CN220871239U - Refrigerator with shelf - Google Patents

Abstract

The utility model discloses a refrigerator with a shelf, relates to the technical field of refrigeration equipment, and aims to solve the problem that a drawer structure and a partition plate structure in a containing cavity cannot be mutually adjusted. The refrigerator with the shelves comprises a refrigerator body, a plurality of first limiting parts and at least one shelf. The box is internally provided with a containing cavity for refrigerating or freezing articles, one side of the containing cavity in the first linear direction is provided with an opening, and a plurality of first limiting parts are distributed in the containing cavity at intervals along the up-down direction. The shelf is configured to have a tiled state and a folded state. When the shelf is in a flat state, the shelf is detachably connected with the first limiting parts, so that the shelf separates the accommodating cavities along the up-down direction. When the shelf is in a folded state, the shelf is detachably connected with the first limiting parts, and at least part of the shelf is vertically arranged along the first straight line and is close to the opening, and is used for blocking part of the accommodating cavity along the first straight line direction. The refrigerator of the present utility model is used for refrigerating or freezing articles.

Description

Refrigerator with shelf

Technical Field

The utility model relates to the technical field of refrigeration equipment, in particular to a refrigerator with a shelf.

Background

The refrigerator is a common electrical appliance in daily life, and can be refrigerated through a compressor or a semiconductor refrigerating part and other structures to maintain a low-temperature environment in a storage room, so that the shelf life of food materials and other articles placed in the storage room is prolonged.

In order to improve the space utilization rate in the accommodating cavity such as the refrigerating chamber or the freezing chamber of the refrigerator, a plurality of glass partition boards which are distributed at intervals along the up-down direction can be arranged in the accommodating cavity so as to divide the accommodating cavity into a plurality of spaces which are distributed along the up-down direction and used for storing different objects. In addition, a drawer structure may be provided at the bottom of the accommodating chamber so that the drawer structure prevents the articles therein from falling in the horizontal direction.

In a related aspect, one or two drawer structures are typically disposed at the bottom of the receiving chamber and a plurality of spaced apart glass dividers are disposed at the upper portion of the receiving chamber. However, if the stored articles are scattered in the partition space partitioned by the glass partition above, some of the scattered articles fall from the front side of the partition space. In the lower drawer space, if the article has a large height or volume, the article having a large height or volume is inconvenient to take and place because the height of the inner space of the drawer structure is fixed. So that the user has a poor use experience.

Disclosure of utility model

The utility model aims to provide a refrigerator with a shelf, which aims to solve the problem that a drawer structure and a partition plate structure in a containing cavity cannot be mutually adjusted.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

The utility model provides a refrigerator with a shelf, which comprises a refrigerator body and a plurality of first limiting parts, wherein a containing cavity is arranged in the refrigerator body and used for refrigerating or freezing objects, an opening is formed in one side of the containing cavity in a first linear direction, the first linear direction is perpendicular to the upper and lower directions, and the plurality of first limiting parts are distributed in the containing cavity at intervals along the upper and lower directions.

The refrigerator having shelves further includes at least one shelf configured to have a tiled state and a folded state. When the shelf is in a flat state, the shelf is detachably connected with the first limiting parts, so that the shelf separates the accommodating cavities along the up-down direction. When the shelf is in a folded state, the shelf is detachably connected with the first limiting parts, and at least part of the shelf is vertically arranged along the first straight line and is close to the opening, and is used for blocking part of the accommodating cavity along the first straight line direction.

In some embodiments, the shelf includes a first carrier and a second carrier rotatably coupled to the first carrier to provide the shelf with a tiled state and a folded state. When the shelf is in a flat state, the first bearing piece and the second bearing piece are detachably connected with the first limiting parts, so that the shelf separates the accommodating cavity along the up-down direction. When the shelf is in a folded state, the first bearing piece and the second bearing piece are connected in a bending mode, the first bearing piece is detachably connected with the first limiting parts, so that the first bearing piece is vertically arranged along the first straight line direction and close to the opening, and the first bearing piece is used for plugging the part accommodating cavity along the first straight line direction.

So, in holding the intracavity, can be through the shelf of one or more tiling state in order to separate holding the chamber and be a plurality of less baffle structure's that distribute along upper and lower direction put the thing space, be favorable to improving and hold the utilization ratio of chamber inner space. On the basis, the shelf can be adjusted to be in a folded state, and at least part of the shelf in the folded state can be perpendicular to the front-back direction and arranged at the opening of the storage space, so that the part of the shelf can block the notch on the front side of the storage space, and the storage space can be used as a drawer structure to accommodate storage articles.

In the use process, for the shelf in a flat state, the installation height of the shelf in the accommodating cavity can be adjusted through the first limiting part, so that the height of the storage space in the up-down direction can be adjusted, and articles with different height sizes can be stored conveniently. If the articles are scattered, the shelf can be arranged to form an article placing space of a drawer structure in a folding state, and more scattered articles can be stored in the article placing space of the drawer structure, so that the articles are prevented from falling from a notch at the front side of the article placing space, and the article placing device is convenient for a user to flexibly use and has better use experience.

In some embodiments, the shelf further includes a plurality of second limiting portions, and along a second linear direction, the second limiting portions are disposed at opposite ends of at least the first bearing member, and the second limiting portions are detachably connected with the first limiting portions. The second straight line direction is perpendicular to the up-down direction and the first straight line direction.

In some embodiments, the first limiting portion is a socket extending along a second linear direction, and the second limiting portion is a socket post. Along the second straight line direction, the opposite ends of the first bearing piece are provided with adjusting holes. At one end of the first bearing piece along the second straight line direction, the number of the adjusting holes is at least one, and the first end of the second limiting part is inserted into one adjusting hole.

The second limiting portion is configured to have a clamped state and a contracted state. When the second limiting part is in a clamping state, the second end of the second limiting part is positioned outside the adjusting hole along the second linear direction, so that the first bearing part is inserted and installed with the first limiting part through the second limiting parts at the two ends. When the second limiting part is in a contracted state, the second end of the second limiting part is positioned in the adjusting hole along the second linear direction, so that the first bearing piece is disconnected with the first limiting part.

In some embodiments, the shelf further includes a plurality of toggle members, and the plurality of toggle members are disposed in one-to-one correspondence with the plurality of second limiting portions. When the shelf is in a flat state, a poking notch is arranged on one side of the first bearing piece along the up-down direction. The toggle notch is communicated with the adjusting hole, and the toggle piece is connected with the first end of the second limiting part through the toggle notch, so that the second limiting part can be moved and adjusted between the clamping state and the shrinkage state through the toggle piece.

In some embodiments, the shelf further comprises a second load bearing member disposed at least one end of the shelf along a second linear direction that is perpendicular to the up-down direction and the first linear direction. When the shelf is in a flat-laid state, the bearing piece extends along the first linear direction, one end of the bearing piece is connected with the first bearing piece, and the other end of the bearing piece is connected with the second bearing piece, so that the shelf is kept in the flat-laid state. When the bearing piece is separated from the second bearing piece or the bearing piece is separated from the first bearing piece along the first straight line direction, the shelf is adjusted from the flat state to the folded state.

In some embodiments, the shelf further comprises a hinge by which the first carrier is rotatably connected to the second carrier such that the first carrier is rotatably adjustable between 0 and 180 ° relative to the second carrier.

In some embodiments, the number of first carriers is two.

In some embodiments, when the shelf is in a flat state, the second carrier is located between two first carriers in a first straight direction, and one first carrier is rotatably connected with the second carrier through the hinge. When the shelf is in a flat state, the sum of the width dimensions of the two first bearing pieces is smaller than or equal to the width dimension of the second bearing piece along the first straight line direction.

In some embodiments, the shelf further comprises a fastener. When the shelf is in a flat-laid state, fastening grooves are formed in the same side of the two first bearing pieces along the up-down direction, and the fastening grooves extend along the first straight line direction in a direction away from the second bearing pieces. The fastener is located in the fastening slot of one of the carriers. When the shelf is in a folded state, the two first bearing parts rotate to the same side of the second bearing part, and the fastening grooves on the two first bearing parts are aligned and conducted along the first straight line direction. The fasteners are press fit into the aligned two fastening slots to maintain the shelf in a folded condition.

In some embodiments, the refrigerator further includes at least four guide rails extending in an up-down direction. Along the first straight line direction, two guide rails are positioned in the accommodating cavity and are arranged close to the opening, and the other two guide rails are positioned in the accommodating cavity and are arranged far away from the opening. Two guide rails close to the opening are distributed on two opposite sides of the accommodating cavity along the second straight line direction, and two guide rails far away from the opening are distributed on two opposite sides of the accommodating cavity along the second straight line direction. The guide rail piece is provided with a plurality of first limiting parts which are distributed at intervals along the up-down direction. The second straight line direction is perpendicular to the up-down direction and the first straight line direction.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic perspective view of a refrigerator with a shelf according to an embodiment of the present application;

fig. 2 is a perspective view illustrating a refrigerator body of the refrigerator shown in fig. 1;

FIG. 3 is a schematic perspective view of the housing of FIG. 1 including a shelf;

FIG. 4 is a schematic perspective view of the rail and shelf of FIG. 3;

FIG. 5 is a schematic perspective view of the shelf of FIG. 4 in a tiled configuration;

fig. 6 is a schematic perspective view of the shelf shown in fig. 4 in a first folded condition;

Fig. 7 is a schematic perspective view of the shelf shown in fig. 4 in a second folded state;

Fig. 8 is a sectional view of the refrigerator shown in fig. 3;

Fig. 9 is a cross-sectional view of the shelf shown in fig. 6;

FIG. 10 is an enlarged partial schematic view of FIG. 7 at A;

FIG. 11 is an enlarged partial schematic view at B in FIG. 5;

FIG. 12 is an enlarged partial schematic view of FIG. 6C;

FIG. 13 is a schematic view of a structure of a shelf including a hinge in a tiled state according to an embodiment of the present application;

FIG. 14 is a schematic perspective view of the hinge shown in FIG. 13;

Fig. 15 is a schematic view illustrating a structure of the shelf in the flat state shown in fig. 13, which is adjusted to a first folded state.

Reference numerals:

100-refrigerator;

1-a box body; 11-a housing; 12-an inner container; 13-a receiving cavity; 14-opening;

2-door body;

31-a first limit part; 32-a guide rail;

4-shelves; 41-a first carrier; 42-a second carrier; 43-a second limit part; 44-adjusting holes; 45-toggle piece; 46-wave notch; 471-inserting grooves; 472-fastening slots; 481-a first load bearing member; 482-a second load bearing member; 483-fasteners; 484-first rotary; 485-a second rotating member; 49-hinge; 491-separator; 492-first split plate; 493-a second division plate; 494-a first hook; 495-die hook; 496-a first rotating groove; 497-second spin groove.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "upper", "lower", "left", "right", "front", "rear", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or relative positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Unless otherwise specified, the above description of the azimuth may be flexibly set in the course of practical application in the case where the relative positional relationship shown in the drawings is satisfied.

The terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated, whereby features defining "first," "second," or the like, may explicitly or implicitly include one or more such features. In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present utility model, it should be noted that the terms "mounted," "connected," and "communicating" are to be construed broadly as being fixedly connected, detachably connected, and integrally connected, unless otherwise specifically defined and limited. Either directly or indirectly through intermediaries, or in communication between two elements, or electrically, the specific meaning of the terms in the present disclosure will be understood by those skilled in the art in view of the specific circumstances.

In practical applications, the absolute parallel or vertical effect is difficult to achieve due to limitations in equipment accuracy or installation errors. The description of the vertical, parallel or same direction in the application is not an absolute limiting condition, but means that the vertical or parallel structure arrangement can be realized within the preset error range (the vertical deviation is 5 degrees), and the corresponding preset effect can be achieved, so that the technical effect of limiting the characteristics can be realized to the maximum extent, the corresponding technical scheme is convenient to implement, and the feasibility is higher.

In embodiments of the present utility model, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, article or apparatus that comprises the element.

In embodiments of the utility model, words such as "exemplary" or "such as" are used to mean serving as an example, instance, or illustration. Any embodiment or design described as "exemplary" or "e.g." in an embodiment of the present utility model should not be construed as preferred or advantageous over other embodiments or designs, rather, the use of the word "exemplary" or "e.g." is intended to present the relevant concepts in a concrete fashion.

As shown in fig. 1, fig. 1 is a schematic perspective view of a refrigerator with a shelf (hereinafter referred to as a refrigerator 100) according to an embodiment of the present application. The refrigerator 100 may include a cabinet 1 and a door 2, the cabinet 1 may be a box-like structure having an approximately rectangular parallelepiped shape, the cabinet 1 may be a box-like structure having other shapes, and the cabinet 1 may be coupled (e.g., hinge-mounted) to the door 2 such that the door 2 may be opened or closed by rotating the cabinet 1.

As shown in fig. 2, the case 1 may include a housing 11, an inner container 12, and a thermal insulation layer (not shown) filled between the housing 11 and the inner container 12, and the case 1 may enclose one or more accommodating chambers 13 through the inner container 12, and the accommodating chambers 13 may be a refrigerating chamber, a freezing chamber, or a temperature changing chamber. Through shell 11 and the insulating layer that set up in the inner bag 12 outside, can improve the heat preservation heat-proof quality of box when improving box 1 structural strength, be favorable to cold-stored or cryopreserved the article that holds in the chamber 13 to improve the shelf life of article.

Referring to fig. 1 and 2, two accommodating chambers 13 are provided at intervals in the up-down direction, and one side of the two accommodating chambers 13 provided with openings (not shown) is a front side, i.e., the depth dimension of the accommodating chambers 13 extends in the front-rear direction (i.e., first straight line direction). In this way, the door 2 rotatably installed at the front side of the case 1 can open or close the accommodating chamber 13 through the opening.

When the door body 2 rotates to a position for closing the accommodating cavity 13, heat exchange between the accommodating cavity 13 and the external environment can be prevented, and long-time storage of articles in the accommodating cavity 13 is facilitated. When the door body 2 is rotated to a position to open the accommodating chamber 13, it is convenient to store or take out the articles in the accommodating chamber 13 through the opening.

If the case 1 has two receiving chambers 13, one of the receiving chambers 13 may be a refrigerating compartment, and the other receiving chamber 13 may be a refrigerating compartment. In addition, two receiving chambers 13 may be provided, which are either a freezer compartment or a refrigerator compartment.

Or the number of the receiving chambers 13 may be one, and the receiving chamber 13 may be one of a freezing compartment or a refrigerating compartment. Or the number of the accommodating chambers 13 may be three or more, and one accommodating chamber 13 may be provided as a temperature changing chamber, so that articles with different requirements can be stored by adjusting the temperature in the temperature changing chamber, which is not limited by the application.

In the accommodating chamber 13, in order to improve the space utilization of the accommodating chamber 13, a plurality of glass partitions may be disposed in the accommodating chamber 13 to be spaced apart in the up-down direction so as to divide the accommodating chamber 13 into a plurality of spaces distributed in the up-down direction for storing different articles. In addition, can also set up drawer structure in the bottom that holds chamber 13 to make drawer structure can prevent that inside article from following the horizontal direction and dropping by the opening part, all be favorable to improving the space utilization who holds chamber 13.

For example, one or two drawer structures may be provided at the bottom of the accommodating chamber 13, and a plurality of glass partitions may be provided at the upper portion of the accommodating chamber 13 to be spaced apart.

In the partition space divided by the glass partition above, if the stored articles are scattered, part of the scattered articles will fall from the front side of the partition space.

In the lower drawer space, if the article has a large height or volume, the article having a large height or volume is inconvenient to take and place because the height and volume of the inner space of the drawer structure are fixed. So that the user has a poor use experience.

In order to solve the above-mentioned problems, as shown in fig. 3, the refrigerator 100 may further include a plurality of first limiting parts 31 and at least one shelf 4. The first limiting parts 31 may be limiting structures such as slots, jacks, hooks, guide rail grooves or clamping columns, the first limiting parts 31 may be distributed in the accommodating cavity 13 at intervals along the up-down direction, and the shelf 4 may be detachably connected with the first limiting parts 31, so that the shelf 4 located in the accommodating cavity 13 may partition the accommodating cavity 13 into a plurality of storage spaces.

In this way, by means of the arrangement of one or more shelves 4, the accommodating cavity 13 can be divided into a plurality of smaller accommodating spaces which are distributed at intervals along the up-down direction, which is beneficial to improving the space utilization rate of the accommodating cavity 13. Meanwhile, the rack 4 which is detachably arranged in the accommodating cavity 13 is provided with a plurality of first limiting parts 31, so that the mounting position of the rack 4 can be conveniently adjusted, a plurality of storage spaces which are separated by the accommodating cavity 13 can be flexibly adjusted, and the rack is used for accommodating and storing articles with different volumes.

On the basis of this, the shelf 4 may be provided to be configured to have a flat state and a folded state.

As shown in fig. 3 and 4, which is one shelf 4 located above, when the shelf 4 is in a flat state, the shelf 4 may be in a unfolded flat state in a horizontal direction. At this time, the shelf 4 may be detachably connected to the plurality of first stopper portions 31 so that the shelf 4 may partition the accommodating chamber 13 in the up-down direction (as shown in fig. 3).

As shown in fig. 3 and 4, which is located below one shelf 4, the width of the shelf 4 in the front-rear direction may be reduced by insertion or rotation so that the shelf 4 is in a folded state. Then, part or all of the shelves 4 may be disposed perpendicularly to the front-rear direction and at the opening of the accommodating chamber 13 (as shown in fig. 3) for blocking a partial notch of the accommodating chamber 13 at the front opening.

In this way, in the accommodating cavity 13, the accommodating cavity 13 can be partitioned into a plurality of smaller storage spaces with partition plate structures distributed along the up-down direction through one or more shelves 4 in a tiled state, which is beneficial to improving the utilization rate of the inner space of the accommodating cavity 13. On the basis, the shelf 4 can be adjusted to be in a folded state, and at least part of the shelf 4 in the folded state can be perpendicular to the front-back direction and arranged at the opening of the storage space, so that the part of the shelf 4 can block the notch on the front side of the storage space, and the storage space can be used as a drawer structure to accommodate storage articles.

In the use process, for the shelf 4 in a flat state, the installation height of the shelf 4 in the accommodating cavity 13 can be adjusted through the first limiting part 31, so that the height of the storage space in the up-down direction can be adjusted, and articles with different height sizes can be stored conveniently. If the articles are scattered, the shelf 4 can be arranged to be in a folded state to form an article placing space of a drawer structure, and more scattered articles can be stored in the article placing space of the drawer structure, so that the articles are prevented from falling from a front side notch of the article placing space, and the article placing device is convenient for a user to flexibly use and has better use experience.

It should be noted that, according to the shelf 4 provided in the embodiment of the present application, a user may adjust the laying state and the folding state of the shelf 4 according to the needs, and install the shelf in a corresponding position of the accommodating cavity 13, so as to form a storage space of a partition structure or a drawer structure required by the user.

Since the shelf 4 can be flexibly adjusted between the flat state and the folded state, i.e. the shelf 4 can be composed of a plurality of carriers. Correspondingly, the plurality of bearing pieces can be rotatably connected to enable the shelf 4 to be adjusted between the flat state and the folded state, or the plurality of bearing pieces can be connected in a sliding inserting manner to enable the shelf 4 to be adjusted between the flat state and the folded state.

In some embodiments, as shown in fig. 5, the shelf 4 may include two first carriers 41 and one second carrier 42. When the shelf 4 is in the flat state shown in fig. 5, two first carriers 41 may be located at both front and rear sides of the second carrier 42, and the first carriers 41 may be rotatably connected with the second carrier 42 by hinges (not shown).

The first carrier 41 and the second carrier 42 may have a plate-like structure or a frame structure, and only the shelf 4 located in the accommodating chamber 13 may be required to support or shield the articles above or behind. By way of example, the first and second carriers 41 and 42 may be metal or non-metal plates, such as aluminum alloy plates, plastic plates, glass plates, etc., without limitation.

The first carrier 41 is rotatably adjustable between 0 and 180 ° relative to the second carrier 42 by the arrangement of the hinge, which may be a hinge or other rotational connection. As shown in fig. 4 and 5, the first carrier 41 and the second carrier 42 may be in a flat state in a horizontal direction (perpendicular to the up-down direction), and at this time, the rotation angle between the first carrier 41 and the second carrier 42 is 0 °, that is, the rotation angle between the first carrier 41 and the second carrier 42 of the shelf 4 in the flat state is approximately 0 °.

The shelf 4 may also have one or more folded states, so that the shelf 4 detachably connected to the first limiting part 31 may enclose the storage space into a drawer-like space. The folded state such as the shelf 4 may include a first folded state and a second folded state.

Correspondingly, when each shelf 4 is in the flat state shown in fig. 5, the two first carriers 41 may be rotated up to 180 ° to the upper side of the second carrier 42, so that the shelf 4 may be in the first folded state (i.e., the fully folded state) shown in fig. 6. The first folded shelf 4, the first bearing member 41 and the second bearing member 42 are arranged approximately in parallel, and the second bearing member 42 of the plate-shaped or frame-shaped structure can be arranged perpendicular to the front-rear direction as shown in fig. 4 and is arranged at the front side of the corresponding storage space, so that the storage space can form a drawer structure.

It should be noted that, as shown in fig. 5, when the shelf 4 is in the flat-laid state, the sum of the width dimensions L1 of the two first carriers 41 may be set to be smaller than or equal to the width dimension L2 of the second carrier 42 in the front-rear direction. In this way, when the two first carriers 41 rotate 180 ° to the first folded state, the edges of the two first carriers 41 away from the second carrier 42 have a space or just contact therebetween, so as to avoid the two first carriers 41 from obstructing each other when rotating to the first folded state.

Wherein the first and second carriers 41 and 42 may be rectangular or square plate-like structures or frame structures. When the shelf 4 is in the flat state shown in fig. 5, the width dimension of the first carrier 41 is the distance dimension between the front and rear edges of the first carrier 41 in the front and rear directions, and the width dimension of the second carrier 42 is the distance dimension between the front and rear edges of the second carrier 42 in the front and rear directions.

In other embodiments, as shown in fig. 7, one of the first carriers 41 of the shelf 4 may also be rotated up to 90 ° with respect to the second carrier 42 to form the shelf 4 in the second folded state, which is approximately L-shaped in a cross section perpendicular to the left-right direction. At this time, the first carrier 41 rotated by 90 ° may be used as a front side baffle of the storage space, and the second carrier 42 and the first carrier 41 horizontally arranged may be used as a lower side baffle of the storage space.

Thus, when the shelves 4 are in a flat state, the height of the storage space between two adjacent shelves 4 can be adjusted by detachably connecting the first limiting part 31 to adjust the installation height of the shelves 4 in the accommodating cavity 13.

When the shelf 4 is in the first folded state, the shelf 4 can be used as a front baffle of the storage space, so that the shelf 4 and the inner container 12 can form a storage space of a drawer structure. At this time, if the storage space is not located at the lowest layer of the accommodating cavity 13, the bottom supporting structure of the storage space of the drawer structure may be formed by another shelf 4 of the flat structure, for example, the sum of the widths of the two first carrying members 41 and the width of the one second carrying member 42 is the depth dimension of the storage space in the front-rear direction, and the width of the second carrying member 42 may be the height dimension of the storage space of the drawer structure.

When the shelf 4 is in the second folded state, the horizontally arranged second carrying member 42 (which may further include the first carrying member 41) may also serve as a partition structure of two vertically adjacent storage spaces while enclosing the storage space of the drawer structure. That is, the width dimension of the second carrier 42 (and the first carrier 41) may be adjusted to fit the depth dimension of the accommodating chamber 13 in the front-rear direction, and the width dimension of the vertically bent first carrier 41 may be used as the height dimension of the storage space of the drawer structure.

In order to facilitate the assembly and disassembly of the shelf 4, as shown in fig. 5, the shelf 4 may further include a plurality of second limiting portions 43, and the second limiting portions 43 may be provided at both right and left ends (i.e., both ends in the second straight direction) of the first carrier 41. Alternatively, referring to fig. 7, second stopper portions may be provided at both the left and right ends of the first carrier 41 and the left and right ends of the second carrier 42.

Taking the example that the second carrier 42 is rotatably installed between the two first carriers 41, the second limiting portions 43 may be provided at both left and right ends of the two first carriers 41. So that the shelf 4 can be mounted at a corresponding position of the accommodating chamber 13 by the detachable connection of the second limiting portion 43 and the first limiting portion 31 and serves to partition the accommodating chamber 13.

For example, the second limiting portion 43 may be a socket extending in the left-right direction, and the first limiting portion 31 may be a corresponding socket extending in the left-right direction, and the second limiting portion 43 may be inserted into the corresponding first limiting portion 31 in the left-right direction to mount the shelf 4 at different height positions of the receiving chamber 13. As shown in fig. 3 and 4, the refrigerator 100 may further include at least four guide rails 32, and the guide rails 32 may extend in the up-down direction, and the guide rails 32 may be installed in the receiving chamber 13.

As shown in fig. 8, two guide rails 32 may be disposed in the accommodating chamber 13 and disposed near the opening 14 (e.g., on the front side of the accommodating chamber 13), another two guide rails 32 may be disposed in the accommodating chamber 13 and disposed away from the opening 14 (e.g., on the rear side of the accommodating chamber 13), the two guide rails 32 on the front side may be disposed on the left and right sides of the accommodating chamber 13, and the two guide rails 32 on the rear side may be disposed on the left and right sides of the accommodating chamber 13 as well. As shown in fig. 3 and 4, a plurality of first stopper portions 31 may be provided on the guide rail 32 to be distributed in the up-down direction so as to adjust the installation height of the shelf 4 in the accommodating chamber 13 by detachable connection with the first stopper portions 31.

Based on this, the first limiting portion 31 disposed on the guide rail 32 may be a plugging hole, and the plugging holes on the two guide rails 32 that are distributed at intervals along the left-right direction are disposed opposite to each other, for example, the plugging Kong Xiangyou on the left guide rail 32 is disposed, and the plugging hole on the right guide rail 32 may be disposed towards the left. Correspondingly, the space between the two insertion holes in the left-right direction may be greater than or equal to the length of the shelf 4.

Alternatively, as shown in fig. 8, the accommodating chambers 13 may be provided with accommodating grooves 15 corresponding to the guide rails 32, and the number of the accommodating grooves 15 may be the same as that of the guide rails 32, that is, one guide rail 32 on the left side may be disposed in one accommodating groove 15 on the left side, and one guide rail 32 on the right side may be disposed in one accommodating groove 15 on the right side. In this way, the guide rail 32 can be arranged approximately aligned with the left and right side walls of the mounting cavity 13, that is, the width dimension of the shelf 4 in the left and right direction can be smaller than or equal to the width dimension of the accommodating cavity 13, without affecting the mounting and dismounting of the shelf 4.

In other embodiments, the first limiting portion 31 may be a blind hole formed by the case 1 or the liner 12. Or the first limiting portion 31 may be a hook or a clip, and the second limiting portion 43 may be a corresponding plugging slot or a corresponding plugging hole, which is not limited.

In order to facilitate the assembly and disassembly of the shelf 4, as shown in fig. 9, the left and right ends of the first carrier 41 may be provided with adjusting holes 44, and at least one adjusting hole 44 may be provided at the left or right end of the first carrier 41. If the left or right end of the first carrier 41 is provided with a plurality of adjustment holes 44, the plurality of adjustment holes 44 may extend in the front-rear direction.

If the adjusting holes 44 are of blind hole structure, at least one adjusting hole 44 is provided at the left end and the rear end of the first carrier 41, and the adjusting holes 44 at the left and right ends are not communicated. Alternatively, adjustment aperture 44 may be a through-hole structure, i.e., adjustment aperture 44 may extend through first carrier 41 from left to right.

With continued reference to fig. 9, the first end 431 of the second stop 43 of a plug post structure may be inserted into an adjustment aperture 44, and the second stop 43 may be configured to have a clamped state and a contracted state.

For example, as shown in the second limiting portion 43 on the right side in fig. 9, when the second end 432 of the second limiting portion 43 is located outside the adjusting hole 44, the second limiting portion 43 is in the clamped state. At this time, the second end 432 of the second limiting portion 43 may be inserted into the first limiting portion 31 (as shown in fig. 4) of the plugging hole structure, so that the first carrier 41 may be plugged into the first limiting portion 31 through the second limiting portions 43 at the left and right ends.

As shown in the second limiting portion 43 on the left side in fig. 9, when the second end 432 of the second limiting portion 43 is located in the adjusting hole 44 so that the second limiting portion 43 is in the contracted state, the left and right ends of the first carrier 41 may be disconnected from the first limiting portion 31 (as shown in fig. 4). At this time, the shelf 4 may be detached, and then the mounting height or the flat (or folded state) of the shelf 4 may be adjusted.

In some embodiments, as shown in fig. 9, the shelf 4 may further include a plurality of toggle members 45, where the plurality of toggle members 45 may be disposed in one-to-one correspondence with the plurality of second limiting portions 43. Referring to fig. 5, a toggle notch 46 may be disposed on an upper side or a lower side of the first carrier 41 in a flat state, the toggle notch 46 may be communicated with the adjusting hole 44, and one toggle member 45 may be connected with the first end 431 of one second limiting portion 43 through the toggle notch 46, so that the second limiting portion 43 may be movably adjusted between the clamped state and the contracted state through the toggle member 45.

Thus, when the shelf 4 is mounted, the adjusting hole 44 can be aligned with the first limiting portions 31 on both sides in the left-right direction, and then the second ends 432 of the second limiting portions 43 on both ends can be extended and inserted into the corresponding first limiting portions 31 (i.e. the clamping state) by adjusting the toggle member 45, so as to mount the shelf 4 in the corresponding position of the accommodating cavity 13. When the shelf 4 is disassembled, the toggle member 45 can be directly adjusted, so that the second ends 432 of the second limiting parts 43 at the two ends can be retracted into the adjusting holes 44 (i.e. contracted state), and then the shelf 4 can be removed, which is very convenient.

It should be noted that, the second limiting portion 43 of the plugging column structure may be fixedly connected to the left and right ends of the first carrier 41, and the guide rail 32 may be disposed in the accommodating cavity 13 as shown in fig. 3. At the guide rail 32, a notch can be provided from the back to the front at the side wall of the first limiting part 31 of the plug hole structure, so that the plug part can be inserted into the plug hole from the front to the back from the high notch, and the detachable plug installation between the first limiting part 31 and the second limiting part 43 can be realized.

Taking an example that one shelf 4 includes two first bearing members 41 and one second bearing member 42, second limiting portions 43 may be installed at both left and right ends of the two second bearing members 41, and in a case that the second limiting portions 43 are inserted into and installed with the first limiting portions 31 on the guide rail 32. The shelf 4 in a flat condition may be suspended between at least four rails 32 to support items on the shelf 4.

When the shelf 4 is in the first folded state shown in fig. 6, the second limiting portions 43 located at two ends of the two first bearing members 41 may also hang on the clamping connection through two guide rails at the opening 14 (as shown in fig. 8) so as to enclose a storage space of the drawer structure.

In the second folded state shown in fig. 7, the second limiting portions 43 of the fixed structure or the telescopic structure may be mounted on the left and right ends of the second carrier 42 in conjunction with fig. 10. In this way, the first bearing member 41 and the second bearing member 42 that are horizontally disposed may be suspended and connected with the four guide rails 32 (as shown in fig. 8) through at least four second limiting portions 43, and the first bearing member 41 that is vertically disposed may be suspended and connected with two guide rails at the opening 14 through at least two second limiting portions 43, where six guide rails 32 may be disposed in the accommodating cavity 13.

In other embodiments, the shelf 4 comprises a first carrier 41 and a second carrier 42. The second limiting parts 43 may be installed at the left and right ends of the first bearing member 41, and the second limiting parts 43 may be installed at the left and right sides of the second bearing member 42 in a single connection, so that the shelf 4 may be suspended and connected with the guide rail 32 through at least four second limiting parts 43.

In some embodiments, as shown in fig. 10, the shelf 4 is in the second folded state, the front left end of the second carrier 42 may be provided with a plugging slot 471 from front to back, and the lower left end of the vertically disposed second carrier 42 may be provided with a plugging slot 471 from bottom to top. At this time, the two insertion grooves 471 of the vertically arranged first carrier 41 and second carrier 42 are likewise arranged vertically.

With continued reference to fig. 10, the shelf 4 may also include a first weight member 481, and the first weight member 481 may include two vertically connected weight-bearing bars. First carrier 481 can be inserted into two insertion grooves 471 from left to right so that first carrier 41 and second carrier 42 can stably maintain the second folded state.

The first carrier member 481 and the two insertion grooves 471 may be disposed at the left side edges of the vertically disposed first carrier member 41 and second carrier member 42, so as to improve the stability of the furniture in the second folded state.

When the shelf 4 is in the flat state shown in fig. 5, as shown in fig. 11, at the left side edges of the first carrier 41 and the second carrier 42 in the flat state, the insertion grooves 471 of the first carrier 41 and the insertion grooves 471 of the second carrier 42 are aligned and communicate in the front-rear direction. The shelf 4 may further include a second load bearing member 482 extending in the front-rear direction, one end of the second load bearing member 482 may be positioned in the insertion groove 471 of the second load bearing member 42 to be connected with the second load bearing member 42, and the other end of the second load bearing member 482 may be positioned in the insertion groove 471 of the first load bearing member 41 and connected with the first load bearing member 41, so that the shelf 4 may stably maintain a flat state.

In the example shown in fig. 11, the front and rear ends of the second carrier 482 may be limited by two insertion grooves 471 in the up-down direction to prevent the relative rotation of the corresponding first carrier 41 and second carrier 42. I.e. the first carrier 41 and the second carrier 42 may be approximately in a planar, flat state.

Based on this, as shown in fig. 11, the length of the insertion groove 471 on the second carrier member 42 in the front-rear direction may be set to be longer than the length of the second carrier member 482, so that the second carrier member 482 may be completely moved within the insertion groove 471 of the second carrier member 42, i.e., the second carrier member 482 is disconnected from the first carrier member 41. In this way, the shelf 4 can be adjusted between the first folded state, the second folded state and the flat state when the second carrier 482 is positioned in the insertion groove 471 of the second carrier 42.

Furthermore, it is also possible to provide that the insertion groove 471 on the first carrier 41 has a longer length in the front-rear direction than the second carrier 482, so that the second carrier 482 can be moved completely into the insertion groove 471 of the first carrier 42, i.e. the second carrier 482 is disconnected from the first carrier 42. In this way, the shelf 4 can be adjusted between the first folded state, the second folded state and the flat state when the second load bearing member 482 is positioned in the insertion groove 471 of the first load bearing member 41.

In the above embodiment, the insertion groove 471 may be provided in a wedge-shaped structure having a wide inner side and a narrow outer side in the right-left direction, and the second carrier 482 is a wedge-shaped structure corresponding to the shape of the insertion groove 471. In this way, the second carrier 482 does not separate from the insertion groove 471 in the right-left direction while moving in the front-rear direction in the insertion groove 471.

In other embodiments, the second bearing member 482 may be a rail groove structure, where the first bearing member 41 and the second bearing member 42 are in a flat-laid state, so that the left and right ends of the two are aligned in the front-rear and up-down directions, and the second bearing member 482 of the rail groove structure may be inserted from right to left and receive the left edges of the first bearing member 41 and the second bearing member 42. In this way, one end of the second bearing member 482 may be connected to the first bearing member 41, and the other end of the second bearing member 482 may be connected to the second bearing member 42, and the rotation of the first bearing member 41 with respect to the second bearing member 42 may be restricted by the upper and lower sidewalls of the rail groove structure.

The width of the groove of the second bearing member 482 in the up-down direction may be slightly larger than the thickness of the first bearing member 41 and the second bearing member 42 in the up-down direction, so that the second bearing member 482 may be movably connected to or disconnected from the first bearing member 41 and the second bearing member 42 in the front-rear direction. The second carrier 482 in the above embodiment may be provided at the left and/or right ends of the first carrier 41 and the second carrier 42, which is not limited.

It should be noted that the connection between the first and second load bearing members 481 and 482 and the insertion groove 471 is detachable. To facilitate flexible adjustment of the shelf 4 between the flat condition, the first folded condition and the second folded condition.

In some embodiments, as shown in fig. 6 and 12, the shelf 4 may further comprise a fastening member 483, and correspondingly, when the shelf is in the flat state shown in fig. 5, fastening grooves 472 may be provided at the upper side and/or the lower side of the two first carriers 41. In the flat state, the fastening slots 472 may extend in the front-to-rear direction toward a direction away from the second carrier 42, and the fastening member 483 may be located in one of the fastening slots 472.

When the shelf 4 is in the first folded state shown in fig. 12, the fastening grooves 472 of the two first carriers 41 may be conducted in the front-rear direction, and the fastening members 483 may be press-fitted into the two fastening grooves 472 conducted thereto, so that the shelf 4 may maintain the first folded state. The two fastening grooves 472 and the one fastening member 483 are combined, and a plurality of fastening structures may be provided between the two first carriers 41 in the first folded state to prevent the shelf 4 in the first folded state from shaking in the up-down and left-right directions.

In the above-described embodiment, the fastening groove 472 of one of the first carriers 41 may be provided to have a large length in the width direction thereof so that the fastening member 483 in the flat state and the second folded state may be inserted into the fastening groove 472 to be stored. I.e., the length dimension of the fastening groove 472 may be greater than the length dimension of the fastener 483.

In the case of a rotational connection of the first carrier 41 and the second carrier 42, as shown in fig. 13, the shelf 4 may further comprise a hinge 49, by means of which hinge 49 the first carrier 41 can be rotationally connected to the second carrier 42, so that the first carrier 41 can be rotationally adjusted between 0 and 180 ° with respect to the second carrier 42.

For example, as shown in fig. 13, the hinge 49 may include a partition 491, one end of which may be connected to a first sub-plate 492 and a second sub-plate 493 which are separated on both sides of the partition, and the other end of the partition 491 may be connected to a plurality of first hooks 494 and a plurality of second hooks 495 which are separated on both opposite sides of the partition 491 and are disposed opposite to each other. The first divider 492 and the plurality of first hooks 494 may be located on the same side of the partition 491, and the second divider 493 and the plurality of second hooks 495 may be located on the same side of the partition 491, the plurality of first hooks 494 being spaced apart along the length of the partition 491, and the plurality of second hooks 495 being spaced apart along the length of the partition 491.

As shown in fig. 14, the first divider 492, the spacer 491, and the first hooks 494 collectively define a first rotary slot 496, and the second divider 493, the spacer 491, and the second hooks 495 collectively define a second rotary slot 497. Referring to fig. 13, the rack 4 further includes a plurality of first rotating rods 484 and a plurality of second rotating rods 485.

One end of the plurality of first rotating rods 484 may be connected to the first carrier 41 and distributed at intervals along the length direction thereof, and the other end of the first rotating rod 484 may be inserted into the first rotating groove 496 and be locked by two adjacent first hooks 494. One end of the second rotating rods 485 can be connected with the second bearing member 42 and distributed at intervals along the length direction thereof, and the other end of the second rotating rods 485 can be inserted into the second rotating groove 497 and is limited and clamped by two adjacent second hooks 495.

Based on this, as shown in fig. 13, the hinge 49 may connect the first carrier 41 and the second carrier 42 in a flat state. Since the first and second carriers 41 and 42 of plate-like construction have a certain thickness dimension, by means of the spacer 491 on the hinge 49, as shown in fig. 14 and 15, the first carrier 41 can be flexibly rotationally adjusted between 0 and 180 ° compared to the second carrier 42.

In other embodiments, the first carrier 41 on both front and rear sides of the second carrier 42 may also be slidably connected thereto. I.e. one of the first carriers 41 may be slidably connected to the upper side edge of the second carrier 42 and the other first carrier 41 may be slidably connected to the lower side edge of the second carrier 42.

The two first carriers 41 may be spaced apart from each other in the front-rear direction so that the shelf 4 may be adjusted from the first folded state to the flat state. Or the shelves 4 in a flat state, the two first carriers 41 may also slide close to each other, so that the shelves 4 are adjusted to the first folded state, which is not limited.

In the description of the present specification, a particular feature, structure, material, or characteristic may be combined in any suitable manner in one or more embodiments or examples.

The foregoing is merely illustrative embodiments of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art can easily think about variations or substitutions within the technical scope of the present utility model, and the utility model should be covered. Therefore, the protection scope of the utility model is subject to the protection scope of the claims.

Claims (10)

1. A refrigerator having a shelf, comprising:

The refrigerator comprises a refrigerator body, wherein a containing cavity is arranged in the refrigerator body and is used for refrigerating or freezing objects, an opening is formed in one side of the containing cavity in a first straight line direction, and the first straight line direction is perpendicular to the upper and lower directions;

The first limiting parts are distributed in the accommodating cavity at intervals along the up-down direction;

and at least one shelf, the shelf comprising:

A first carrier;

the second bearing piece is rotationally connected with the first bearing piece, so that the shelf has a flat state and a folded state;

When the shelf is in a flat-laid state, the first bearing piece and the second bearing piece are detachably connected with the plurality of first limiting parts, so that the shelf partitions the accommodating cavity along the up-down direction;

When the shelf is in a folded state, the first bearing piece and the second bearing piece are connected in a bending mode, the first bearing piece is detachably connected with the plurality of first limiting parts, so that the first bearing piece is vertically arranged along the first straight line direction and is close to the opening, and the first bearing piece is used for plugging part of the accommodating cavity along the first straight line direction.

2. The refrigerator having a shelf of claim 1, wherein the shelf further comprises:

The second limiting parts are arranged at the two opposite ends of at least the first bearing piece along the second linear direction, and the second limiting parts are detachably connected with the first limiting parts;

the second straight line direction is perpendicular to the up-down direction and the first straight line direction.

3. The refrigerator with a shelf according to claim 2, wherein the first limiting portion is a socket hole extending in the second linear direction, and the second limiting portion is a socket post;

Along the second linear direction, two opposite ends of the first bearing piece are provided with adjusting holes;

at one end of the first bearing piece along the second linear direction, the number of the adjusting holes is at least one, and the first end of one second limiting part is inserted into one adjusting hole;

the second limiting part is configured to have a clamping state and a shrinking state;

When the second limiting part is in a clamping state, along the second linear direction, the second end of the second limiting part is positioned outside the adjusting hole, so that the first bearing part is inserted and installed with the first limiting part through the second limiting parts at the two ends;

When the second limiting part is in a contracted state, the second end of the second limiting part is positioned in the adjusting hole along the second linear direction, so that the first bearing part is disconnected with the first limiting part.

4. The refrigerator having a shelf as claimed in claim 3, wherein the shelf further comprises:

the toggle pieces are arranged in one-to-one correspondence with the second limiting parts;

when the shelf is in a flat state, a poking notch is arranged on one side of the first bearing piece along the up-down direction; the toggle notch is communicated with the adjusting hole, and one toggle piece is connected with the first end of one second limiting part through the toggle notch, so that the second limiting part is movably adjusted between the clamping state and the shrinking state through the toggle piece.

5. The refrigerator having a shelf of claim 1, wherein the shelf further comprises:

The second bearing piece is arranged at least one end of the shelf along a second linear direction, and the second linear direction is perpendicular to the up-down direction and the first linear direction;

When the shelf is in the flat-laid state, the bearing piece extends along the first linear direction, one end of the bearing piece is connected with the first bearing piece, and the other end of the bearing piece is connected with the second bearing piece, so that the shelf is kept in the flat-laid state;

When the bearing piece is separated from the second bearing piece or the bearing piece is separated from the first bearing piece along the first straight line direction; so that the shelf is adjusted from the flat state to the folded state.

6. The refrigerator having a shelf according to any one of claims 1 to 5, wherein the shelf further comprises:

The first bearing piece is rotatably connected with the second bearing piece through the hinge piece, so that the first bearing piece is rotatably adjusted between 0 and 180 degrees relative to the second bearing piece.

7. The refrigerator with shelves of claim 6, wherein the number of first carriers is two;

When the shelf is in the flat state, the second bearing piece is positioned between the two first bearing pieces along the first straight line direction, and one first bearing piece is rotationally connected with the second bearing piece through the hinge piece;

When the shelf is in the flat-laid state, the sum of the width dimensions of the two first bearing pieces is smaller than or equal to the width dimension of the second bearing piece along the first straight line direction.

8. The refrigerator having a shelf of claim 6, wherein the shelf further comprises a fastener;

When the shelf is in the flat state, fastening grooves are formed in the same side of the two first bearing pieces along the up-down direction, and the fastening grooves extend along the first straight line direction in a direction away from the second bearing pieces; the fastener is positioned in the fastening groove of one of the bearing pieces;

When the shelf is in the folded state, the two first bearing parts rotate to the same side of the second bearing parts, and the fastening grooves on the two first bearing parts are aligned and conducted along the first straight line direction; the fasteners are press fit into the aligned two of the fastener slots to retain the shelf in the folded condition.

9. The refrigerator with shelves according to any one of claims 1 to 5, further comprising at least four guide rails extending in the up-down direction;

Along the first linear direction, two guide rails are positioned in the accommodating cavity and close to the opening, and the other two guide rails are positioned in the accommodating cavity and far away from the opening;

The two guide rails close to the opening are distributed on two opposite sides of the accommodating cavity along a second linear direction, and the two guide rails far away from the opening are distributed on two opposite sides of the accommodating cavity along the second linear direction;

the guide rail piece is provided with a plurality of first limiting parts which are distributed at intervals along the up-down direction;

the second straight line direction is perpendicular to the up-down direction and the first straight line direction.

10. A refrigerator having a shelf, comprising:

The refrigerator comprises a refrigerator body, wherein a containing cavity is arranged in the refrigerator body and is used for refrigerating or freezing objects, an opening is formed in one side of the containing cavity in a first straight line direction, and the first straight line direction is perpendicular to the upper and lower directions;

The first limiting parts are distributed in the accommodating cavity at intervals along the up-down direction;

and at least one shelf configured to have a tiled state and a folded state;

When the shelf is in a flat state, the shelf is detachably connected with the plurality of first limiting parts, so that the shelf separates the accommodating cavity along the up-down direction;

When the shelf is in a folding state, the shelf is detachably connected with the plurality of first limiting parts, at least part of the shelf is vertically arranged along the first straight line and is close to the opening, and the shelf is used for plugging part of the accommodating cavity along the first straight line direction.