HINGE ASSEMBLY WITH BAFFLE AND REFRIGERATOR HAVING THE SAME

Abstract

The present invention discloses a hinge assembly with a baffle and a refrigerator having the same. The hinge assembly includes a first hinge part, a second hinge part and the baffle, a driving groove is provided in the first hinge part, a driving shaft is provided on the second hinge part, the baffle includes a pivoting portion, a shielding portion and an opening, the baffle is pivotally connected with the first hinge part by the pivoting portion, the driving shaft penetrates through the opening to move in the driving groove, and the driving shaft drives the baffle to rotate around the pivoting portion, such that the shielding portion shields at least part of the driving groove. In the present invention, the driving groove is shielded by the baffle, thus preventing dust, foreign matter, or the like, from entering the driving groove of the hinge assembly.

Description

The present application claims priority to Chinese Patent Application No. 201910665950.9, entitled “Hinge Assembly with Baffle and Refrigerator Having the Same”, filed on Jul. 23, 2019, and Chinese Patent Application No. 201910665942.4, entitled “Refrigerator with Baffle”, filed on Jul. 23, 2019, the disclosures of which are incorporated herein by reference in their entirety.

TECHNICAL FIELD

The present invention relates to the field of household appliance technologies, and in particular, to a hinge assembly with a baffle and a refrigerator having the same.

BACKGROUND

Generally, a refrigerator is opened and closed by a hinge assembly, the hinge assembly includes a driving shaft and a driving groove which are fitted with each other, the driving groove is provided with an opening, and external dust, impurities, or the like, tend to enter the driving groove through the opening.

SUMMARY

An object of the present invention is to provide a hinge assembly with a baffle and a refrigerator having the same, which may prevent dust, foreign matter, or the like, from entering the hinge assembly.

In order to achieve one of the above objects of the present invention, an embodiment of the present invention provides a hinge assembly with a baffle, comprising a first hinge part, a second hinge part and the baffle, wherein the first hinge part, the second hinge part and the baffle are fitted with one another, a driving groove is provided in the first hinge part, a driving shaft is provided on the second hinge part, the baffle comprises a pivoting portion, a shielding portion and an opening, the baffle is pivotally connected with the first hinge part by the pivoting portion, the driving shaft penetrates through the opening to move in the driving groove, and the driving shaft drives the baffle to rotate around the pivoting portion, such that the shielding portion shields at least part of the driving groove.

As a further improvement of an embodiment of the present invention, the driving groove has a first end and a second end opposite to each other, and when the driving shaft moves from the first end to the second end, an overlapped area between the shielding portion and the driving groove tends to be increased.

As a further improvement of an embodiment of the present invention, the opening has a long bar shape, and when the driving shaft moves in the driving groove, a distance between centers of the driving shaft and the pivoting portion tends to be changed.

As a further improvement of an embodiment of the present invention, the opening comprises a first position and a second position opposite to each other, and when moving from the first end to the second end, the driving shaft moves from the first position to the second position, and then from the second position to the first position.

As a further improvement of an embodiment of the present invention, the hinge assembly further comprises a positioning shaft and a positioning groove fitted with each other, the positioning shaft is provided on one of the first hinge part and the second hinge part, the positioning groove is provided in the other of the first hinge part and the second hinge part, and the positioning shaft is located outside the baffle.

As a further improvement of an embodiment of the present invention, the positioning groove is provided in the first hinge part, and the positioning shaft is provided on the second hinge part.

As a further improvement of an embodiment of the present invention, the shielding portion comprises a recess; when the driving shaft moves from the first end to the second end, the shielding portion shields part of the positioning groove, and when the driving shaft is located at the second end, the recess escapes the positioning groove, such that the shielding portion is separated from the positioning groove.

In order to achieve one of the above objects of the present invention, an embodiment of the present invention provides a refrigerator, comprising a cabinet, a door and the hinge assembly with a baffle according to any one of the above technical solutions, the first hinge part is connected with the door, the second hinge part is connected with the cabinet, the door further comprises a door trim and a supporting portion, and the supporting portion is provided between the first hinge part and the door trim, such that an accommodating cavity is formed between the first hinge part and the door trim, and the driving shaft drives the baffle to move in the accommodating cavity.

As a further improvement of an embodiment of the present invention, the supporting portions are configured as a plurality of pillars provided on the first hinge part.

As a further improvement of an embodiment of the present invention, the door trim comprises a through hole, and the driving shaft penetrates through the through hole and the opening sequentially, so as to move in the driving groove.

In order to achieve one of the above objects of the present invention, an embodiment of the present invention provides a refrigerator, comprising a cabinet, a door for opening and closing the cabinet, and a hinge assembly for connecting the cabinet and the door, the hinge assembly is the hinge assembly according to any one of the above technical solutions, and the cabinet comprises an accommodating chamber and a pivoting side connected with the hinge assembly; when the door is opened, the driving shaft moves in the driving groove to drive the door to move from the pivoting side to the accommodating chamber, and the driving shaft drives the baffle to rotate around the pivoting portion, such that the shielding portion shields at least part of the driving groove.

As a further improvement of an embodiment of the present invention, the first hinge part comprises the positioning groove, the second hinge part comprises the positioning shaft, and the positioning groove comprises an initial position and a first stop position; when the door is in the closed state, the positioning shaft is located at the initial position, and the driving shaft is located at the first end, and when the door is opened, the driving shaft moves in the driving groove to drive the positioning shaft to move from the initial position to the first stop position.

As a further improvement of an embodiment of the present invention, the driving groove comprises a first section and a second section connected between the first end and the second end; when the door is opened from the closed state to a first opening angle, the positioning shaft is kept at the initial position, and the driving shaft moves in the first section around the positioning shaft, and when the door is continuously opened from the first opening angle to a second opening angle, the driving shaft moves in the second section to drive the positioning shaft to move from the initial position to the first stop position.

As a further improvement of an embodiment of the present invention, the door is provided with a first fitting portion, the cabinet is provided with a second fitting portion, the first fitting portion and the second fitting portion are engaged with each other when the door is in the closed state, and when the door is opened from the closed state to the first opening angle, the driving shaft moves in the first section around the positioning shaft to drive the first fitting portion to be disengaged from the second fitting portion.

As a further improvement of an embodiment of the present invention, the door comprises a first door and a second door, the first door and the second door are pivotally connected with the cabinet and arranged side by side in a horizontal direction, the refrigerator further comprises a vertical beam movably connected to a side of the first door close to the second door, the first fitting portion is provided at the vertical beam, and when the door is in the closed state, the vertical beam extends to the second door; when the door is opened from the closed state to the first opening angle, the vertical beam rotates towards a side close to the accommodating chamber, such that a first folding angle is formed between the first door and the vertical beam, and when the door is continuously opened from the first opening angle to the second opening angle, the vertical beam and the first door are kept relatively static.

As a further improvement of an embodiment of the present invention, the opening has a long bar shape, the opening comprises a first position and a second position opposite to each other, and the first position is located farther from the pivoting portion than the second position; when the door is in the closed state, the first position coincides with the first end, and the opening exposes the first section; when the door is opened from the closed state to the first opening angle, the driving shaft moves in the first section, and the baffle is kept stationary; when the door is continuously opened from the first opening angle to the second opening angle, the driving shaft moves in the second section, and meanwhile, the driving shaft moves from the first position to the second position to drive the baffle to rotate.

As a further improvement of an embodiment of the present invention, the positioning groove further comprises a second stop position located on a side of the initial position apart from the first stop position, and the driving groove further comprises a third section and a fourth section located between the second section and the second end; when the door is continuously opened from the second opening angle to a third opening angle, the driving shaft moves in the third section to drive the positioning shaft to move from the first stop position to the second stop position, and when the door is continuously opened from the third opening angle to a maximum opening angle, the positioning shaft is kept at the second stop position, and the driving shaft moves in the fourth section around the positioning shaft.

Compared with a prior art, the present invention has the following beneficial effects: in an embodiment of the present invention, a driving groove is shielded by the baffle, thus preventing the dust, the foreign matter, or the like, from entering the driving groove of the hinge assembly, and improving attractiveness of the hinge assembly.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a hinge assembly according to an embodiment of the present invention;

FIG. 2 is an exploded view of a hinge assembly according to an embodiment of the present invention;

FIGS. 3 to 5 are schematic diagrams of a baffle at different positions according to an embodiment of the present invention;

FIG. 6 is a partial exploded view of a refrigerator according to an embodiment of the present invention;

FIG. 7 is a perspective view of a refrigerator according to an embodiment of the present invention;

FIG. 8 is a schematic diagram in which a refrigerator is in a closed state according to an embodiment of the present invention;

FIG. 9 is a schematic diagram in which a refrigerator is opened to a first opening angle according to an embodiment of the present invention;

FIG. 10 is a schematic diagram in which a refrigerator is opened to a second opening angle according to an embodiment of the present invention;

FIG. 11 is a schematic diagram in which a refrigerator is opened to a third opening angle according to an embodiment of the present invention;

FIG. 12 is a schematic diagram in which a refrigerator is opened to a maximum opening angle according to an embodiment of the present invention;

FIG. 13 is an overall schematic diagram of a refrigerator in another specific example of the present invention;

FIG. 14 is a schematic diagram of a refrigerator in another specific example of the present invention with a part omitted;

FIG. 15 is a rear view of a refrigerator according to an embodiment of the present invention (with partial elements omitted);

FIG. 16 is an exploded view of a first fitting portion and a second fitting portion according to an embodiment of the present invention;

FIG. 17 is a schematic diagram of a first hinge assembly according to an embodiment of the present invention;

FIG. 18 is a schematic diagram of a second hinge assembly according to an embodiment of the present invention;

FIG. 19 is a schematic diagram of a third hinge assembly according to an embodiment of the present invention;

FIG. 20 is an exploded view of a first hinge assembly according to an embodiment of the present invention;

FIG. 21 is a top view in which a refrigerator is in a closed state according to an embodiment of the present invention;

FIG. 22 is a perspective view of a hinge assembly in FIG. 21;

FIG. 23 is a top view in which a refrigerator is opened to a first opening angle according to an embodiment of the present invention;

FIG. 24 is a perspective view of a hinge assembly in FIG. 23;

FIG. 25 is a top view in which a refrigerator is opened to a second opening angle according to an embodiment of the present invention;

FIG. 26 is a perspective view of a hinge assembly in FIG. 25;

FIG. 27 is a top view in which a refrigerator is opened to a third opening angle according to an embodiment of the present invention;

FIG. 28 is a perspective view of a hinge assembly in FIG. 27;

FIG. 29 is a top view in which a refrigerator is opened to a maximum opening angle according to an embodiment of the present invention; and

FIG. 30 is a perspective view of a hinge assembly in FIG. 29.

DETAILED DESCRIPTION

Hereinafter, the present invention will be described in detail in conjunction with specific embodiments shown in the accompanying drawings. However, these embodiments have no limitations on the present invention, and any transformations of structure, method, or function made by persons skilled in the art according to these embodiments fall within the protection scope of the present invention.

In drawings of the invention, some of the dimensions of the structure or portion may be enlarged relative to those of other structures or portions for ease of illustration and thus are merely used to illustrate the basic structure of the subject matter of the present invention.

In addition, the terms expressive of spatial relative positions, such as “upper”, “above”, “lower”, “below”, “left”, “right”, or the like herein are used to describe the relationship of a unit or feature relative to another unit or feature in the drawings, for the purpose of illustration and description. Terms expressive of the spatial relative positions are intended to include different orientations of the device in use or operation other than the orientations shown in the drawings. For example, if the device in the drawings is turned over, the units which are described to be located “below” or “under” other units or features are “above” other units or features. Therefore, the exemplary term “below” may include both the “above” and “below” orientations. The device may be oriented (rotated by 90 degrees or other orientations) in other ways, correspondingly explaining the expressions related to the space herein.

FIGS. 1 to 5 are schematic diagrams of a hinge assembly 30 with a baffle 60 according to an embodiment of the present invention.

The hinge assembly 30 includes a first hinge part 32, a second hinge part 31, and a baffle 60, which are fitted with one another.

The first hinge part 32 is provided with a driving groove 322, and the second hinge part 31 is provided with a driving shaft 312.

The baffle 60 is generally triangular, and the baffle 60 includes a pivoting portion 61, a shielding portion 62, and an opening 63.

The baffle 60 is pivotally connected with the first hinge part 32 by the pivoting portion 61, the driving shaft 312 penetrates through the opening 63 to move in the driving groove 322, and the driving shaft 312 drives the baffle 60 to rotate around the pivoting portion 61, such that the shielding portion 62 shields at least part of the driving groove 322.

Here, the driving groove 322 is shielded by the baffle 60, thus preventing dust, foreign matter, or the like, from entering the driving groove of the hinge assembly 30, and improving attractiveness of the hinge assembly 30.

In addition, the driving shaft 312 is required to move in the driving groove 322, and the driving shaft 312 in the present embodiment may drive the baffle 60 to rotate to shield the driving groove 322 while moving, thus realizing a simple structure, and lowering a process difficulty.

In the present embodiment, the driving groove 322 has a first end 3221 and a second end 3222 opposite to each other, and when the driving shaft 312 moves from the first end 3221 to the second end 3222, an overlapped area between the shielding portion 62 and the driving groove 322 tends to be increased.

That is, as the driving shaft 312 moves from the first end 3221 to the second end 3222, the shielding portion 62 gradually shields the driving groove 322, and when the driving shaft 312 moves to the second end 3222, the shielding portion 62 has a greatest shielding area for the driving groove 322.

In the present embodiment, the opening 63 has a long bar shape, and when the driving shaft 312 moves in the driving groove 322, a distance between centers of the driving shaft 312 and the pivoting portion 61 tends to be changed.

As such, the baffle 60 may be prevented from obstructing a movement locus of the driving shaft 312.

Specifically, the opening 63 includes a first position 631 and a second position 632 opposite to each other, and the first position 631 is located farther from the pivoting portion 61 than the second position 632.

When moving from the first end 3221 to the second end 3222, the driving shaft 312 moves from the first position 631 to the second position 632, and then from the second position 632 to the first position 631.

Here, when located at the first end 3221, the driving shaft 312 corresponds to the first position 631 of the opening 63, when moving from the first end 3221 to the second end 3222, the driving shaft 312 correspondingly moves from the first position 631 to the second position 632 of the opening 63, and then from the second position 632 to the first position 631, and when located at the second end 3222, the driving shaft 312 corresponds to the second position 632 of the opening 63; at this point, when the driving shaft 312 is located at the first end 3221 and the second end 3222, equal distances exist between the centers of the driving shaft 312 and the pivoting portion 61.

In the present embodiment, the hinge assembly 30 further includes a positioning shaft 311 and a positioning groove 321 which are fitted with each other, the positioning shaft 311 is provided on one of the first hinge part 32 and the second hinge part 31, the positioning groove 321 is provided in the other of the first hinge part 32 and the second hinge part 31, and the positioning shaft 311 is located outside the baffle 60.

Here, for example, the positioning groove 321 is provided in the first hinge part 32, and the positioning shaft 311 is provided on the second hinge part 31.

That is, the first hinge part 32 is provided with the positioning groove 321 and the driving groove 322 which are spaced apart from each other, the second hinge part 31 is provided with the positioning shaft 311 and the driving shaft 312 which are spaced part from each other, the baffle 60 is pivotally connected with the first hinge part 32, the driving shaft 312 penetrates through the opening 63 of the baffle 60 to move in the driving groove 322, and the positioning shaft 311 moves in the positioning groove 321.

The shielding portion 62 of the baffle 60 includes a recess 621.

When the driving shaft 312 moves from the first end 3221 to the second end 3222, the shielding portion 62 shields part of the driving groove 322 and part of the positioning groove 321, and a rotation process of the baffle 60 does not interfere with a movement process of the positioning shaft 311.

When the driving shaft 312 is located at the second end 3222, the recess 621 escapes the positioning groove 321, such that the shielding portion 62 is separated from the positioning groove 321.

Here, when the driving shaft 312 is located at the second end 3222, the positioning shaft 311 is located at an end of the positioning groove 321 close to the driving groove 322, and the recess 621 actually escapes the positioning shaft 311.

It should be noted that a structure of the hinge assembly 30 according to the present embodiment is not limited to the above description; for example, the hinge assembly 30 may only include the driving shaft 312 and the driving groove 322 and not include the positioning shaft 311 and the positioning groove 321.

With reference to FIGS. 6 and 7, an embodiment of the present invention further provides a refrigerator which includes a cabinet 10, a door 20, and a hinge assembly 30.

A first hinge part 32 is connected with the door 20, and a second hinge part 31 is connected with the cabinet 10.

The door 20 includes a door body 20a, a door trim 205 provided above or below the door body 20a, and a support portion 206.

The supporting portion 206 is provided between the first hinge part 32 and the door trim 205, such that an accommodating cavity is formed between the first hinge part 32 and the door trim 205, and a driving shaft 312 drives a baffle 60 to move in the accommodating cavity S1.

Specifically, the door trim 205 is provided with a chamber S2, the first hinge part 32 is fixed in the chamber S2, a cover plate 2051 is provided on a side of the door trim 205 apart from the first hinge part 32, the cover plate 2051 is provided with a through hole 2052 having a shape matched with shapes of a driving groove 322 and a positioning groove 321, and the driving shaft 312 and a positioning shaft 311 on a second hinge part 31 penetrate through the through hole 2052 on the door trim 205 to be fitted with the driving groove 322 and the positioning groove 321 respectively.

In addition, the supporting portions 206 are configured as a plurality of pillars 206 provided on the first hinge part 32, an end of the pillar 206 apart from the first hinge part 32 abuts against the cover plate 2051 to form the accommodating cavity, the baffle 60 is located in the accommodating cavity, and the driving shaft 312 substantially penetrates through the through hole 2052 and an opening 63 sequentially, so as to move in the driving groove 322.

Here, although the first hinge part 32 is located in the chamber S2, the cover plate 2051 of the chamber S2 is provided with the through hole 2052, dust, foreign matter, or the like, may enter the driving groove 322 and the positioning groove 321 through the through hole 2052, and in the present embodiment, the baffle 60 is provided to effectively prevent the dust, the foreign matter, or the like, from entering the driving groove 322.

Moreover, under the supporting action of the pillar 206, rotation of the baffle 60 is not impeded.

It may be understood that by properly positioning the pillar 206, the pillar 206 does not affect a rotation process of the baffle 60.

FIGS. 6 to 12 are schematic diagrams of a refrigerator 100 with a baffle 60 according to another embodiment of the present invention.

The refrigerator 100 includes a cabinet 10, a door 20 for opening and closing the cabinet 10, and a hinge assembly 30 for connecting the cabinet 10 and the door 20.

The cabinet 10 includes an accommodating chamber S and a pivoting side P connected with the hinge assembly 30.

Here, the “pivoting side P” is defined as a region where the door 20 is rotated relative to the cabinet 10, i.e., a region where the hinge assembly 30 is provided, a direction from the pivoting side P to the accommodating chamber S is defined as a first direction X, and a direction from the accommodating chamber S to the pivoting side P is defined as a second direction Y.

Specifically, when the hinge assemblies 30 are provided on both left and right sides of the refrigerator 100, the cabinet 10 includes a left pivoting side P1 and a right pivoting side P2; when the left pivoting side P1 serves as the pivoting side P, the first direction X is from left to right, and the second direction Y is from right to left, and when the right pivoting side P2 serves as the pivoting side P, the first direction X is from right to left, and the second direction Y is from left to right; that is, actual directions of the first direction X and the second direction Y are different corresponding to different pivoting sides P, and for example, the left pivoting side P1 serves as the pivoting side P in the following description.

The hinge assembly 30 includes a first hinge part 32 and a second hinge part 31 which are fitted with each other, the first hinge part 32 is provided with a driving groove 322, and the second hinge part 31 is provided with a driving shaft 312.

The baffle 60 includes a pivoting portion 61, a shielding portion 62, and an opening 63.

The baffle 60 is pivotally connected with the first hinge part 32 by the pivoting portion 61, and the driving shaft 312 penetrates through the opening 63 to be provided in the driving groove 322.

In an opening process of the door 20, the driving shaft 312 moves in the driving groove 322 to drive the door 20 to move from the pivoting side P towards the accommodating chamber S, and the driving shaft 312 drives the baffle 60 to rotate around the pivoting portion 61, such that the shielding portion 62 shields at least part of the driving groove 322.

Here, in the opening process of the door 20, the door 20 moves towards a side of the accommodating chamber S; that is, at this point, the door 20 rotates relative to the cabinet 10 and is displaced relative to the cabinet 10 in the first direction X, thus greatly reducing a distance by which the door 20 protrudes out of the cabinet 10 towards a side apart from the accommodating chamber S in the rotation process; that is, the displacement of the door 20 in the first direction X counteracts a part of the door 20 protruding out of the cabinet 10 in the second direction Y in the rotation process, thereby preventing the door 20 from interfering with a peripheral cupboard or wall, or the like, in the opening process; the refrigerator is suitable for an embedded cupboard or a scenario with a small space for accommodating the refrigerator 100.

Moreover, in the present embodiment, the arrangement of the baffle 60 may effectively prevent dust, foreign matter, or the like, from entering the driving groove 322 of the hinge assembly 30.

For other descriptions of the baffle 60, reference may be made to the description of the previously described hinge assembly 30, which is not repeated herein.

In the present embodiment, referring to FIG. 9, when the door 20 is opened to a first opening angle α1 from a closed state, the hinge assembly 30 drives the door 20 to rotate in situ relative to the cabinet 10.

Here, when opened to the first opening angle α1 from the closed state, the door 20 rotates in situ relative to the cabinet 10; that is, the door 20 only rotates without generating displacement in other directions, thus effectively avoiding that the door 20 is unable to be normally opened due to displacement in a certain direction of the door 20; specific reference may be made to descriptions of the following specific examples.

Referring to FIG. 10, when the door 20 is continuously opened to a second opening angle α2 from the first opening angle α1, the hinge assembly 30 drives the door 20 to move from the pivoting side P towards the accommodating chamber S.

Here, when the door 20 is continuously opened to the second opening angle α2 from the first opening angle α1, the door 20 moves towards the side of the accommodating chamber S; that is, at this point, the door 20 rotates relative to the cabinet 10 and is displaced relative to the cabinet 10 in the first direction X, thus greatly reducing the distance by which the door 20 protrudes out of the cabinet 10 towards the side apart from the accommodating chamber S in the rotation process; that is, the displacement of the door 20 in the first direction X counteracts the part of the door 20 protruding out of the cabinet 10 in the second direction Y in the rotation process, thereby preventing the door 20 from interfering with the peripheral cupboard or wall, or the like, in the opening process; the refrigerator is suitable for the embedded cupboard or the scenario with a small space for accommodating the refrigerator 100.

Referring to FIG. 11, when the door 20 is continuously opened to a third opening angle α3 from the second opening angle α2, the hinge assembly 30 drives the door 20 to move from the accommodating chamber S towards the pivoting side P.

Here, when continuously opened to the third opening angle α3 from the second opening angle α2, the door 20 moves towards a side of the pivoting side P; that is, at this point, the door 20 rotates relative to the cabinet 10 and is displaced in the second direction Y relative to the cabinet 10, such that the door 20 may be as far away from the cabinet 10 as possible, thus guaranteeing an opening degree of the cabinet 10, and avoiding a problem that drawers, racks, or the like, in the cabinet 10 are unable to be opened due to interference of the door 20.

Referring to FIG. 12, when the door 20 is continuously opened to a maximum opening angle α4 from the third opening angle α3, the hinge assembly 30 drives the door 20 to rotate in situ relative to the cabinet 10.

With continued reference to FIGS. 6 to 12, in a specific example of the present invention, the door 20 is provided with a first fitting portion 21, and the cabinet 10 is provided with a second fitting portion 11.

Referring to FIG. 8, when the door 20 is in the closed state, the first fitting portion 21 and the second fitting portion 11 are engaged with each other.

Here, the first fitting portion 21 and the second fitting portion 11 are engaged with each other to close the door 20 and the cabinet 10, and specific forms of the first fitting portion 21 and the second fitting portion 11 may be determined according to actual situations.

Referring to FIG. 9, when the door 20 is opened to the first opening angle α1 from the closed state, the hinge assembly 30 drives the door 20 to rotate in situ relative to the cabinet 10, so as to drive the first fitting portion 21 to be disengaged from the second fitting portion 11.

Here, when opened to the first opening angle α1 from the closed state, the door 20 rotates in situ relative to the cabinet 10; that is, the door 20 only rotates without generating displacement in other directions, thus effectively avoiding that the first fitting portion 21 is unable to be disengaged from the second fitting portion 11 due to the displacement in a certain direction of the door 20.

It should be noted that the refrigerator 100 in this example may be a single-door refrigerator having the first fitting portion 21 and the second fitting portion 11, or a side-by-side refrigerator, a multi-door refrigerator, or the like, having the first fitting portion 21 and the second fitting portion 11.

In other specific examples, the refrigerator 100 may not include the first fitting portion 21 and the second fitting portion 11; with reference to FIGS. 13 and 14, the refrigerator 100 is configured as a side-by-side refrigerator 100′, the refrigerator 100′ includes two compartments distributed at intervals, and the two compartments are spaced apart from each other by a fixed beam 200′; the refrigerator 100′ further includes a first door 201′ and a second door 202′ corresponding to the two compartments respectively, and the first door 201′ and the second door 202′ are provided adjacent to each other; when the refrigerator 100′ is in a closed state, both the first door 201′ and the second door 202′ contact the fixed beam 200′ to achieve a sealing effect, and when the first door 201′ and/or the second door 202′ are/is opened from the closed state to the first opening angle α1, the first door 201′ and/or the second door 202′ rotate(s) in situ relative to the cabinet 10′.

Here, when the first door 201′ is displaced horizontally when opened, the first door 201′ and the second door 202′ are unable to be opened normally due to interference therebetween, but the first door 201′ and the second door 202′ rotate in situ when the refrigerator 100′ in this example is opened, thus effectively avoiding the interference between the adjacent first and second doors 201′, 202′.

Certainly, the type of the refrigerator 100 is not limited to the above-mentioned specific examples, and may be determined according to actual situations.

Referring to FIGS. 15 and 16, the door 20 includes a first door 201 and a second door 202 pivotally connected with the cabinet 10 and arranged side by side in a horizontal direction.

The refrigerator 100 further includes a vertical beam 40 movably connected to a side of the first door 201 close to the second door 202, and the first fitting portion 21 is provided at the vertical beam 40.

Here, the vertical beam 40 is movably connected to a right side of the first door 201, the vertical beam 40 and the first door 201 may be connected by a return spring 41, and the vertical beam 40 rotates relative to the first door 201 around an axis in a vertical direction; in other words, under the action of the return spring 41, the vertical beam 40 may rotate relative to the first door 201 and be kept at a predetermined position.

The first fitting portion 21 is configured as a bump 21 protruding upwards from the vertical beam 40.

The second fitting portion 11 is fixedly provided on the cabinet 10; for example, the second fitting portion 11 is configured as a groove 11 in a base 101, the base 101 is fixedly provided at a top of the accommodating chamber S, a notch 111 is provided in an end of the groove 11, the notch 111 has a forward opening, the bump 21 and the groove 11 are both arc-shaped, and the bump 21 enters or leaves the groove 11 through the notch 111 to achieve mutual limitation and separation of the bump 21 and the groove 11.

Certainly, it may be understood that specific structures of the first and second fitting portions 21, 11 are not limited to the above description; that is, the first fitting portion 21 is not limited to the bump 21 at the vertical beam 40, the second fitting portion 11 is not limited to the groove 11 fitted with the bump 21, and the first and second fitting portions 21, 11 may be configured as structures fitted with each other in other regions of the refrigerator 100.

In the present embodiment, the door 20 further includes a third door 203 and a fourth door 204 pivotally connected to the cabinet 10 and arranged side by side in the horizontal direction, the third door 203 is located below the first door 201, the fourth door 204 is located below the second door 202, and the refrigerator 100 further includes a drawer 50 located below the third door 203 and the fourth door 204.

Here, the accommodating chamber S corresponding to the first door 201 and the second door 202 is configured as a refrigerating chamber; that is, the refrigerating chamber has a side-by-side structure; the third door 203 and the fourth door 204 correspond to two independent variable temperature compartments Si respectively; the drawer 50 is configured as a freezing drawer.

It should be noted that the refrigerator 100 includes a fixed beam fixed inside the cabinet 10 and configured to separate the two variable temperature compartments S1, and the third door 203 and the fourth door 204 may be fitted with the fixed beam to achieve a sealing effect; that is, at this point, no vertical beam is required to be provided at the third door 203 and the fourth door 204.

It may be understood that the refrigerator 100 according to the present embodiment may have other structures, such as a side-by-side refrigerator including only the first door 201 and the second door 202, or the like.

In the present embodiment, the hinge assemblies 30 located at different regions of the door 20 have different structures; for example, a first hinge assembly 30a is located between an upper end of the first door 201 and the cabinet 10, a second hinge assembly 30b is located among a lower end of the first door 201, an upper end of the third door 203 and the cabinet 10, and a third hinge assembly 30c is located between a lower end of the third door 203 and the cabinet 10; the hinge assemblies 30 are symmetrically arranged left and right; that is, for descriptions of the hinge assemblies 30 at the second door 202, reference may be made to the descriptions of the first hinge assembly 30a and the second hinge assembly 30b at the first door 201, and for descriptions of the hinge assemblies 30 at the fourth door 204, reference may be made to the descriptions of the second hinge assembly 30b and the third hinge assembly 30c at the third door 203.

Here, the second hinge assembly 30b is located between the first door 201 and the third door 203; that is, the first door 201 and the third door 203 share the second hinge assembly 30b, and the second hinge assembly 30b may be processed adaptively.

Referring to FIGS. 17 to 19, FIG. 17 is a schematic diagram of the first hinge assembly 30a, FIG. 18 is a schematic diagram of the second hinge assembly 30b, and FIG. 19 is a schematic diagram of the third hinge assembly 30c.

Next, the hinge assembly 30 according to the present embodiment is described by taking the first hinge assembly 30a located between the upper end of the first door 201 and the cabinet 10 as an example, and for the descriptions of the other hinge assemblies, reference may be made to the description of the first hinge assembly 30a.

Referring to FIGS. 20 to 30, the hinge assembly 30 (or the first hinge assembly 30a) further includes a positioning shaft 311 and a positioning groove 321 which are fitted with each other, the positioning shaft 311 is provided on one of the first hinge part 32 and the second hinge part 31, the positioning groove 321 is provided in the other of the first hinge part 32 and the second hinge part 31, and the positioning shaft 311 is located outside the baffle 60.

Here, for example, the positioning groove 321 is provided in the first hinge part 32, and the positioning shaft 311 is provided on the second hinge part 31.

Specifically, the first hinge part 32 is located on the door 20, and the second hinge part 31 is located on the cabinet 10.

The first hinge part 32 includes a first hinge part body 323, as well as the positioning groove 321 and the driving groove 322 recessed in the first hinge part body 323, and the first hinge part body 323 is fixed to the door 20 by a screw 324.

The second hinge part 31 includes a second hinge part body 313, as well as the positioning shaft 311 and the driving shaft 312 protruding out of the second hinge part body 313, and the second hinge part body 313 and the cabinet 10 are fixed to each other.

In the present embodiment, the positioning groove 321 includes an initial position A1 and a first stop position A2; when the door 20 is in the closed state, the positioning shaft 311 is located at the initial position A1, and the driving shaft 312 is located at a first end 3221, and when the door 20 is opened, the driving shaft 312 moves in the driving groove 322 to drive the positioning shaft 311 to move from the initial position A1 to the first stop position A2.

The cabinet 10 includes an outer side surface 12 adjacent to the hinge assembly 30 and on an extension section of a rotation path of the door 20, the door 20 includes a front wall 22 apart from the accommodating chamber S and a side wall 23 always clamped between the front wall 22 and the accommodating chamber S, and a side edge 24 is provided between the front wall 22 and the side wall 23.

Here, the outer side surface 12 is configured as a left side surface (corresponding to the left pivoting side P1) or a right side surface (corresponding to the right pivoting side P2) of the cabinet 10, different pivoting sides P correspond to different outer side surfaces 12, the front wall 22 is configured as a front surface of the door 20, and the side wall 23 is configured as a side surface of the door 20.

The driving groove 322 includes a first section L1 and a second section L2 connected between the first end 3221 and a second end 3222.

Referring to FIGS. 21 and 22, when the door 20 is in the closed state, the first fitting portion 21 and the second fitting portion 11 are engaged with each other; that is, the bump 21 is limited in the groove 11, the first position 631 coincides with the first end 3221, the opening 63 exposes the first section L1, the positioning shaft 311 is located at the initial position A1, and the driving shaft 312 is located at the first end 3221.

Specifically, the bump 21 is limited in the groove 11, such that the vertical beam 40 extends to the second door 202; that is, at this point, the vertical beam 40 is attached to inner side surfaces of the first door 201 and the second door 202, so as to prevent cold air in the accommodating chamber S from leaking to the outside of the refrigerator 100.

In addition, the outer side surface 12 and the side wall 23 are located on a same plane, which may guarantee appearance smoothness, improve attractiveness, and facilitate a mounting process of the door 20, but the present invention is not limited thereto.

Referring to FIGS. 23 and 24, when the door 20 is opened from the closed state to the first opening angle α1, the positioning shaft 311 is kept at the initial position A1, and the driving shaft 312 moves in the first section L1 around the positioning shaft 311, so as to drive the first fitting portion 21 to be disengaged from the second fitting portion 11, and the baffle 60 is kept stationary.

Specifically, the bump 21 is gradually disengaged from the groove 11 through the notch 111, and at the same time, the vertical beam 40 rotates towards a side close to the accommodating chamber S, such that the first door 201 and the vertical beam 40 have a first folding angle β therebetween.

Here, when the bump 21 is completely disengaged from the groove 11, the first folding angle β is preferably kept less than 90 degrees, thus preventing the vertical beam 40 from affecting opening and closing operations of the second door 202.

It should be noted that, since an arc fit exists between the bump 21 and the groove 11, when the door 20 is in the closed state, the bump 21 and the groove 11 are limited in the first direction X or the second direction Y; when the door 20 is displaced in the first direction X or the second direction Y when opened to the first opening angle α1, the bump 21 and the groove 11 may interfere with each other and be jammed, such that the bump 21 is unable to be disengaged from the groove 11, and therefore, the door 20 is unable to be opened.

In the present embodiment, the door 20 rotates in situ relative to the cabinet 10 when the door 20 is opened to the first opening angle α1, thus ensuring that the door 20 is not displaced in the first direction X or the second direction Y in this process, and then ensuring that the bump 21 may be smoothly disengaged from the groove 11.

Here, the first opening angle is not greater than 10° ; that is, the bump 21 may not be restricted by the groove 11 in the process of opening the door 20 to about 10°, and at this point, the bump 21 may be completely disengaged from the groove 11, or the bump 21 may not interfere with the groove 11 even when displaced in the first direction X or the second direction Y

In addition, when the outer side surface 12 and the side wall 23 are located on the same plane when the door 20 is in the closed state, the side edge 24 protrudes out of the outer side surface 12 in the second direction Y in the rotation process (a protruding distance does not exceed 3 mm in general).

With reference to FIGS. 25 and 26, when the door 20 is continuously opened from the first opening angle α1 to the second opening angle α2, the driving shaft 312 moves in the second section L2 to drive the positioning shaft 311 to move from the initial position Al to the first stop position A2, and simultaneously, the driving shaft 312 moves from the first position 3221 to the second position 3222 to drive the baffle 60 to rotate.

Specifically, the vertical beam 40 and the first door 201 are kept relatively static; that is, at this point, the first folding angle β is kept between the vertical beam 40 and the first door 201; at this point, when the first door 201 is closed again, the bump 21 is inserted into the groove 11 through the notch 111 of the groove 11 and moves along an extending track of the groove 11, so as to drive the vertical beam 40 to gradually rotate to a fully unfolded state; that is, at this point, the vertical beam 40 is simultaneously attached to the inner side surfaces of the first door 201 and the second door 202.

In addition, the side edge 24 moves to a side of the outer side surface 12 close to the accommodating chamber S; that is, at this point, the hinge assembly 30 drives the side edge 24 to move towards the side close to the accommodating chamber S, such that interference between the side edge 24 and the peripheral cupboard or wall, or the like, due to the side edge 12 protruding out of the outer side surface 12 may be avoided in the opening process of the door 20.

Here, in order to guarantee the opening degree of the cabinet 10 as much as possible and avoid the problem that the drawers, the racks, or the like, in the cabinet 10 are unable to be opened due to interference of the door 20, the side edge 24 moves towards the side close to the accommodating chamber S into the plane of the outer side surface 12, and then, the hinge assembly 30 drives the side edge 24 to move in the plane and gradually approach the accommodating chamber S.

That is, at this point, on the basis of ensuring that the side edge 24 does not protrude out of the corresponding outer side surface 12, the side edge 24 is made to be as close as possible to the outer side surface 12, thus avoiding the interference between the door 20 and the peripheral cupboard or wall, or the like, in the opening process, and guaranteeing the opening degree of the cabinet 10 as much as possible.

In another embodiment, the positioning groove 321 further includes a second stop position A3 located on a side of the initial position A1 apart from the first stop position A2, and the driving groove 322 further includes a third section L3 and a fourth section L4 located between the second section L2 and the second end 3222.

With reference to FIGS. 27 and 28, when the door 20 is continuously opened from the second opening angle α2 to the third opening angle α3, the driving shaft 312 moves in the third section L3 to drive the positioning shaft 311 to move from the first stop position A2 to the second stop position A3, and at this point, the door 20 moves from the accommodating chamber S towards the pivoting side P, so as to prevent the door 20 from obstructing an opening operation of the drawers, the racks, or the like, in the cabinet 10.

Specifically, the vertical beam 40 and the first door 201 are kept relatively static.

In addition, the side edge 24 moves in the plane of the outer side surface 12 and gradually approaches the accommodating chamber S.

It may be understood that, when the door 20 is continuously opened from the second opening angle α2 to the third opening angle α3, when the door 20 rotates in situ relative to the cabinet 10, the side edge 24 gradually moves towards the side close to the accommodating chamber S, and meanwhile, the door 20 gradually moves close to the accommodating chamber S, and the door 20 may obstruct the opening operation of the drawers, the racks, or the like, in the cabinet 10; that is, the opening degree of the cabinet 10 may be reduced.

The hinge assembly 30 according to the present embodiment drives the side edge 24 to move in the plane of the outer side surface 12; that is, the door 20 may be as far away from the cabinet 10 as possible, thus guaranteeing the opening degree of the cabinet 10, avoiding the problem that the drawers, the racks, or the like, in the cabinet 10 are unable to be opened due to the interference of the door 20, and also preventing the side edge 24 from protruding out of the outer side surface 12 in a direction apart from the accommodating chamber S.

With reference to FIGS. 29 and 30, when the door 20 is continuously opened from the third opening angle α3 to the maximum opening angle α4, the positioning shaft 311 is kept at the second stop position A3, and the driving shaft 312 moves in the fourth section L4 around the positioning shaft 311.

Here, the side edge 24 is always located on the side of the outer side surface 12 close to the accommodating chamber S.

In addition, the second opening angle is not greater than 90°, the third opening angle is 90°, and the maximum opening angle is greater than 90° ; that is, in the process of opening the door 20 to 90°, the door 20 is first displaced in the first direction X to prevent the door 20 from interfering with the peripheral cupboard or wall, or the like, in the opening process, and then, the door 20 is displaced in the second direction Y to prevent the door 20 from obstructing the opening operation of the drawers, the racks, or the like, in the cabinet 10, and finally, after opened to 90°, the door 20 rotates in situ relative to the cabinet 10 to be further opened.

It may be understood that, when the door 20 is opened from the closed state to the first opening angle α1, since the door 20 rotates in situ relative to the cabinet 10, the door 20 slightly protrudes out of the cabinet 10 towards the side (left side) apart from the accommodating chamber S; when the door 20 is continuously opened from the first opening angle α1 to the second opening angle α2, the displacement of the door 20 in the first direction X may counteract the entire part of the door 20 protruding out of the cabinet 10 in the second direction Y during the whole rotation process; then, when the door 20 is continuously opened from the second opening angle α2 to the third opening angle α3, the displacement of the door 20 in the second direction Y may make the door 20 not protrude out of the cabinet 10 and guarantee the opening degree of the cabinet 10 as much as possible.

In other embodiments, the positioning groove 321 further includes a pivoting position A4 located on a side of the second stop position A3 apart from the initial position A1, the driving groove 322 further includes a transition section L located between the third section L3 and the fourth section L4, and a connecting line of the second stop position A3 and the pivoting position A4 is parallel to the transition section L.

The first stop position A2, the initial position A1, and the second stop position A3 are located on a straight line, while the pivoting position A4 is not located on the straight line, and an included angle is formed between the pivoting position A4 and the straight line.

When the door 20 is continuously opened from the third opening angle α3 to the maximum opening angle α4, the driving shaft 312 moves in the transition section L to drive the positioning shaft 311 to move from the second stop position A3 to the pivoting position A4, and then, the positioning shaft 311 is kept at the pivoting position A4, and the driving shaft 312 moves in the fourth section L4 around the positioning shaft 311.

Here, when the door 20 rotates in situ relative to the cabinet 10 to be further opened, when the positioning shaft 311 is kept at the second stop position A3, since a parallel part exists between the fourth section L and a part between the first stop position A2 and the second stop position A3, the door 20 may slide or sway.

In the present embodiment, when the driving shaft 312 moves in the fourth section L4, the positioning shaft 311 is kept at the pivoting position A4 without swaying, thus solving the problem that the door 20 laterally slides or sways.

In the present embodiment, a first connecting line of the center of the positioning shaft 311 at the initial position A1, the center of the positioning shaft 311 at the first stop position A2, and the center of the positioning shaft 311 at the second stop position A3 passes through the side edge 24 of the door 20.

A distance between the center of the positioning shaft 311 at the initial position A1 and the side edge 24 is greater than a distance between the center of the positioning shaft 311 at the first stop position A2 and the side edge 24, and less than a distance between the center of the positioning shaft 311 at the second stop position A3 and the side edge 24.

A distance between the center of the positioning shaft 311 at the initial position A1 and the front wall 22 is greater than a distance between the center of the positioning shaft 311 at the first stop position A2 and the front wall 22, and less than a distance between the center of the positioning shaft 311 at the second stop position A3 and the front wall 22.

A distance between the center of the positioning shaft 311 at the initial position A1 and the side wall 23 is greater than a distance between the center of the positioning shaft 311 at the first stop position A2 and the side wall 23, and less than a distance between the center of the positioning shaft 311 at the second stop position A3 and the side wall 23.

A first distance exists between the center of the positioning shaft 311 and the side edge 24, a second distance exists between the center of the positioning shaft 311 and the front wall 22, a third distance exists between the center of the positioning shaft 311 and the side wall 23, and the first distance, the second distance and the third distance are changed in the opening process of the door 20.

When the door 20 is continuously opened from the first opening angle α1 to the second opening angle α2, the first distance, the second distance and the third distance all decrease, and when the door 20 is continuously opened from the second opening angle α2 to the third opening angle α3, the first distance, the second distance and the third distance all increase, and when the door 20 continuously opened from the third opening angle α3 to the maximum opening angle α4, the first distance, the second distance and the third distance are all kept unchanged.

In summary, in the present invention, the first fitting portion 21 may be guaranteed to be smoothly disengaged from the second fitting portion 11 by the fitting structure of the positioning shaft 311, the positioning groove 321, the driving shaft 312 and the driving groove 322; the inclusion of the vertical beam 40 by the refrigerator 100 may ensure that the bump 21 on the vertical beam 40 is smoothly disengaged from the groove 11 on the cabinet 10 without interference with each other at the initial opening stage of the door 20, and then, the door 20 moves from the pivoting side P towards the accommodating chamber S during the continuous opening process of the door 20, so as to prevent the door 20 from interfering with the peripheral cupboard or wall, or the like, in the opening process, and the refrigerator is suitable for the embedded cupboard or the scenario with a small space for accommodating the refrigerator 100; in addition, when the opening angle of the door 20 is greater, the door 20 moves from the accommodating chamber S towards the pivoting side P to prevent the door 20 from obstructing the opening operation of the drawers, the racks, or the like, in the cabinet 10, and the baffle 60 in the present invention may prevent the dust, impurities, or the like, from entering the driving groove 322.

The above embodiments are merely used for explaining the technical solution of the present invention and not limiting. Although the present invention has been described in detail with reference to preferable embodiments, for example, when technologies in different embodiments may be used in conjunction with each other to achieve corresponding effects at the same time, the solutions thereof also fall within a protection scope of the present invention. A person skilled in the art shall understand that various modifications or equivalent substitutions may be made to the technical solution of the present invention without departing from the spirit and scope of the technical solution of the present invention.

Claims

1. A hinge assembly with a baffle, comprising a first hinge part, a second hinge part and the baffle, wherein the first hinge part, the second hinge part and the baffle are fitted with one another, a driving groove is provided in the first hinge part, a driving shaft is provided on the second hinge part, the baffle comprises a pivoting portion, a shielding portion and an opening, the baffle is pivotally connected with the first hinge part by the pivoting portion, the driving shaft penetrates through the opening to move in the driving groove, and the driving shaft drives the baffle to rotate around the pivoting portion, such that the shielding portion shields at least part of the driving groove.

2. The hinge assembly with a baffle according to claim 1, wherein the driving groove has a first end and a second end opposite to each other, and when the driving shaft moves from the first end to the second end, an overlapped area between the shielding portion and the driving groove tends to be increased.

3. The hinge assembly with a baffle according to claim 2, wherein the opening has a long bar shape, and when the driving shaft moves in the driving groove, a distance between centers of the driving shaft and the pivoting portion tends to be changed.

4. The hinge assembly with a baffle according to claim 3, wherein the opening comprises a first position and a second position opposite to each other, and when moving from the first end to the second end, the driving shaft moves from the first position to the second position, and then from the second position to the first position.

5. The hinge assembly with a baffle according to claim 2, wherein the hinge assembly further comprises a positioning shaft and a positioning groove fitted with each other, the positioning shaft is provided on one of the first hinge part and the second hinge part, the positioning groove is provided in the other of the first hinge part and the second hinge part, and the positioning shaft is located outside the baffle.

6. The hinge assembly with a baffle according to claim 5, wherein the positioning groove is provided in the first hinge part, and the positioning shaft is provided on the second hinge part.

7. The hinge assembly with a baffle according to claim 6, wherein the shielding portion comprises a recess; when the driving shaft moves from the first end to the second end, the shielding portion shields part of the positioning groove, and when the driving shaft is located at the second end, the recess escapes the positioning groove, such that the shielding portion is separated from the positioning groove.

8. A refrigerator, comprising a cabinet, a door and the hinge assembly with a baffle according to claim 1, wherein the first hinge part is connected with the door, the second hinge part is connected with the cabinet, the door further comprises a door trim and a supporting portion, and the supporting portion is provided between the first hinge part and the door trim, such that an accommodating cavity is formed between the first hinge part and the door trim, and the driving shaft drives the baffle to move in the accommodating cavity.

9. The refrigerator according to claim 8, wherein the supporting portions are configured as a plurality of pillars provided on the first hinge part.

10. The refrigerator according to claim 8, wherein the door trim comprises a through hole, and the driving shaft penetrates through the through hole and the opening sequentially, so as to move in the driving groove.

11. A refrigerator, comprising a cabinet, a door for opening and closing the cabinet, and a hinge assembly for connecting the cabinet and the door, wherein the hinge assembly is the hinge assembly according to claim 2, and the cabinet comprises an accommodating chamber and a pivoting side connected with the hinge assembly; when the door is opened, the driving shaft moves in the driving groove to drive the door to move from the pivoting side to the accommodating chamber, and the driving shaft drives the baffle to rotate around the pivoting portion, such that the shielding portion shields at least part of the driving groove.

12. The refrigerator according to claim 11, wherein the first hinge part comprises the positioning groove, the second hinge part comprises the positioning shaft, and the positioning groove comprises an initial position and a first stop position; when the door is in the closed state, the positioning shaft is located at the initial position, and the driving shaft is located at the first end, and when the door is opened, the driving shaft moves in the driving groove to drive the positioning shaft to move from the initial position to the first stop position.

13. The refrigerator according to claim 12, wherein the driving groove comprises a first section and a second section connected between the first end and the second end; when the door is opened from the closed state to a first opening angle, the positioning shaft is kept at the initial position, and the driving shaft moves in the first section around the positioning shaft, and when the door is continuously opened from the first opening angle to a second opening angle, the driving shaft moves in the second section to drive the positioning shaft to move from the initial position to the first stop position.

14. The refrigerator according to claim 13, wherein the door is provided with a first fitting portion, the cabinet is provided with a second fitting portion, the first fitting portion and the second fitting portion are engaged with each other when the door is in the closed state, and when the door is opened from the closed state to the first opening angle, the driving shaft moves in the first section around the positioning shaft to drive the first fitting portion to be disengaged from the second fitting portion.

15. The refrigerator according to claim 14, wherein the door comprises a first door and a second door, the first door and the second door are pivotally connected with the cabinet and arranged side by side in a horizontal direction, the refrigerator further comprises a vertical beam movably connected to a side of the first door close to the second door, the first fitting portion is provided at the vertical beam, and when the door is in the closed state, the vertical beam extends to the second door; when the door is opened from the closed state to the first opening angle, the vertical beam rotates towards a side close to the accommodating chamber, such that a first folding angle is formed between the first door and the vertical beam, and when the door is continuously opened from the first opening angle to the second opening angle, the vertical beam and the first door are kept relatively static.

16. The refrigerator according to claim 13, wherein the opening has a long bar shape, the opening comprises a first position and a second position opposite to each other, and the first position is located farther from the pivoting portion than the second position; when the door is in the closed state, the first position coincides with the first end, and the opening exposes the first section; when the door is opened from the closed state to the first opening angle, the driving shaft moves in the first section, and the baffle is kept stationary; when the door is continuously opened from the first opening angle to the second opening angle, the driving shaft moves in the second section, and meanwhile, the driving shaft moves from the first position to the second position to drive the baffle to rotate.

17. The refrigerator according to claim 13, wherein the positioning groove further comprises a second stop position located on a side of the initial position apart from the first stop position, and the driving groove further comprises a third section and a fourth section located between the second section and the second end; when the door is continuously opened from the second opening angle to a third opening angle, the driving shaft moves in the third section to drive the positioning shaft to move from the first stop position to the second stop position, and when the door is continuously opened from the third opening angle to a maximum opening angle, the positioning shaft is kept at the second stop position, and the driving shaft moves in the fourth section around the positioning shaft.