CN215930277U

CN215930277U - Refrigerator with a door

Info

Publication number: CN215930277U
Application number: CN202121976669.6U
Authority: CN
Inventors: 刘庆华; 唐义亭; 魏建
Original assignee: TCL Home Appliances Hefei Co Ltd
Current assignee: TCL Home Appliances Hefei Co Ltd
Priority date: 2021-08-20
Filing date: 2021-08-20
Publication date: 2022-03-01
Anticipated expiration: 2031-08-20

Abstract

The application provides a refrigerator, which comprises a refrigerator body, a door body and a rotating mechanism; the door body is connected with the box body and can rotate relative to the box body to open or close the box body; the rotating mechanism is connected between the box body and the door body, the rotating mechanism comprises three hinge assemblies, one hinge assembly comprises a hinge pin arranged on the door body and a sliding groove arranged on the box body, the two hinge assemblies respectively comprise a sliding groove arranged on the door body and a hinge pin arranged on the box body, and the hinge pin can slide in the sliding groove, so that the door body rotates relative to the box body by taking different hinge pins as a rotating center in sequence. The refrigerator that this application embodiment provided utilizes hinge pin and the hinge subassembly that the spout cooperation is constituteed to realize a body and box rotatable coupling, and the in-process that the door body was opened uses different hinge pins to rotate as the relative box of rotation center in proper order to do the rotation realization of multistage small angle through the door body and open the door, avoid the in-process that the door body was opened to move too much because of the door body is outer and by external space restriction refrigerator angle of opening the door.

Description

Refrigerator with a door

Technical Field

The application belongs to the technical field of household appliance equipment, and particularly relates to a refrigerator.

Background

With the continuous upgrade of home decoration concept, household appliances such as refrigerators are also continuously updated to meet the various demands of users on the household appliances. In the home decoration process, a user requires that the refrigerator not only has the functions of the household appliance, but also is integrated with the environment, so that the home decoration concept of embedded household appliances such as an embedded refrigerator appears.

At present, a refrigerator body and a door body of a refrigerator are mostly connected by a single-shaft hinge, and the door body does circular motion around a fixed shaft of the hinge so as to realize the opening and closing of the door body. In the process of opening a door body of an existing refrigerator, the edge part formed by the side wall of the door body close to a hinge and a front wall moves out of an extension line where the side wall of a refrigerator body is located, and for the condition that a gap between a shell and a wall body of the refrigerator such as an embedded refrigerator is small, the opening angle of the refrigerator door body is limited due to the design of the hinge.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a refrigerator to solve the problem that the opening angle of a door body is limited due to the fact that the door body moves outwards in the process that the door body is opened.

The embodiment of the application provides a refrigerator, which is characterized by comprising:

a box body;

the door body is connected with the box body and can rotate relative to the box body to open or close the box body; and

the rotating mechanism is connected between the box body and the door body and comprises three hinge assemblies, wherein one hinge assembly comprises a hinge pin arranged on the door body and a sliding groove arranged on the box body, the two hinge assemblies respectively comprise a sliding groove arranged on the door body and a hinge pin arranged on the box body, and the hinge pin can slide in the sliding groove so that the door body rotates relative to the box body by taking different hinge pins as a rotating center in sequence.

Optionally, the rotation mechanism comprises a first hinge assembly, a second hinge assembly and a third hinge assembly;

the first hinge assembly comprises a first hinge pin and a first sliding chute which are matched with each other, the second hinge assembly comprises a second hinge pin and a second sliding chute which are matched with each other, and the third hinge assembly comprises a third hinge pin and a third sliding chute which are matched with each other;

the first hinge pin, the second sliding groove and the third sliding groove are arranged on the door body, and the first sliding groove, the second hinge pin and the third hinge pin are arranged on the box body.

Optionally, the process from the closing of the box body to the opening of the box body of the door body includes a first stage, a second stage and a third stage; in the first stage, the door body rotates by a first angle by taking the first hinge pin as a rotation center; in the second stage, the door body rotates by a second angle by taking the second hinge pin as a rotation center; in the third stage, the door body rotates by a third angle by taking the third hinge pin as a rotation center.

Alternatively to this, the first and second parts may,

in the first phase, the first hinge pin rotates in the first runner while the second hinge pin slides in the second runner and the third hinge pin slides in the third runner;

in the second stage, the second hinge pin rotates in the second runner while the first hinge pin slides in the first runner and the third hinge pin slides in the third runner;

in the third stage, the third hinge pin rotates within the third runner while the first hinge pin slides within the first runner and the second hinge pin slides within the second runner.

Optionally, the first chute includes a first arc section and a second arc section which are connected, the second chute includes a third arc section and a fourth arc section which are connected, and the third chute includes a fifth arc section and a sixth arc section which are connected;

in the first stage, the second hinge pin slides within the third arc segment with the first hinge pin as a center of rotation, and the third hinge pin slides within the fifth arc segment with the first hinge pin as a center of rotation;

in the second stage, the first hinge pin slides in the first arc segment with the second hinge pin as a rotation center, and the third hinge pin slides in the sixth arc segment with the second hinge pin as a rotation center;

in the third stage, the first hinge pin slides within the second arc segment with the third hinge pin as a center of rotation, and the second hinge pin slides within the fourth arc segment with the third hinge pin as a center of rotation.

Alternatively to this, the first and second parts may,

a first position is arranged at one end of the first arc section, which is far away from the second arc section, a second position is arranged at the joint of the first arc section and the second arc section, and a third position is arranged at one end of the second arc section, which is far away from the first arc section;

a fourth position is arranged at one end, far away from the fourth arc section, of the third arc section, a fifth position is arranged at the joint of the third arc section and the fourth arc section, and a sixth position is arranged at one end, far away from the third arc section, of the fourth arc section;

a seventh position is arranged at one end, far away from the sixth arc section, of the fifth arc section, an eighth position is arranged at the joint of the fifth arc section and the sixth arc section, and a ninth position is arranged at one end, far away from the fifth arc section, of the sixth arc section;

the first sliding groove, the second sliding groove and the third sliding groove are connected end to end, so that the first position to the ninth position are adjacent in sequence.

Alternatively to this, the first and second parts may,

in the first stage, the first hinge pin is in the first position, the second hinge pin slides from the fourth position to the fifth position while the third hinge pin slides from the seventh position to the eighth position;

in the second stage, the second hinge pin is in the fifth position, the first hinge pin slides from the first position to the second position while the third hinge pin slides from the eighth position to the ninth position;

in the third stage, the third hinge pin is in the ninth position, the first hinge pin slides from the second position to the third position while the second hinge pin slides from the fifth position to the sixth position.

Optionally, the first sliding groove, the second sliding groove and the third sliding groove are distributed in a triangular manner; the first arc section and the second arc section are back to the second sliding groove and the third sliding groove are protruded, the third arc section and the fourth arc section are towards the first sliding groove and the third sliding groove are protruded, and the fifth arc section and the sixth arc section are back to the first sliding groove and the second sliding groove are protruded.

Optionally, the rotating mechanism includes a hinge body, the hinge body includes a first portion and a second portion that are connected in a bending manner, the first portion is disposed on the box body, the second portion extends from the box body toward the door body, and the first sliding groove, the second hinge pin and the third hinge pin are disposed on the second portion;

the first sliding groove is arranged at one end, far away from the box body, of the second portion, and the second hinge pin and the third hinge pin are arranged between the first sliding groove and the box body.

Optionally, the rotating mechanism includes an end cover, the end cover is disposed on the door body, and the first hinge pin, the second sliding groove and the third sliding groove are disposed on the end cover.

The refrigerator that this application embodiment provided, through set up a spout and two hinge pins on the box of refrigerator, set up a hinge pin and two spouts on the door body of refrigerator, utilize hinge pin and spout cooperation to constitute three hinge subassembly and realize the rotatable coupling of refrigerator door body and refrigerator box, the in-process of opening at the refrigerator door body, use different hinge pins as the relative refrigerator box rotation of rotation center in proper order, thereby do the rotatory realization of multistage miniangulation through the refrigerator door body and open the door, the in-process of avoiding the refrigerator door body to open is moved too much because of the door body is outer and is restricted the refrigerator angle of opening the door by external space.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings used in the description of the embodiments will be briefly described below. Wherein like reference numerals refer to like parts. It is obvious that the drawings in the following description are only some embodiments of the application, and that other drawings can be derived from these drawings by a person skilled in the art without inventive effort.

Fig. 1 is a schematic structural diagram of a refrigerator provided in an embodiment of the present application.

Fig. 2 is a schematic structural view of a cabinet in the refrigerator shown in fig. 1.

Fig. 3 is a plan view of the door body in the refrigerator shown in fig. 1.

Fig. 4 is a schematic structural view of a rotating mechanism in the refrigerator shown in fig. 1.

Fig. 5 is a partially enlarged view of a portion a in fig. 4.

Fig. 6 is a partially enlarged view of a portion B in fig. 4.

Fig. 7 is a schematic structural view of a door closing body in the refrigerator shown in fig. 1.

Fig. 8 is a schematic structural diagram of a first stage of opening the refrigerator body by the door body in the refrigerator shown in fig. 1.

Fig. 9 is a schematic structural view of a second stage of opening the cabinet by the door in the refrigerator shown in fig. 1.

Fig. 10 is a schematic structural diagram of a third stage of opening the refrigerator body by the door body in the refrigerator shown in fig. 1.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the described embodiments are merely exemplary of some, and not all, of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The embodiment of the application provides a refrigerator to solve the problem that the opening angle of a door body is limited due to the fact that the door body moves outwards in the process that the door body is opened. The following description will be made with reference to the accompanying drawings.

Referring to fig. 1 to 4, fig. 1 is a schematic structural diagram of a refrigerator according to an embodiment of the present disclosure, fig. 2 is a schematic structural diagram of a refrigerator body in the refrigerator shown in fig. 1, fig. 3 is a top view of a door body in the refrigerator shown in fig. 1, and fig. 4 is a schematic structural diagram of a rotating mechanism in the refrigerator shown in fig. 1. The refrigerator 00 may include a cabinet 10, a door 20, and a rotation mechanism 30. The cabinet 10 is connected to the door 20 through a rotating mechanism 30, so that the door 20 can rotate relative to the cabinet 10 to open or close the cabinet 10.

The box body 10 has a storage space 100, and the storage space 100 is used for accommodating articles to be refrigerated or frozen, such as ice cream, fish, vegetables and fruits, or unsealed cosmetics. When the door 20 rotates relative to the cabinet 10 until the door 20 opens the cabinet 10, the storage space 100 is exposed, and a user can store articles in the storage space 100 or take articles out of the storage space 100; when the door 20 rotates relative to the cabinet 10 to close the cabinet 10, the storage space 100 is hidden, and the refrigerator 00 can perform cold storage or freezing storage on the articles in the storage space 100.

Refrigerator 00 may be a refrigerator with a single door, double doors, or multiple doors. Different numbers of door bodies 20 may correspond to different regions of the refrigerator 00, and different regions of the refrigerator 00 may implement different functions, for example, the refrigerator body 10 of the refrigerator 00 may be divided into a refrigerating chamber and a freezing chamber, and the refrigerating chamber and the freezing chamber are respectively provided with one door body 20. The door 20 is separately arranged in different areas of the refrigerator 00, so that the areas of the refrigerator 00 are not influenced when the refrigerator 00 is opened and closed, for example, the door 20 of a refrigerating chamber is opened without influencing a freezing chamber. In the embodiment of the present application, the refrigerator 00 is taken as an example of a refrigerator with a single door, but the specific number of the door bodies 20 of the refrigerator 00 is not limited in the embodiment of the present application.

The swivel mechanism 30 may include a plurality of hinge assemblies, such as three hinge assemblies. Each hinge assembly includes a cooperating hinge pin and a runner. The hinge pin of one hinge assembly is arranged on the door body 20, the sliding groove is arranged on the box body 10, the sliding grooves of the two hinge assemblies are arranged on the door body 20, and the hinge pin is arranged on the box body 10. One hinge pin can slide in one sliding groove, and the door 20 can rotate relative to the box 10 by taking different hinge pins as rotation centers in sequence through the cooperation of the hinge pin and the sliding groove. Through setting up door body 20 and using different hinge pins as the rotation center and rotate for box 10, can make door body 20 do the low-angle rotation of multistage relative to box 10 when opening or closing box 10 to avoid door body 20 to move outside too much and lead to external space to restrict the angle of opening and shutting of door body 20 when opening or closing box 10.

Referring to fig. 4, 5 and 6 together, fig. 5 is a partial enlarged view of a portion a in fig. 4, and fig. 6 is a partial enlarged view of a portion B in fig. 4. The rotating mechanism 30 may include a first hinge assembly 31, a second hinge assembly 32, and a third hinge assembly 33. The first hinge assembly 31 includes a first hinge pin 311 and a first sliding chute 312, the first hinge pin 311 can slide in the first sliding chute 312, the first hinge pin 311 is disposed on the door 20, and the first sliding chute 312 is disposed on the box 10; the second hinge assembly 32 includes a second hinge pin 321 and a second sliding slot 322, the second hinge pin 321 can slide in the second sliding slot 322, the second hinge pin 321 is disposed on the box 10, and the second sliding slot 322 is disposed on the door 20; the third hinge assembly 33 includes a third hinge pin 331 and a third sliding slot 332, the third hinge pin 331 can slide in the third sliding slot 332, the third hinge pin 331 is disposed on the box 10, and the third sliding slot 332 is disposed on the door 20. The first hinge assembly 31, the second hinge assembly 32 and the third hinge assembly 33 are engaged with each other, so that the door 20 rotates relative to the cabinet 10 with the first hinge pin 311, the second hinge pin 321 and the third hinge pin 331 as a rotation center in sequence during the process of opening or closing the cabinet 10. Wherein the first hinge pin 311, the second hinge pin 321 and the third hinge pin 331 may be distributed in a triangular shape.

It should be noted that the terms "first" and "second" in the description of the present application are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more features.

The first sliding chute 312 comprises a first arc segment 3121 and a second arc segment 3122 which are connected, one end of the first arc segment 3121 far away from the second arc segment 3122 is provided with a first position 3123, the connection of the first arc segment 3121 and the second arc segment 3122 is provided with a second position 3124, one end of the second arc segment 3122 far away from the first arc segment 3121 is provided with a third position 3125; the second sliding groove 322 includes a third arc segment 3221 and a fourth arc segment 3222 connected to each other, a fourth position 3223 is disposed at an end of the third arc segment 3221 away from the fourth arc segment 3222, a fifth position 3224 is disposed at a connection position of the third arc segment 3221 and the fourth arc segment 3222, and a sixth position 3225 is disposed at an end of the fourth arc segment 3222 away from the third arc segment 3221; the third sliding groove 332 comprises a fifth arc segment 3321 and a sixth arc segment 3322 which are connected, a seventh position 3323 is arranged at one end of the fifth arc segment 3321 far away from the sixth arc segment 3322, an eighth position 3324 is arranged at the joint of the fifth arc segment 3321 and the sixth arc segment 3322, and a ninth position 3325 is arranged at one end of the sixth arc segment 3322 far away from the fifth arc segment 3321. The first sliding chute 312, the second sliding chute 322 and the third sliding chute 332 are connected end to end, so that the first position 3123, the second position 3124, the third position 3125, the fourth position 3223, the fifth position 3224, the sixth position 3225, the seventh position 3323, the eighth position 3324 and the ninth position 3325 are adjacent to each other in sequence.

The first sliding groove 312, the second sliding groove 322, and the third sliding groove 332 may also be distributed in a triangular shape corresponding to the positional relationship of the first hinge pin 311, the second hinge pin 321, and the third hinge pin 331. The junction of the first arc segment 3121 and the second arc segment 3122 of the first sliding slot 312 protrudes away from the second sliding slot 322 and the third sliding slot 332, the junction of the third arc segment 3221 and the fourth arc segment 3222 of the second sliding slot 322 protrudes toward the first sliding slot 312 and the third sliding slot 332, and the junction of the fifth arc segment 3321 and the sixth arc segment 3322 of the third sliding slot 332 protrudes away from the first sliding slot 312 and the second sliding slot 322. It should be noted that the positional relationship among the first sliding chute 312, the second sliding chute 322, and the third sliding chute 332 is not limited thereto, and may be in other arrangement manners, and the specific positional relationship among the first sliding chute 312, the second sliding chute 322, and the third sliding chute 332 is not limited in this application embodiment, but it can be understood that the positions of the first sliding chute 312, the second sliding chute 322, and the third sliding chute 332 should correspond to the positions of the first hinge pin 311, the second hinge pin 321, and the third hinge pin 331, respectively.

Referring to fig. 7 to 10, fig. 7 is a schematic structural diagram of the refrigerator shown in fig. 1 in which the door closes the box, fig. 8 is a schematic structural diagram of a first stage of the refrigerator shown in fig. 1 in which the door opens the box, fig. 9 is a schematic structural diagram of a second stage of the refrigerator shown in fig. 1 in which the door opens the box, and fig. 10 is a schematic structural diagram of a third stage of the refrigerator shown in fig. 1 in which the door opens the box. The process from the door 20 closing the cabinet 10 to the opening of the cabinet 10 includes a first stage, a second stage, and a third stage in succession. In the first stage, the door 20 rotates by a first angle around the first hinge pin 311 as a rotation center; in the second stage, the door 20 rotates by a second angle around the second hinge pin 321 as a rotation center; in the third stage, the door body 20 rotates by a third angle around the third hinge pin 331 as a rotation center. It can be understood that the sum of the first angle, the second angle and the third angle is an included angle between the door 20 and the refrigerator body 10 when the door 20 is fully opened, that is, a maximum door opening angle of the refrigerator 00. For example, when the door 20 is fully opened, the included angle between the door 20 and the box 10 is set to be 115 °, and the sum of the first angle, the second angle and the third angle is 115 °.

The cooperation among the first hinge assembly 31, the second hinge assembly 32 and the third hinge assembly 33 during the process from the closing of the cabinet 10 to the opening of the cabinet 10 by the door 20 will be described in detail through the first stage, the second stage and the third stage.

In the first stage, the door 20 is rotated by a first angle around the first hinge pin 311. In the process, the first hinge pin 311 rotates at the first position 3123 of the first sliding groove 312, the second hinge pin 321 slides along the third arc 3221 from the fourth position 3223 to the fifth position 3224 in the second sliding groove 322 with the first hinge pin 311 as a rotation center, and the third hinge pin 331 slides along the fifth arc 3321 from the seventh position 3323 to the eighth position 3324 in the third sliding groove 332 with the first hinge pin 311 as a rotation center.

In the second stage, the door 20 is rotated by a second angle about the second hinge pin 321. In the process, the second hinge pin 321 rotates at the fifth position 3224 of the second sliding groove 322, the first hinge pin 311 slides along the first arc 3121 from the first position 3123 to the second position 3124 in the first sliding groove 312 with the second hinge pin 321 as the rotation center, and the third hinge pin 331 slides along the sixth arc 3322 from the eighth position 3324 to the ninth position 3325 in the third sliding groove 332 with the second hinge pin 321 as the rotation center.

In the third stage, the door body 20 rotates by a third angle around the third hinge pin 331 as a rotation center. In the process, the third hinge pin 331 rotates at the ninth position 3325 of the third sliding groove 332, the first hinge pin 311 slides along the second arc 3122 from the second position 3124 to the third position 3125 in the first sliding groove 312 with the third hinge pin 331 as the rotation center, and the second hinge pin 321 slides along the fourth arc 3222 in the second sliding groove 322 with the third hinge pin 331 as the rotation center from the fifth position 3224 to the sixth position 3225.

It can be understood that the process from the door body 20 closing the box 10 to opening the box 10 and the process from the door body 20 opening the box 10 to closing the box 10 are completely reversed, and the process from the door body 20 opening the box 10 to closing the box 10 may refer to the process from the door body 20 closing the box 10 to opening the box 10, and is not described herein again.

Please continue to refer to fig. 4. The rotation mechanism 30 may also include a hinge body 34 and an end cap 35. The hinge body 34 is disposed on the box 10, and the end cap 35 is disposed on the door 20.

The hinge body 34 includes a first portion 341 and a second portion 342 connected by bending, the first portion 341 is disposed on the box 10, the second portion 342 extends from the box 10 toward the door 20, and the first sliding slot 312, the second hinge pin 321, and the third hinge pin 331 are disposed on the second portion 342 and are disposed on the box 10. The first sliding slot 312 is disposed on the second portion 342 at an end away from the box 10, and the second hinge pin 321 and the third hinge pin 331 are disposed between the first sliding slot 312 and the box 10. In other words, the first chute 312 is farther from the cabinet 10, and the second hinge pin 321 and the third hinge pin 331 are closer to the cabinet 10.

The first portion 341 may be fastened to the case 10 by a snap, the first portion 341 may be screwed to the case 10 by a screw, and the first portion 341 may be welded to the case 10. The embodiment of the present application does not limit the specific manner in which the hinge body 34 is disposed on the box 10.

The end cap 35 is used to provide the first hinge pin 311, the second runner 322, and the third runner 332. The number of the end covers 35 can be two, and the two end covers 35 can be respectively arranged at the top angle and the bottom angle of the door body 20, so that the two ends of the same side of the door body 20 can be rotatably connected with the box body 10, and the door body can be opened and closed more stably and safely.

The refrigerator 00 provided by the embodiment of the application comprises a refrigerator body 10, a door body 20 and a rotating mechanism 30, wherein the rotating mechanism 30 is connected between the door body 20 and the refrigerator body 10, a sliding groove and two hinge pins are arranged on the refrigerator body 10, a hinge pin and two sliding grooves are arranged on the door body 20, the hinge pins and the sliding grooves are matched to form three hinge assemblies to realize the rotatable connection of the door body 20 and the refrigerator body 10, in the opening process of the door body 20, different hinge pins are sequentially used as rotation centers to rotate relative to the refrigerator body 10, so that the door body 20 rotates in multiple sections and in small angles to realize door opening, the first side surface 21 at the rotating shaft side of the door body 20 is prevented from exceeding the second side surface 12 of the refrigerator body 10, namely, the rotating shaft side of the door body 20 cannot protrude out of the refrigerator body 10 in the rotating process, the door body 20 is prevented from colliding or interfering with side walls to limit the door opening angle of the refrigerator 00 in the rotating process, and the refrigerator 00 is more in line with the embedded home decoration concept, and the user experience is improved.

In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

The refrigerator provided by the embodiment of the present application is described in detail above, and the principle and the implementation of the present application are explained by applying specific examples herein, and the description of the above embodiment is only used to help understanding the method and the core idea of the present application; for those skilled in the art, based on the idea of the present application, the embodiments and the application scope may be changed, and in summary, the content of the present specification should not be construed as limiting the present application.

Claims

1. A refrigerator, characterized by comprising:

a box body;

2. The refrigerator according to claim 1,

the rotation mechanism comprises a first hinge assembly, a second hinge assembly and a third hinge assembly;

3. The refrigerator according to claim 2,

the process from the closing of the box body to the opening of the box body of the door body comprises a first stage, a second stage and a third stage; in the first stage, the door body rotates by a first angle by taking the first hinge pin as a rotation center; in the second stage, the door body rotates by a second angle by taking the second hinge pin as a rotation center; in the third stage, the door body rotates by a third angle by taking the third hinge pin as a rotation center.

4. The refrigerator according to claim 3,

5. The refrigerator according to claim 4,

the first sliding chute comprises a first arc section and a second arc section which are connected, the second sliding chute comprises a third arc section and a fourth arc section which are connected, and the third sliding chute comprises a fifth arc section and a sixth arc section which are connected;

6. The refrigerator according to claim 5,

7. The refrigerator according to claim 6,

8. The refrigerator according to claim 5,

the first sliding groove, the second sliding groove and the third sliding groove are distributed in a triangular manner; the junction of the first arc section and the second arc section faces away from the second sliding groove and the third sliding groove is protruded, the junction of the third arc section and the fourth arc section faces towards the first sliding groove and the third sliding groove is protruded, and the junction of the fifth arc section and the sixth arc section faces away from the first sliding groove and the second sliding groove is protruded.

9. The refrigerator according to any one of claims 2 to 8,

the rotating mechanism further comprises a hinge body, the hinge body comprises a first part and a second part which are connected in a bending mode, the first part is arranged on the box body, the second part extends from the box body towards the door body, and the first sliding groove, the second hinge pin and the third hinge pin are all arranged on the second part;

10. The refrigerator according to any one of claims 2 to 8,

the rotating mechanism further comprises an end cover, the end cover is arranged on the door body, and the first hinge pin, the second sliding groove and the third sliding groove are all arranged on the end cover.