CN218672787U - Refrigerator with storage frame that can hover - Google Patents

Abstract

The utility model provides a refrigerator with a hovering storage frame, which comprises a cabinet body and the storage frame positioned at the cabinet opening of the cabinet body; the storage frame is rotationally connected to the cabinet body along the up-down direction, and the storage frame is in a containing state of being contained in the cabinet body and in a turning state of turning towards the outer side of the cabinet body; a hovering assembly enabling the storage frame in a turnover state to hover is arranged between the storage frame and the cabinet body; the hovering component comprises a positioning column arranged on one of the cabinet body and the storage frame and a positioning groove arranged on the other storage frame, the positioning groove comprises at least one positioning part, and when the positioning column is positioned in the positioning part, the storage frame hovers; the hand of the user can be released, the storage frame does not need to be held by one hand all the time, and the user can conveniently take and place articles.

Description

Refrigerator with storage frame capable of hovering

Technical Field

The utility model relates to a refrigeration plant technical field especially relates to a freezer with storing frame that can hover.

Background

At present, in a refrigerator in the market, a storage frame is generally hung on a cabinet opening through a hanging arm, and when a user needs to take articles below the storage frame, the storage frame can be moved left and right along the horizontal direction at the cabinet opening. However, the friction between the hanging arm and the cabinet opening is large in the process of moving left and right, noise is easy to generate, and the hanging arm is difficult to move. Simultaneously, under the normal conditions, because article stack in the freezer is too much, lead to the storing frame to remove about unable, the user can only wholly propose the freezer with the storing frame and get article again, if article in the storing frame are more, propose that the storing frame can lead to the user to deposit and withdraw inconveniently harder, experience feels relatively poor.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, an object of the utility model is to provide a freezer with storage frame that can hover, the user of being convenient for gets and puts article.

In order to achieve one of the purposes of the utility model, the utility model provides a refrigerator with a hovering storage frame, which comprises a cabinet body and the storage frame positioned at the cabinet opening of the cabinet body; the storage frame is rotationally connected to the cabinet body along the up-down direction, and the storage frame is in a containing state of being contained in the cabinet body and in a turning state of turning towards the outer side of the cabinet body; a hovering assembly enabling the storage frame in a turnover state to hover is arranged between the storage frame and the cabinet body; the hovering assembly comprises a cabinet body, a positioning column and a positioning groove, the positioning column is arranged on one of the storage frames, the positioning groove is arranged on the other storage frame, the positioning groove comprises at least one positioning portion, the positioning column is located in the positioning portion, and the storage frames are hovered.

As a further improvement of the utility model, the positioning columns are movably connected; the constant head tank still include with the sliding section of location portion intercommunication the storing frame to the in-process of the upset of the external side of cabinet, the reference column is followed the sliding section removes, location portion apart from the distance of the rotation axle center of storing frame with the sliding section apart from the distance of the rotation axle center of storing frame is different.

As a further improvement of the present invention, the hovering assembly further includes an elastic member, and the positioning column is connected to the elastic member.

As a further improvement of the present invention, the positioning groove has an initial position and a terminal position, the positioning column is located at the initial position when the storage frame is in the storage state, and the positioning column is located at the terminal position when the storage frame is turned to the maximum opening angle; the positioning groove further comprises a reset groove section communicated with the initial position and the terminal position, and when the storage frame is switched from the overturning state to the accommodating state, the positioning column moves towards the initial position in the reset groove section.

As a further improvement of the present invention, the hovering assembly further comprises an elastic member, and the positioning column is connected to the elastic member; when the positioning column is located at the terminal position, the elastic piece provides a switching force for switching the positioning column into the reset groove section.

As a further improvement of the utility model, the elastic piece is a spring plate.

As a further improvement, the reset groove section is positioned on one side of the rotating axle center of the storage frame away from the positioning part.

As a further improvement of the present invention, the sliding section has a first section communicated with the positioning portion from an upper end of the positioning portion; the first section extends obliquely upward to the upper end of the positioning part, or the first section extends horizontally to the upper end of the positioning part.

As a further improvement of the utility model, the reference column is located on the storage frame, the constant head tank is located on the cabinet body.

As a further improvement of the present invention, the hovering assembly further includes a stop member disposed at the notch of the positioning groove, the stop member having a stop edge adapted to the notch shape of the sliding section.

As a further improvement of the utility model, a turnover mechanism for connecting the storage frame to the cabinet body in a vertical direction in a rotating manner is arranged between the storage frame and the cabinet body; the freezer still including with the storing frame can dismantle connect in locking mechanical system on the cabinet body, locking mechanical system locates tilting mechanism with between the storing frame or locking mechanical system locates tilting mechanism with between the cabinet body.

Compared with the prior art, the utility model discloses following beneficial effect has: the utility model provides a freezer, with the storing frame rotate connect in on the cabinet mouth of the cabinet body, just the storing frame can hover and predetermine the opening angle in at least one, need get to put at the user and be located during article of storing frame below, the upset the storing frame makes the storing frame is in the state of hovering, can release user's hand, need not a hand and is holding up always storing frame, the user of being convenient for gets and puts article.

Drawings

Fig. 1 is a schematic structural view of a refrigerator according to a first embodiment of the present invention (a door is in a closed state);

fig. 2 is a schematic structural view of the refrigerator in fig. 1 with the door removed (the storage frame is in a storage state);

fig. 3 is a schematic structural view of the refrigerator in fig. 1 with the door body in an open state (the storage box in a turned-over state);

FIG. 4 is an exploded view of the storage case of FIG. 1;

fig. 5 is a side view of the cooler shown in fig. 1 (the door not shown);

FIG. 6 is an enlarged view at A in FIG. 5;

FIG. 7 is an exploded view of the hover assembly of FIG. 5;

FIG. 8 is a schematic diagram of the storage case of FIG. 5 in a hovering state;

FIG. 9 is an enlarged view at B in FIG. 8;

fig. 10 is a schematic structural view of a refrigerator according to a second embodiment of the present invention (a storage case is in a storage state);

fig. 11 is a schematic structural view of the refrigerator shown in fig. 10 with the door body in an open state (the storage box in a turned-over state);

fig. 12 is a schematic structural view of a refrigerator according to a third embodiment of the present invention (a door is not shown, and a storage frame is separated from a cabinet body);

FIG. 13 is a schematic view of the storage frame of FIG. 12 shown in connection with the cabinet;

FIG. 14 is an exploded view of the storage frame and locking mechanism of FIG. 13 shown with the storage frame separated from the cabinet;

FIG. 15 is an exploded view of the storage case of FIG. 12;

fig. 16 is a schematic structural view of a refrigerator according to a fourth embodiment of the present invention (a storage frame is connected to a cabinet body);

fig. 17 is a schematic structural view of the refrigerator shown in fig. 16 (the storage frame is separated from the cabinet body);

FIG. 18 is an exploded view of the cover and frame body of the storage frame of FIG. 16;

FIG. 19 is an exploded view of the frame body of FIG. 18;

fig. 20 is a schematic structural view of a refrigerator according to a fifth embodiment of the present invention (a door is in an open state);

FIG. 21 is a schematic view of the structure of the storage frame of FIG. 20 (with the cover removed);

fig. 22 is a schematic view of another angle of the storage frame of fig. 21.

Detailed Description

The present invention will be described in detail with reference to the embodiments shown in the drawings, and reference is made to fig. 1-22, which are preferred embodiments of the present invention, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. It should be noted that these embodiments are not intended to limit the present invention, and those skilled in the art should understand that the equivalent transformation or substitution of the function, method, or structure based on these embodiments is within the protection scope of the present invention.

The terms first, second, etc. in the present application are used for descriptive purposes only to distinguish these descriptive objects from one another and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated; in addition, unless expressly stated or limited otherwise, the term "coupled" is intended to be inclusive, i.e., that a connection may be direct or indirect via intermediate media, fixed or movable, or detachable or integral. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the various drawings of the present invention, certain dimensions of structures or portions may be exaggerated relative to other structures or portions for ease of illustration, and thus, are used only to illustrate the basic structure of the subject matter of the present invention.

Referring to fig. 1 to 9, a refrigerator 100 having a reversible storage case 2 according to a first embodiment of the present invention is shown. Specifically, the refrigerator 100 includes a cabinet body 1, a storage frame 2 rotatably connected to a cabinet opening of the cabinet body 1, and a door body 3 located at an upper side of the cabinet body 1 and used for opening or closing the cabinet body 1. As shown in fig. 2 to 3, the storage frame 2 has a horizontal state in the accommodating state of the cabinet opening and a turnover state in which the storage frame is turned over to the outside of the cabinet body 1. On one hand, the storage frame 2 is arranged at the opening of the refrigerator, so that articles in the refrigerator 100 can be stored in a partitioned manner; on the other hand, will storage frame 2 set up to rotate connect in the cabinet mouth of the cabinet body 1, need get to put at the user and be located when article in the space below storage frame 2, only need overturn storage frame 2 can, storage frame 2 also can not with other article in the cabinet body 1 interfere mutually, and the user of being convenient for gets and puts article.

It is known that the door 3 can close the cabinet 1 when the console box 2 is in the storage state as shown in fig. 2. After a user takes and puts the articles in the space below the storage frame 2, the door body 3 can be closed only by downwards rotating the storage frame 2 to enable the storage frame 2 to be in the accommodating state.

Specifically, the cabinet body 1 has a first inner wall 11 located on the side of the rotating end of the storage frame 2, two second inner walls 12 vertically extending from two opposite ends of the first inner wall 11 in the same direction, and a third inner wall 13 connecting the two second inner walls 12 away from one end of the first inner wall 11, wherein the first inner wall 11, the second inner walls 12 and the third inner wall 13 jointly enclose a storage space for storing articles in the cabinet body 1.

Further, a turnover mechanism 4 is arranged between the storage frame 2 and the cabinet body 1, so that the storage frame 2 is rotatably connected to the cabinet body 1.

In a specific embodiment, two turnover mechanisms 4 are disposed between the storage frame 2 and the cabinet body 1, so as to enhance the stability of rotation of the storage frame 2. Of course, this is not a limitation.

In this embodiment, the storage frame 2 has two side walls 21 corresponding to the two second inner walls 12, and the two turnover mechanisms 4 are respectively disposed between the two side walls 21 and the corresponding second inner walls 12. The length of the storage frame 2 along the arrangement direction of the two second inner walls 12 is made to be full of the cabinet opening, so that the storage space in the storage frame 2 is enlarged, and the arrangement of the turnover mechanism 4 is facilitated.

Specifically, the turnover mechanism 4 includes a first fixing member 41 connected to the cabinet 1 and a second fixing member 42 connected to the storage frame 2, and the first fixing member 41 and the second fixing member 42 are rotatably connected to each other, so that the storage frame 2 is rotatably connected to the cabinet 1. The stability of the storage frame 2 rotating connection can be improved.

Referring to fig. 10 to fig. 11, a refrigerator 100a according to a second embodiment of the present invention is shown. The second embodiment of the present invention is different from the first embodiment in that: the turnover mechanism 4 is arranged between the rotating end of the storage frame 2 and the first inner wall 11, so that the storage frame 2 is rotationally connected to the cabinet body 1. At this moment, the extension length of the storage frame 2 along the arrangement direction of the two second inner walls 12 can be set according to specific requirements, that is, the extension length of the storage frame 2 along the arrangement direction of the two second inner walls 12 is not necessarily set to be fully paved at the cabinet opening, and the universality is strong.

In one embodiment, an abdicating space 10 for taking and placing articles is provided between at least one side of the storage frame 2 corresponding to the second inner wall 12 and the corresponding second inner wall 12. That is, the extension length of the storage frame 2 in the arrangement direction of the two second inner walls 12 is smaller than the distance between the two second inner walls 12. Therefore, when a user needs to take and place an article in the abdicating space 10, even if the article is located below the storage frame 2 and close to the abdicating space 10, the article can be taken and placed directly through the abdicating space 10 without turning over the storage frame 2, so that the user can take and place the article conveniently.

The second embodiment of the present invention is the same as the first embodiment except for the above differences, and therefore, the description thereof is omitted.

Further, as shown in fig. 2 to 4, the cabinet body 1 has a pivot end 20 rotatably connected to the door body 3, and the pivot end of the storage frame 2 is rotatably connected to the pivot end 20 of the cabinet body 1. I.e. the first inner wall 11 is located at the pivot end 20. Accords with the ergonomics and is convenient for a user to apply force to turn over the storage frame 2.

Further, the storage frame 2 has a free end opposite to the rotation end, and a lap edge 22 provided at the free end and extending in a direction away from the rotation end. One side of the cabinet opening corresponding to the free end is provided with a lapping part 14 protruding towards the cabinet body 1, and when the storage frame 2 is in a storage state, the lapping edge 22 is lapped on the lapping part 14. The lap joint part 14 and the turnover mechanism 4 support the storage frame 2 from the two opposite ends of the storage frame 2, and the stability of the storage frame 2 in the accommodating state can be enhanced.

Further, a flexible pad is provided on one of the overlapping edge 22 and the overlapping portion 14. Noise can be reduced.

In one embodiment, the flexible pad is disposed on a side of the overlapping edge 22 facing the overlapping portion 14. Of course, this is not a limitation.

Specifically, referring to fig. 2, in the present embodiment, when the storage frame 2 is in the storage state, the storage frame 2 is stored in the cabinet 1. In this case, the overlapping edge 22 is provided on the upper surface of the storage frame 2. Of course, this is not a limitation.

Further, the overlapping edge 22 has a notch 221 thereon, and the storage frame 2 has a handle portion 23 located at the notch 221 so as to facilitate the user to turn the storage frame 2.

In this embodiment, the handle portion 23 is located on a side of the notch 221 facing the rotation end. Of course, this is not a limitation. In other embodiments, the handle portion 23 may also be located on a side of the notch 221 away from the rotation end; or the overlap edge 22 is not provided with the notch 221, and the handle portion 23 is formed by directly downward facing the upper surface of the storage frame 2 or the overlap edge 22 and being recessed toward the horizontal direction, where the horizontal direction includes but is not limited to the direction away from the rotation end or the direction toward the rotation end.

Further, the storage case 2 includes a case body 24 having a cavity, and an upper side of the case body 24 has an opening for accessing an object. The console box 2 further includes a cover 25 for opening or shielding the opening. The articles in the storage frame 2 in the overturning state can be prevented from falling.

Further, the cover 25 includes a plurality of sub covers 251 arranged side by side along the horizontal direction, and the sub covers 251 are slidably connected to the frame body 24. Opening and closing of the cover 25 is facilitated.

Specifically, the plurality of sub-covers 251 are slidably connected to the frame body 24 along the arrangement direction of the two second inner walls 12. Of course, this is not a limitation.

Specifically, the frame body 24 has two connecting walls 26 extending in the same direction as the sliding direction of the sub-cover 251 and disposed oppositely, the upper end of the connecting wall 26 has a flange 261 extending oppositely, the flange 261 has a sliding slot 262, and the sub-cover 251 is slidably connected in the sliding slot 262.

It can be known that the number of the sliding grooves 262 on each side is plural, the plural sliding grooves 262 correspond to the sub-cover 251 one by one, and the plural sliding grooves 262 are arranged along the up-down direction. So that the sub-covers 251 can be overlapped with each other, and a user can conveniently push and pull the sub-covers 251 to access an article or close the opening.

In an alternative embodiment, the upper surface of the sub-cover 251 is recessed downward to form a recess 2511 extending along the sliding direction thereof, the lower surface of the sub-cover 251 is provided with a protrusion corresponding to the recess 2511, and two adjacent sub-covers 251 are slidably connected through the recess 2511 and the protrusion. The stability of the sub-cover 251 sliding can be enhanced.

It will be appreciated that the raised line is formed by the bottom of the recess 2511 that is recessed downward.

Further, an operation groove 2513 and an operation block 2514 disposed in the operation groove 2513 are recessed in the upper surface of the sub-cover 251. It is convenient for the user to push or pull the sub-cover 251.

Specifically, the upper surface of the operation block 2514 is not higher than the upper surface of the sub-cover 251. The user can conveniently operate the sub-cover 251 through the operation block 2514, the sliding path of the sub-cover 251 can be increased, the size of the opening opened by the sub-cover 251 is increased, and the user can conveniently take and place articles.

In a specific embodiment, the operation slot 2513 is a part of the recess 2511, which simplifies the structure of the cover 25.

Further, the storage frame 2 further comprises a partition plate 27 arranged in the frame body 24 to partition the accommodating cavity, so that articles can be stored in a partitioned mode, and odor tainting among articles of different types is avoided.

Further, at least a part of the partition 27 is detachably attached to the inside of the frame body 24. Therefore, the size of the subareas can be adjusted according to the size of the articles to be stored, and the universality of the storage frame 2 is enhanced.

It can be known that, a part of the partition plate 27 can be fixedly arranged in the frame body 24, and another part of the partition plate 27 can be detachably connected in the frame body 24 through a detachable connection structure, such as a clamping groove, a clamping column, etc. Of course, the present invention is not limited thereto, and all the partition plates 27 may be detachably attached to the inside of the frame body 24.

Further, a reinforcing part is arranged in the cabinet body 1, and the turnover mechanism 4 is connected to the reinforcing part, that is, the storage frame 2 is rotatably connected to the reinforcing part. Can strengthen the cabinet body 1 is right the support intensity of storing frame 2 strengthens storing frame 2 with the stability of being connected between the cabinet body 1.

Specifically, the cabinet body 1 has an inner container therein, the reinforcement includes a first reinforcement iron disposed on an inner wall of the inner container and a second reinforcement iron disposed on an outer wall of the inner container, and the first reinforcement iron and the second reinforcement iron are fixedly connected. The supporting strength of the storage frame 2 by the cabinet body 1 can be further enhanced, and the stability of connection between the storage frame 2 and the cabinet body 1 is enhanced. Of course, this is not a limitation.

Further, as shown in fig. 5 to 9, a hovering assembly 5 is disposed between the storage frame 2 and the cabinet 1, so that the storage frame 2 in the flipped state is suspended at a preset opening angle, so that the storage frame 2 in the flipped state has a hovering state at the preset opening angle. When a user needs to take and place an article below the storage frame 2, the storage frame 2 is turned over and the storage frame 2 is in a hovering state, so that the hand of the user can be released, the user does not need to hold the storage frame 2 with one hand, and the user can take and place the article conveniently.

In this embodiment, the hovering assembly 5 includes a positioning column 55 disposed on one of the cabinet 1 and the storage frame 2, and a positioning groove 56 disposed on the other, where the positioning groove 56 includes at least one positioning portion, and when the positioning column 55 is located at the positioning portion, the storage frame 2 hovers. That is, in the present embodiment, the positioning column 55 is positioned at the positioning portion preset in the positioning groove 56, so that the storage frame 2 is suspended.

Specifically, when the positioning groove 56 includes at least two positioning portions, the at least two positioning portions are circumferentially spaced apart from each other around the rotation axis of the storage frame 2. Here, it is not limited whether the distance from each positioning portion to the rotation axis is the same, and the distance from each positioning portion to the rotation axis may be set according to specific requirements.

In one embodiment, the positioning groove 56 includes three positioning portions, that is, the storage frame 2 can be suspended at three different preset opening angles, so that a user can control the suspension angle of the storage frame 2 according to specific requirements.

Specifically, along the moving direction of the positioning column 55 in the process of turning over and opening the storage frame 2, the three positioning portions are respectively a first positioning portion 561, a second positioning portion 562, and a third positioning portion 563 which are arranged in sequence.

In this embodiment, the positioning column 55 is disposed on the storage frame 2, and the positioning groove 56 is disposed on the cabinet 1. Of course, this is not a limitation. In other embodiments, the positioning column 55 may also be disposed on the cabinet 1, and the positioning groove 56 is disposed on the storage frame 2.

The positioning column 55 is disposed on the storage frame 2, and the positioning groove 56 is disposed on the cabinet 1.

Further, the positioning column 55 is movably connected to the storage frame 2. The constant head tank 56 still include with the sliding section of location portion intercommunication the storing frame 2 to the in-process of the upset in the cabinet body 1 outside, reference column 55 is followed the sliding section removes, location portion apart from the distance of the rotation axle center of storing frame 2 with the sliding section is apart from the distance of the rotation axle center of storing frame 2 is different. That is, in the rotating process of the storage frame 2, the positioning column 55 is always matched with the positioning groove 56, so that a user only needs to turn the storage frame 2 upwards to a preset opening angle and then loosen the storage frame 2, the storage frame 2 can be in a hovering state, and the operation is simple.

Specifically, the hovering assembly 5 further includes an elastic member 57 fixed on the storage frame 2, and the positioning column 55 is connected to the elastic member 57. That is, the positioning member is movably connected to the storage frame 2 through the elastic member 57, so that the distance between the positioning member and the rotation axis of the storage frame 2 can be changed according to the shape of the positioning groove 56. During the process of turning the storage frame 2 upwards, the positioning column 55 moves along the positioning groove 56, and the elastic member 57 keeps the positioning column 55 in the positioning groove 56 all the time.

In one embodiment, the elastic member 57 is a spring sheet, which is relatively stable. Of course, this is not a limitation.

Further, the sliding section has a first section L communicating with the positioning portion from an upper end of the positioning portion; the first section L extends obliquely upward to an upper end of the positioning part, or the first section L extends horizontally to the upper end of the positioning part. That is, in the process of opening the storage frame 2 by flipping upwards, the positioning column 55 moves to the positioning portion through the first section L, and at this time, the storage frame 2 is loosened, and under the action of the self gravity of the storage frame 2, the positioning column 55 abuts against the positioning portion upwards, so that the positioning column 55 can be kept on the positioning portion, and the stability of the storage frame 2 in the hovering state is enhanced, and the storage frame is relatively safe.

The utility model provides a sliding section is except foretell first section L, and is not specifically limited the shape and the length of other parts of sliding section, the sliding section as long as set up to make the setting element remove smoothly to the location portion that corresponds can.

Specifically, the positioning slot 56 has an initial position, a terminal position 564, and the sliding section and the positioning portion are located between the initial position and the terminal position 564. When the storage box 2 is in the storage state, the positioning column 55 is located at the initial position, and when the storage box 2 is turned to the maximum opening angle, the positioning column 55 is located at the terminal position 564.

In an embodiment where the positioning groove 56 includes three positioning portions, the slide section includes a first slide section 565 communicating the initial position with the first positioning portion 561, a second slide section 566 communicating the first positioning portion 561 with the second positioning portion 562, a third slide section 567 communicating the second positioning portion 562 with the third positioning portion 563, and a fourth slide section 568 communicating the third positioning portion 563 with the final position 564.

It is to be noted that a section of the first sliding section 565 near the first positioning portion 561, a section of the second sliding section 566 near the second positioning portion 562, and a section of the third sliding section 567 near the third positioning portion 563 are the above-mentioned first section L.

Further, the positioning slot 56 further includes a reset slot section 569 communicating the initial position and the terminal position 564, and when the storage frame 2 is switched from the flipped state to the storage state, the positioning column 55 moves to the initial position in the reset slot section 569. The reset groove section 569 communicates with both the fourth sliding section 568 and the first sliding section 565, so that the positioning column 55 can be switched between the reset groove section 569 and the sliding sections (the first sliding section 565, the fourth sliding section 568).

Further, when the positioning post 55 is located at the terminal end position 564, the elastic member 57 provides a switching force for switching the positioning post 55 into the reset groove section 569. When the storage frame 2 needs to be rotated downwards, the storage frame 2 is turned upwards to the maximum opening angle, so that the positioning column 55 is located at the terminal position 564, at this time, under the action of the elastic restoring force of the elastic piece 57, the positioning column 55 is switched to the reset groove section 569, after the user loosens the storage frame 2, under the action of the self gravity of the storage frame 2, the positioning column 55 moves along the reset groove section 569, and after the storage frame 2 is switched to the accommodating state, the positioning column 55 moves to the initial position.

In particular, the maximum opening angle is less than 90 °.

Specifically, the reset groove 569 is located on a side of the positioning portion away from the rotation axis of the storage basket 2. After the positioning post 55 moves in the reset slot section 569 to an end of the reset slot section 569 close to the initial position, the elastic member 57 provides a switching force for switching the positioning post 55 to the initial position, so that the positioning post 55 can be switched between the sliding section and the reset slot section 569. The storage frame 2 can be smoothly switched between the storage state and the reversed state.

Further, the hovering component 5 further comprises a stopping member 58 disposed in the notch of the positioning slot 56, wherein the stopping member 58 has a stopping edge adapted to the shape of the notch of the sliding section. So as to further prevent the positioning column 55 from coming out of the positioning slot 56, and enhance the suspension stability of the storage frame 2.

Specifically, the stop member 58 is disposed on a side of the positioning slot 56 away from the reset slot section 569, and the stop edge is the same as the notch of the sliding section. Of course, the invention is not limited thereto, and in other embodiments, the positioning column 55 can be prevented from falling out of the positioning slot 56 by increasing the depth of the positioning slot 56.

Further, the hovering assembly 5 is disposed between the first fixing member 41 and the second fixing member 42. Specifically, the positioning groove 56 is disposed on the first fixing member 41, and the elastic sheet and the positioning column 55 are disposed on the second fixing member 42, so as to simplify the structure of the refrigerator 100 b. Of course, this is not a limitation.

Referring to fig. 12 to 15, a refrigerator 100b according to a third embodiment of the present invention is different from the refrigerator 100b according to the first embodiment of the present invention in that: the refrigerator 100b further comprises a locking mechanism 6 detachably connected to the storage frame 2 on the cabinet body 1, wherein the locking mechanism 6 is arranged between the turnover mechanism 4 and the storage frame 2 or the locking mechanism 6 is arranged between the turnover mechanism 4 and the cabinet body 1. The storage frame 2 can be separated from the cabinet body 1 through the locking mechanism 6, on one hand, when a large amount of articles are stored in the cabinet body 1, the storage frame 2 can be removed, so that the storage frame 2 is prevented from influencing the articles stored in the cabinet body 1; on the other hand, the storage frame 2 can be separated from the cabinet body 1 for independent use, so that the universality of the storage frame 2 is enhanced.

Specifically, in the present embodiment, the locking mechanism 6 is disposed between the turnover mechanism 4 and the storage frame 2, that is, the first fixing member 41 is fixedly connected to the cabinet 1, and the second fixing member 42 is detachably connected to the storage frame 2 through the locking mechanism 6. Of course, this is not a limitation.

The lock mechanism 6 is disposed between the turnover mechanism 4 and the console box 2, that is, the lock mechanism 6 is disposed between the second fixing member 42 and the console box 2.

Referring to fig. 14, in the present embodiment, the locking mechanism 6 includes an insertion block 61 and an insertion groove 62 that are mutually matched, one of the insertion block 61 and the insertion groove 62 is disposed on the storage frame 2, the other is disposed on the second fixing member 42, the cross section of the insertion block 61 is non-circular, and the shape of the insertion groove 62 is matched with the insertion block 61. As shown in fig. 13, after the insertion block 61 is inserted into the insertion slot 62, the storage basket 2 is connected to the cabinet 1, and the second fixing member 42 rotates synchronously with the storage basket 2, that is, the storage basket 2 rotates synchronously with the turnover mechanism 4; as shown in fig. 12 and 14, after the insertion block 61 is disengaged from the insertion groove 62, the storage frame 2 is separated from the cabinet 1. The structure is simple.

In this embodiment, the slot 62 includes a first slot wall 621, a second slot wall 622 and a third slot wall 623, wherein the first slot wall 621 and the second slot wall 622 are disposed oppositely and at an interval, and the third slot wall 623 is connected to one end of the first slot wall 621 and the second slot wall 622 on the same side, and a slot opening for the insertion block 61 to enter and exit the slot 62 is formed at one end of the first slot wall 621 and the second slot wall 622 away from the third slot wall 623. The insertion block 61 can be inserted into or separated from the insertion groove 62 by directly pushing the storage frame 2 along the extension direction of the insertion groove 62, and the operation is simple and convenient. Of course, the insertion slot 62 is not limited to this, and in other embodiments, the insertion block 61 may be inserted into or separated from the insertion slot 62 through elastic deformation of the insertion block 61 and/or the storage frame 2 itself.

Further, the locking mechanism 6 further includes a locking member 63 disposed in the notch to prevent the insert 61 from coming out of the insert slot 62. The stability of the storage frame 2 in the rotating process is enhanced, and the safety performance is improved.

Further, the length of the first groove wall 621 is greater than that of the second groove wall 622, the locking mechanism 6 further includes a stop wall 64 located at an end of the first groove wall 621 away from the third groove wall 623 and extending in the same direction as the third groove wall 623, and after the insert 61 is inserted into the insert groove 62, the locking member 63 abuts between the insert 61 and the stop wall 64. Can restrict the inserted block 61 is in rock in the slot 62, avoid the inserted block 61 certainly the notch breaks away from slot 62, the reinforcing the stability of storing frame 2 rotation in-process improves the security performance.

In one embodiment, the locking member 63 is snap-fit connected to the first groove wall 621, so that the locking member 63 is easily engaged with the first groove wall 621. Of course, this is not a limitation.

Specifically, the locking end of the locking member 63 has two opposite elastic arms 631 arranged at intervals, at least one of the ends of the elastic arms 631 is provided with a protrusion 632, and the first groove wall 621 is provided with a clamping groove 6211 matched with the protrusion 632. After the insert 61 is inserted into the insert slot 62 and abuts against the third groove wall 623, the locking member 63 is connected to the first groove wall 621 through the cooperation between the protrusion 632 and the locking groove 6211, and the locking member 63 abuts against between the insert 61 and the stop wall 64. Can restrict the inserted block 61 is in rock in the slot 62, avoid the inserted block 61 certainly the notch breaks away from slot 62, the reinforcing the stability of storage frame 2 rotation in-process improves the security performance.

In this embodiment, the insertion slot 62 is disposed on the second fixing member 42, and the insertion block 61 is disposed on the storage frame 2. Of course, this is not a limitation.

Further, in the embodiment where the insertion groove 62 is disposed on the second fixing member 42 and the insertion block 61 is disposed on the storage frame 2, the first groove wall 621 is located at a lower side of the second groove wall 622, that is, the first groove wall 621 cooperates with the insertion block 61 to support the storage frame 2, so as to enhance the stability of the storage frame 2.

Further, the notch is located at an end of the slot 62 near the pivot end 20, i.e., the third slot wall 623 is located at an end of the slot 62 away from the pivot end 20, and the notch is open upward and toward the pivot end 20. When the storage frame 2 is installed, the storage frame 2 is directly pressed down to enable the insertion block 61 to enter the slot 62 from the upper portion of the notch, then the storage frame 2 is pulled towards the direction far away from the pivoting end 20, the insertion block 61 is abutted against the third slot wall 623, and finally the locking piece 63 is installed. When the storage frame 2 needs to be removed, the locking member 63 is removed, the storage frame 2 is pushed toward the pivoting end 20 to separate the insertion block 61 from the limit of the second groove wall 622, and then the storage frame 2 is extracted upwards to separate the storage frame 2 from the cabinet 1.

Specifically, the second fixing member 42 has a connecting plate 421 protruding in a direction away from the pivot end 20, and the insertion groove 62 is formed at an upper end of the connecting plate 421. The slot 62 is formed by first depressing the upper end of the connecting plate 421 downward and then depressing the side away from the pivot end 20.

The catching groove 6211 is formed on the connection plate 421. Specifically, the connecting plate 421 includes an upper portion and a lower portion connected to each other, the upper portion forms the insertion groove 62, a stepped portion is formed at a connection position of the lower portion and the upper portion, the side of the lower portion being far away from the storage frame 2, and the stepped portion forms the snap-in groove 6211.

Further, the insert 61 includes an insertion portion 611 connected to the storage basket 2, and a limiting portion 612 bent from an end of the insertion portion 611 away from the storage basket 2; after the insert block 61 is inserted into the slot 62, the insertion portion 611 is located in the slot 62, and the limiting portion 612 abuts against the outer side of the slot 62, that is, the limiting portion 612 abuts against the side of the first slot wall 621 away from the storage frame 2. The storage frame 2 can be limited to swing along the horizontal direction, the insertion block 61 is prevented from being separated from the insertion groove 62, and the connection stability of the storage frame 2 is enhanced.

Furthermore, a reinforcing rib is arranged between the inserting part 611 and the storage rack 2, so that the bearing capacity of the inserting block 61 is enhanced, and the connection stability of the storage rack 2 is enhanced.

Further, a cool storage chamber 28 for accommodating a cool storage plate 30 is provided in the storage case 2. When the storage frame 2 and the cabinet body 1 are separated and used independently, a cold storage plate 30 can be arranged in the cold storage cavity 28 to keep the articles in the storage frame 2 fresh, so that the universality of the storage frame 2 is enhanced.

In this embodiment, the cold storage chamber 28 is provided on the side wall 21 of the storage frame 2, and has a good cold insulation effect. Of course, this is not a limitation.

Further, the bottom of the storage frame 2 is provided with a roller 8. Storage frame 2 with when the cabinet body 1 phase separation exclusive use, gyro wheel 8 can roll on the holding surface, has laborsaving effect, is convenient for the user to stimulate storage frame 2.

The third embodiment of the present invention is identical to the first embodiment except for the above differences, and is not repeated herein.

Referring to fig. 16 to 19, a freezer 100c according to a fourth embodiment of the present invention is different from the freezer 100b according to the third embodiment of the present invention in that: the locking mechanism 6c includes an engaging groove 65 and a locking tongue 66 that are engaged with each other, one of the engaging groove 65 and the locking tongue 66 is disposed on the storage frame 2c, and the other is disposed on the second fixing member 42. After the clamping tongue 66 is clamped in the clamping groove 65, the storage frame 2c is connected to the cabinet body 1; after the latch 66 is disengaged from the engaging groove 65, the storage frame 2c is separated from the cabinet 1. Simple structure and simple operation.

In the present embodiment, the engagement groove 65 is provided in the storage frame 2c, and the engagement tongue 66 is provided in the second fixing member 42. Of course, this is not a limitation.

Further, in the embodiment that the engaging groove 65 is disposed on the storage frame 2c, and the latch 66 is disposed on the second fixing member 42, one end of the engaging groove 65 close to the pivoting end 20 has a notch for the latch 66 to go in and out, and the latch 66 protrudes toward a direction away from the pivoting end 20, so that, when the storage frame 2c is installed, only the storage frame 2c needs to be pushed toward the pivoting end 20 to enable the latch 66 to be latched into the engaging groove 65, and when the storage frame 2c is disassembled, only the storage frame 2c needs to be pulled toward a direction away from the pivoting end 20 to enable the latch 66 to be disengaged from the engaging groove 65. Correspondingly, in the embodiment where the engaging groove 65 is provided in the turnover mechanism 4 and the latch 66 is provided in the storage case 2c, the end of the engaging groove 65 away from the pivot end 20 has a notch for the latch 66 to enter and exit, and the latch 66 protrudes toward the pivot end 20, so that the storage case 2c can be mounted and dismounted by the above-mentioned operation, which is simple and convenient to operate.

Furthermore, a limiting groove 661 is concavely arranged on the upper surface and/or the lower surface of the latch 66, a limiting block 651 matched with the limiting groove 661 is convexly arranged on the latching groove 65, after the latch 66 is latched into the latching groove 65, the limiting block 651 is limited in the limiting groove 661, the contact area between the latch 66 and the latching groove 65 is increased, and the stability of the storage frame 2c is enhanced.

Furthermore, a guide inclined plane which is matched with each other is arranged between the limiting groove 661 and the limiting block 651, so that the limiting block 651 can be clamped into or separated from the limiting groove 661, and the storage frame 2c can be conveniently installed and detached.

Specifically, the engaging groove 65 includes a first wall 652, a second wall 653 located above the first wall 652 and spaced apart from the first wall 652, and a third wall 654 connecting the first wall 652 and the second wall 653, and reinforcing ribs are provided between the third wall 654 and the housing 2c and between the first wall 652 and the housing 2c. On one hand, under the matching of the limit block 651 and the limit groove 661, the second wall 653 can be slightly deformed so that the limit block 651 can be clamped into or separated from the limit groove 661, and the mounting and dismounting of the storage frame 2c can be realized; on the other hand, the support performance of the engaging groove 65 is enhanced, and the stability of the storage case 2c attached to the refrigerator 100c is enhanced.

It can be known that when the stop block 651 is located at an end of the first wall 652 and/or the second wall 653 away from the third wall 654, the stop groove 661 is located at a connection between the latch 66 and the second fixing member 42; when the stopper 651 is located at one end of the first wall 652 and/or the second wall 653 close to the third wall 654, the stopper groove 661 is located at one end of the latch 66 away from the second fixing member 42, so as to increase the contact area between the latch 66 and the engaging groove 65 and enhance the stability of the storage frame 2c.

In a specific embodiment, the latch 66 includes at least two sub-latches arranged at intervals along the vertical direction, and the engaging slot 65 includes at least two sub-engaging slots corresponding to the at least two sub-latches 66 one to one. The engaging groove 65 includes a first wall 652 and two second walls 653 that are located on the upper side of the first wall 652 and are arranged at intervals in the vertical direction, the first wall 652 and the adjacent second wall 653 form the sub engaging groove located on the lower side, and the adjacent second walls 653 form the sub engaging groove located on the upper side. Of course, this is not a limitation.

Further, in the present embodiment, the cold storage chamber 28d is provided at the bottom of the console box 2c, and the console space of the console box 2c can be increased.

Further, the refrigerator 100 further includes a quick cooling plate 7 disposed in the storage frame 2c, and the quick cooling plate 7 may be directly disposed on the cold storage plate 30, so that the cold of the cold storage plate 30 can be utilized to quickly freeze the food.

Further, in the present embodiment, a handle groove 222 is recessed in a direction away from the rotation end with an upper surface of a free end of the storage frame 2c facing downward. The free end may also be the ledge 22, i.e., the handle slot 222 may also be recessed in the ledge 22. The storage frame 2c is more convenient for users to operate according to the ergonomics.

It is understood that the handle groove 222 in the present embodiment is not limited to the present embodiment, and the handle groove 222 in the present embodiment may be directly recessed in the overlapping edge 22 without providing the notch 221 in the other embodiments described above.

Further, the upper end of the sidewall 21 of the storage frame 2c corresponding to the turnover mechanism 4 has an outward flange 211, and the outward flange 211 shields the turnover mechanism 4 and the locking mechanism 6. Enhancing the appearance of the cooler 100.

The fourth embodiment and the third embodiment of the present invention are identical except for the above differences, and are not repeated herein.

Further, referring to fig. 20 to fig. 22, in order to obtain a refrigerator 100d according to a fifth embodiment of the present invention, the sixth embodiment is different from the first embodiment in that: the refrigerator 100d further includes a heat exchange mechanism for supplying cold to the inside of the storage frame 2. It can be known that, according to the principle that the cold air descends and the hot air ascends, the lower part is cooler and the upper part is hotter in the refrigerator 100d, and the air in the storage frame 2 and the air in the refrigerator 100d are not circulated. Therefore, the heat exchange mechanism is arranged, so that cold energy can be provided for the inside of the storage frame 2, and the fresh-keeping effect of the storage frame 2 is enhanced.

Specifically, the storage frame 2d includes a bottom wall 29, the bottom wall 29 has an air inlet 291 and an air outlet 292 disposed therethrough, and the heat exchange mechanism is a heat exchange fan 9 disposed at the air inlet 291 and/or the air outlet 292. Can make the air in the storing frame 2d and the circulation of the air in the cabinet body 1, reduce the temperature in the storing frame 2d, strengthen the fresh-keeping effect of storing frame 2.

Furthermore, the air inlet 291 and the air outlet 292 are respectively arranged at opposite angles of the storage frame 2d, so that a flow path of cold energy in the storage frame 2d can be increased, the heat exchange effect between the storage frame 2d and the refrigerator 100d is further improved, the temperature in the storage frame 2d is reduced, and the fresh-keeping effect of the storage frame 2d is enhanced.

Furthermore, the heat exchange hole 271 penetrating the partition plate 27d is formed in the partition plate 27d, so that the partition plate 27d can be prevented from blocking the flow of air in the storage frame 2d, the temperature in the storage frame 2d can be uniform, and the preservation effect of the storage frame 2d is enhanced.

Further, an accommodating cavity 31 is concavely arranged on the inner surface of the door body 3d in the direction away from the cabinet body 1, and when the door body 3d is in a closed state, the storage frame 2d is accommodated in the accommodating cavity 31. The storage space in the cabinet body 1 can be enlarged. It can be seen that, at this time, the overlapping edge 22 is provided on the bottom wall 29 of the console box 2 d.

Compared with the prior art, the utility model provides a freezer 100, with storage frame 2 rotate connect in on the counter opening of the cabinet body 1, just storage frame 2 can hover and open the angle in predetermineeing, need get at the user and put and be located during the article of storage frame 2 below, the upset storage frame 2 makes storage frame 2 is in the state of hovering, can release user's hand, need not a hand and is holding up always storage frame 2, the user of being convenient for gets and puts article.

It should be understood that although the specification describes embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and it will be appreciated by those skilled in the art that the specification as a whole may be appropriately combined to form other embodiments as will be apparent to those skilled in the art.

The above list of details is only for the practical implementation of the present invention, and they are not intended to limit the scope of the present invention, and all equivalent implementations or modifications that do not depart from the technical spirit of the present invention should be included in the scope of the present invention.

Claims (11)

1. A refrigerator with a hovering storage frame comprises a cabinet body and the storage frame positioned at a cabinet opening of the cabinet body; the method is characterized in that: the storage frame is rotationally connected to the cabinet body along the up-down direction, and the storage frame is in a containing state of being contained in the cabinet body and in a turning state of turning towards the outer side of the cabinet body; a hovering assembly enabling the storage frame in a turnover state to hover is arranged between the storage frame and the cabinet body; the hovering assembly comprises a positioning column arranged on one of the cabinet body and the storage frame and a positioning groove arranged on the other storage frame, the positioning groove comprises at least one positioning portion, and the storage frame hovers when the positioning column is located in the positioning portion.

2. The cooler with a hovering storage basket according to claim 1, wherein: the positioning columns are movably connected; the constant head tank still include with the sliding section of location portion intercommunication the storing frame to the in-process of the upset of the external side of cabinet, the reference column is followed the sliding section removes, location portion apart from the distance of the rotation axle center of storing frame with the sliding section apart from the distance of the rotation axle center of storing frame is different.

3. The cooler with a hovering storage basket according to claim 2, wherein: the hovering assembly further comprises an elastic part, and the positioning column is connected to the elastic part.

4. The cooler with a hovering storage basket according to claim 1, wherein: the positioning groove is provided with an initial position and a terminal position, the positioning column is located at the initial position when the storage frame is in a containing state, and the positioning column is located at the terminal position when the storage frame is turned to a maximum opening angle; the positioning groove further comprises a reset groove section communicated with the initial position and the terminal position, and when the storage frame is switched from the overturning state to the accommodating state, the positioning column moves towards the initial position in the reset groove section.

5. The cooler with a hovering storage basket according to claim 4, wherein: the hovering assembly further comprises an elastic part, and the positioning column is connected to the elastic part; when the positioning column is located at the terminal position, the elastic piece provides a switching force for switching the positioning column into the reset groove section.

6. The cooler with a hovering storage basket according to claim 3 or 5, wherein: the elastic piece is a spring piece.

7. The cooler with a hovering storage basket according to claim 4, wherein: the reset groove section is located on one side, away from the rotating axis of the storage frame, of the positioning portion.

8. The cooler with a hovering storage basket according to claim 2, wherein: the sliding section is provided with a first section communicated with the positioning part from the upper end of the positioning part; the first section extends obliquely upward to the upper end of the positioning part, or the first section extends horizontally to the upper end of the positioning part.

9. The cooler with a hovering storage basket according to claim 1, wherein: the positioning column is arranged on the storage frame, and the positioning groove is arranged on the cabinet body.

10. The cooler with a hovering storage basket according to claim 2, wherein: the hovering assembly further comprises a stop piece arranged on the notch of the positioning groove, and the stop piece is provided with a stop edge matched with the shape of the notch of the sliding section.

11. The cooler with a hovering storage basket according to claim 1, wherein: a turnover mechanism used for connecting the storage frame to the cabinet body in a vertical rotating manner is arranged between the storage frame and the cabinet body; the freezer still including with the storing frame can dismantle connect in locking mechanical system on the cabinet body, locking mechanical system locates tilting mechanism with between the storing frame or locking mechanical system locates tilting mechanism with between the cabinet body.

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