member 63, and a flow guide pipe 693 arranged between the heating member 63 and the water receiving tray 691.

The material of water collector 691 can specifically set up as required, in this embodiment, the material of water collector is aluminium, and it includes: the first water receiving plate 6911 and the second water receiving plate 6913 are arranged in an intersecting manner, and water receiving holes 6915 are formed in the intersecting position of the first water receiving plate 6911 and the second water receiving plate; first water receiving plate 6911 with second water receiving plate 6913 all extends to the slant top from its crossing to make water receiving hole 6915 be in lower position relatively first water receiving plate 3911 with second water receiving plate 3913. Furthermore, a drainage pipeline 6917 communicated with the outside of the inner container is further arranged at one end of the water receiving hole 6915, which is far away from the evaporator 61, water drops dropping from parts such as the evaporator 61 to the water receiving tray 691 are converged to the water receiving hole 6915 and are discharged through the drainage pipeline 6917; further, the drainage pipeline with still set up sealing washer 6916 between the water receiving hole 6915 to prevent that the water droplet of water receiving hole 6915 and drainage pipeline 6917 department from revealing.

In a preferred embodiment of the present invention, as shown in fig. 6 and 8, the flow guide tube 693 is used for guiding heat generated by the heating wires 63 to the water receiving hole 6915, so as to prevent the water receiving hole 6915 from freezing after water drops are collected; one end of the flow guide pipe 693 is fixed on the heating part 63, and the other end extends into the water receiving hole 6915; further, the middle part of the flow guide pipe 693 is fixed on the evaporator 61 to fix the position of the evaporator 61 relative to the heating component 63; in this embodiment, the flow guide tube 693 includes: a first connection part 6931 installed on the heating part 63, a second connection part 6933 extending from the first connection part 6931 and installed on the evaporator 61, and a third connection part 6935 extending from the second connection part 6933 into the water receiving hole 6915; the first connecting part 6931 and the second connecting part 6933 respectively form a first opening 69311 and a second opening 69331 facing the direction of the water receiving tray, so that the first opening 69311 and the second opening 69331 are respectively engaged and clamped with the heating component 63 and the evaporator 61; the first and

second connection parts

6931 and 6933 form a third opening 69321 opposite to the opening direction of the first and

second openings

69311 and 69331. Further, the flow guide tube 693 further includes a reinforcing ring 6937, and the reinforcing ring 6937 is sleeved on the second connecting portion 6933 to seal the second opening 69331, so as to prevent the flow guide tube 693 from falling off accidentally.

According to the refrigerator, the guide pipe is arranged between the heating part and the water receiving disc, so that the positions of the heating part and the evaporator can be further fixed, and the heating part and the evaporator are prevented from suddenly changing positions to reduce the energy consumption of the refrigerator; simultaneously, the distance between assurance heater block and inner bag, the evaporimeter that can furthest does benefit to and promotes the defrosting efficiency, and is further, will through the honeycomb duct the heat that the heater block produced is guided to the water receiving hole of water collector, can avoid freezing after the water receiving hole assembles the drop of water, blocks up the water conservancy diversion passageway.

The air duct assembly includes: the air duct is communicated with the evaporator chamber 50 and the refrigerating chamber, and the fan is arranged in the evaporator chamber 50 and corresponds to the air duct; the fan is horizontally arranged in the evaporator chamber 50, is arranged right above the evaporator 61, and is used for guiding cold air generated by the evaporator 61 into the air channel through an inlet of the air channel.

In a specific embodiment of the present invention, as shown in fig. 4, 5, and 6, the air duct includes: and a refrigerating air inlet duct 653 communicating the evaporator chamber 50 with the refrigerating chamber 10, the fan including a refrigerating fan 651a, the refrigerating fan 651a being horizontally disposed at an air duct inlet 6531 of the refrigerating air inlet duct 653, an axis formed by the refrigerating fan 651a being coaxial with an axis formed by an air duct inlet 6531 of the refrigerating air inlet duct 653, so that the refrigerating fan 651a can directly guide cold air generated by the evaporator 61 into the refrigerating air inlet duct 653 through the air duct inlet 6531. In this embodiment, the refrigerating air inlet duct 653 is a tower-type duct, and includes two refrigerating sub-ducts (653 a, 653 b) sharing the channel inlet 6531 and having air outlets, respectively, and dampers may be selectively disposed on the two refrigerating sub-ducts (653 a, 653 b) to control opening or closing of the refrigerating sub-duct 653.

In order to realize the cool air circulation, as shown in fig. 1 and 2, the air duct assembly further includes: a refrigerating return air opening 655 for guiding cold air from the refrigerating compartment 10 to the evaporator compartment 50, said refrigerating return air opening 655 being provided on said extension plate 33.

In an embodiment of the present invention, as shown in fig. 3, the air duct assembly further includes: a variable-temperature air inlet 657 for guiding the cold air from the evaporator chamber 50 to the variable-temperature chamber 40, and a variable-temperature air return inlet 659 for guiding the cold air from the variable-temperature chamber 40 to the evaporator chamber 50, wherein both the variable-temperature air inlet 657 and the variable-temperature air return inlet 659 are opened on the front panel 21. In an implementation manner of the present invention, the variable temperature air inlet 657 of the variable temperature chamber 40 shares the refrigeration fan 651 a; in a preferred embodiment of the present invention, in order to achieve a better cooling effect, the air duct further includes: the variable temperature fan 651b is disposed corresponding to the variable temperature air inlet 657 and horizontally disposed in the variable temperature air inlet 657.

Preferably, the refrigerating fan 651a and the temperature varying fan 651b are both centrifugal fans.

The centrifugal fan is transversely arranged in the evaporator chamber, so that the arrangement space of the evaporator chamber is more compact, the utilization efficiency of the fan is improved, and the problems of low use efficiency and low space utilization rate of the evaporator under the condition that the height of the evaporation chamber is insufficient are solved.

Although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the present invention.

Claims

1. A refrigerator, comprising: the refrigerator comprises a refrigerator body, a door body matched with the refrigerator body to open the refrigerator body, an inner container arranged in the refrigerator body to form a refrigerating chamber, an air channel panel arranged close to the rear wall of the inner container and forming an evaporator chamber with the inner container, and a refrigerating device partially arranged in the evaporator chamber;

characterized in that the refrigerating device comprises: the evaporator is arranged in the evaporator chamber, the heating part is used for removing condensation on the evaporator, and the air duct assembly is arranged between the evaporator chamber and the refrigerating chamber and used for conveying cold air;

the evaporator includes: the two groups of sub-evaporators are communicated with each other, the bottom ends of the two groups of sub-evaporators are arranged in parallel in the same plane, the two groups of sub-evaporators are obliquely arranged in opposite directions in the vertical direction perpendicular to the extending direction of the two groups of sub-evaporators, and the heating component is arranged between the two groups of sub-evaporators;

the air duct assembly includes: the air duct is communicated with the evaporator chamber and the refrigerating chamber, and the fan is arranged in the evaporator chamber and corresponds to the air duct; the fan is horizontally arranged in the evaporator chamber;

the refrigeration compartment includes: a refrigerated compartment; the refrigerator further includes: a compartment partition horizontally disposed in the refrigerating compartment to partition an independent temperature-changing compartment in the refrigerating compartment; the evaporator chamber is arranged behind the temperature-changing chamber; the compartment divider includes: the evaporator chamber and the refrigerating chamber share the same partition plate; the extension plate, the air duct panel and the inner container form the evaporator chamber.

2. The refrigerator of claim 1, wherein the air duct comprises: the intercommunication the evaporimeter room with the cold-stored air inlet duct of cold-stored room, the fan includes cold-stored fan, cold-stored fan is transversely arranged in along the horizontal direction the wind channel entry of cold-stored air inlet duct, the axis that cold-stored fan formed with the axis that the wind channel entry of cold-stored air inlet duct formed is coaxial.

3. The refrigerator of claim 1, wherein the air duct assembly further comprises: and the refrigerating air return opening is used for guiding cold air from the cold storage chamber to the evaporator chamber and is arranged on the extension plate.

4. The refrigerator of claim 1, wherein the air duct assembly further comprises: the temperature-changing air inlet is used for guiding cold air from the evaporator chamber to the temperature-changing chamber, and the temperature-changing air return inlet is used for guiding the cold air from the temperature-changing chamber to the evaporator chamber, and the temperature-changing air inlet and the temperature-changing air return inlet are both arranged on the air duct panel.

5. The refrigerator of claim 4, wherein the blower fan further comprises: and the variable temperature fan is transversely arranged at the variable temperature air inlet along the horizontal direction.

6. The refrigerator of claim 1, wherein the two sub-evaporators are identical in structure and are symmetrically disposed.

7. The refrigerator of claim 1, wherein the fan is a centrifugal fan.

8. The refrigerator of claim 1, wherein the air duct assembly further comprises: and the air door is arranged corresponding to the air duct and used for controlling the opening and closing of the air duct.