WO2025066732A1 - Door body assembly and household device - Google Patents

Abstract

A door body assembly and a household device. The door body assembly comprises a first door body (100), a first adjustment member (300), and a second adjustment member (400). A mounting surface (101) is formed on one side plate surface of the first door body (100), the first adjustment member (300) is provided on the mounting surface (101), and the first adjustment member (300) is provided with a limiting portion (310) extending in a first direction. The second adjustment member (400) comprises a fixing portion (410) and an adjusting portion (420) that are connected to each other, the fixing portion (410) is provided with a first position (411) for being connected to and positioning the second door body (200), and the dimensions between the adjusting portion (410) and the first position (411) in a second direction are adjustable. The adjusting portion (410) is used for being connected to the first adjustment member (300), the adjusting portion (410) and the first adjustment member (300) are able to slide relative to each other in the first direction, and the adjusting portion (410) is able to be in limiting fit with the limiting portion (310) in the second direction. By means of the cooperation of the first adjustment member (300) and the second adjustment member (400), bidirectional adjustment of the first door body (100) and a second door body (200) in the first direction and the second direction can be achieved, so that the members have simple structures and are convenient to operate, thereby improving the assembly efficiency of the first door body (100) and the second door body (200).

Description

Door components and home appliances

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims priority to Chinese patent application 202311288590.8, filed on September 28, 2023, entitled “Door Assembly and Household Equipment,” and the entire contents of which are incorporated herein by reference.

Technical Field

The present application relates to the technical field of household appliances, and in particular to a door assembly and household equipment.

Background Art

This section merely provides background information related to the present application and is not necessarily prior art.

Built-in refrigerators can be embedded in cabinets to improve the integration of refrigerators with home decoration styles and improve the overall aesthetics of the room. In some technologies, the cabinet door and the door body of the built-in refrigerator are connected together through a connector, so that the cabinet door and the door body of the built-in refrigerator can be opened and closed synchronously, which improves the convenience of using the refrigerator. However, when assembling the cabinet door and the door body of the built-in refrigerator, the cabinet door and the door body of the refrigerator need to be positioned and matched to ensure the aesthetics and consistency of the assembly of the cabinet door and the door body of the refrigerator. At present, the adjustment structure between the cabinet door and the door body of the refrigerator is complicated and the assembly is difficult, resulting in low assembly efficiency between the built-in refrigerator and the cabinet door.

Summary of the invention

The purpose of this application is to at least solve the problem of complex adjustment structure between built-in refrigerator and cabinet door. This purpose is achieved through the following technical solutions:

The first aspect of the present application proposes a door body assembly, including a first door body, a first adjusting member and a second adjusting member, wherein a side plate surface of the first door body forms a mounting surface; the first adjusting member is arranged on the mounting surface, and the first adjusting member is provided with a limiting portion extending along a first direction; the second adjusting member includes a fixing portion and an adjusting portion connected to each other, the fixing portion has a first position for connecting and positioning with the second door body, the size between the adjusting portion and the first position along a second direction is adjustable, the adjusting portion is used to be connected with the first adjusting member, the adjusting portion and the first adjusting member can slide relative to each other along the first direction, and the adjusting portion can cooperate with the limiting portion in the second direction; the first direction and the second direction are respectively parallel to the mounting surface, and the first direction is perpendicular to the second direction.

According to the door body assembly of the present application, the first adjusting member cooperates with the second adjusting member to realize bidirectional adjustment of the first door body and the second door body in the first direction and the second direction. The component structure is simple and easy to operate, which improves the assembly efficiency of the first door body and the second door body. The second adjusting member is connected to the first adjusting member by sliding along the first direction through the adjusting part, and the relative position of the second adjusting member and the first adjusting member in the first direction can be adjusted, so that the relative position of the second door body and the first door body in the first direction can be adjusted by sliding, which is easy to operate; the size between the adjusting part and the first position of the second adjusting member in the second direction is adjustable, so that by adjusting the length of the adjusting part relative to the first position, the relative position between the limiting part and the first position can be adjusted, and the relative position of the second door body and the first door body in the second direction can be adjusted accordingly.

The door body assembly of the present application can be applied to household appliances. Specifically, the first door body can be the door body of a refrigerator (built-in refrigerator) and the second door body can be the cabinet door of a cupboard, or the first door body can be the cabinet door of a cupboard and the second door body can be the door body of a refrigerator. By using the door body assembly of the present application, the complexity of the adjustment components can be reduced, the difficulty of assembling the refrigerator and the cupboard doors can be reduced, and the assembly efficiency can be improved.

In addition, the door assembly according to the present application may also have the following additional technical features:

In some embodiments of the present application, the fixing portion has a first axis at the first position, the first axis is perpendicular to the mounting surface, and the fixing portion can rotate around the first axis;

The adjustment portion is arranged on the circumferential side wall of the fixing portion, and the adjustment portion has at least two adjustment positions. All the adjustment positions are arranged in sequence along the rotation direction of the fixing portion. Along the direction perpendicular to the first axis, the shortest distance between each adjustment position and the first axis is a first distance, and the first distances of all the adjustment positions are different.

In some embodiments of the present application, the adjustment portion includes at least two adjustment arms, one end of each adjustment arm is connected to the circumferential side wall of the fixed portion, all of the adjustment arms are arranged at intervals along the rotation direction of the fixed portion, and one end of any one of the adjustment arms away from the fixed portion forms the adjustment position.

In some embodiments of the present application, along the rotation direction of the fixing portion, the first distances of all the adjustment arms increase sequentially.

In some embodiments of the present application, the adjustment portion includes multiple pairs of adjustment arms, any pair of the adjustment arms includes two adjustment arms, the two adjustment arms in any pair of the adjustment arms are located on opposite sides of the fixed portion, the distance between the two adjustment arms in any pair of the adjustment arms facing away from each other at one end is a second distance, and the second distances of multiple pairs of the adjustment arms are the same.

In some embodiments of the present application, the number of the adjustment arms is six; and/or, along the rotation direction of the fixing portion, the at least two adjustment arms are arranged at equal intervals.

In some embodiments of the present application, the door body assembly also includes a first base, the first base is used to connect to the second door body, the fixing portion is used to connect to the first base, one of the first base and the second adjusting member is provided with a positioning hole, and the other is provided with a positioning protrusion, and the positioning protrusion is snapped into the positioning hole.

In some embodiments of the present application, one of the inner wall of the positioning hole and the circumferential side wall of the positioning protrusion is provided with a convex rib, and the other is provided with a positioning groove, and the convex rib is used to be plugged and matched with the positioning groove;

The number of the ribs is the same as the number of the adjustment arms, and the plurality of ribs are arranged at intervals along the circumference of the positioning protrusion. The positioning grooves are arranged one-to-one with the ribs, and the ribs are elastic. After being compressed, the ribs can slide out of the positioning grooves along the circumference of the positioning protrusion.

In some embodiments of the present application, there are multiple adjustment parts, at least two of the multiple adjustment parts have different lengths along the second direction, and any one of the multiple adjustment parts can be replaceably connected to the fixed part.

In some embodiments of the present application, there are multiple second adjustment members, any one of which can be detachably connected to the second door body, and at least two of the multiple second adjustment members have different adjustable ranges along the second direction, wherein the adjustable range is the adjustable size range between the adjustment portion and the corresponding first position along the second direction.

In some embodiments of the present application, the first direction is the width direction of the first door body, and the second direction is the height direction of the first door body.

In some embodiments of the present application, the adjusting portion is detachably connected to the first adjusting member.

In some embodiments of the present application, the adjusting portion can slide from one end of the limiting portion along the first direction to connect with or detach from the first adjusting member.

In some embodiments of the present application, the first adjusting member includes a slide groove, the slide groove includes a side wall extending along a first direction, the side wall forms the limiting portion, and the adjusting portion is slidably disposed in the slide groove.

In some embodiments of the present application, the first sub-wall and the second sub-wall are arranged opposite to each other on the side wall, and the first sub-wall and the second sub-wall are both arranged along the first direction, and the second sub-wall faces the side of the first sub-wall and/or the first sub-wall faces the side of the second sub-wall to form the limiting portion.

In some embodiments of the present application, the side wall is connected to a stop portion, the stop portion and the bottom wall of the slide groove are arranged opposite to and spaced apart from each other, a limiting gap is formed between the stop portion and the bottom wall of the slide groove, and the end of the second adjusting member along the second direction is used to be arranged in the limiting gap.

In some embodiments of the present application, the side wall is provided with an escape notch, and the escape notch is provided at the stop At one end or both ends of the blocking portion along the first direction, the avoidance gap is used for allowing the second adjusting portion to be inserted into or slide out of the limiting gap.

In some embodiments of the present application, the first adjusting member includes a track block, the track block is connected to the first door body, and the slide groove is formed on the track block.

In some embodiments of the present application, the track block is connected to the surface of the mounting surface;

Alternatively, a local position of the mounting surface is recessed to form a mounting groove, and the track block is at least partially embedded in the mounting groove.

In some embodiments of the present application, the door body assembly also includes a third adjusting member, which is used to be arranged between the first adjusting member and the first door body and/or the third adjusting member is used to be arranged between the second adjusting member and the second door body, and the third adjusting member can be used to adjust the relative position of the second door body and the first door body along a third direction, and the third direction is perpendicular to the mounting surface.

In some embodiments of the present application, the third adjusting member includes a plurality of gaskets, at least two of the plurality of gaskets have different thicknesses along the third direction, and at least one of the plurality of gaskets is used to be arranged between the first adjusting member and the first door body or between the second adjusting member and the second door body.

In some embodiments of the present application, the third adjusting member includes a second base, the fixing portion is fixedly disposed through the second base, and the position of the fixing portion along the third direction on the second base is adjustable.

In some embodiments of the present application, a first thread is provided on the fixing portion, a second thread is provided on the second base, the first thread is meshed with the second thread, and an axis of the first thread and an axis of the second thread extend along the third direction.

In some embodiments of the present application, the fixing portion is provided with a fixing hole, and the door body assembly further includes a fastener, and the fastener is used to pass through the fixing hole to fix the second adjusting member to the second door body;

And/or, a snap-fit structure is provided on the fixing portion, and the snap-fit structure is used to fix the fixing portion on the second door body.

In some embodiments of the present application, the number of the second adjustment members is at least two, and at least two of the second adjustment members are arranged at intervals along the first direction.

In some embodiments of the present application, along the second direction, at least two first adjusting members are provided on the mounting surface at intervals, and at least one of the at least two first adjusting members is matched with the second adjusting member.

In some embodiments of the present application, a second door body is further included, wherein the second door body is connected to the second adjusting member;

The first door body is a door body of a refrigeration appliance and the second door body is a cabinet door, or the first door body The second door body is a door of a cabinet and the second door body is a door body of a refrigeration appliance, and the refrigeration appliance is used to be arranged in the cabinet.

In some embodiments of the present application, along a third direction, a width of a gap between the first door body and the second door body is 0.1 mm to 4.5 mm, and the third direction is perpendicular to the installation surface.

In some embodiments of the present application, the first door body is a cabinet door, and the thickness of the first door body along a third direction ranges from 6 mm to 30 mm, and the third direction is perpendicular to the installation surface.

In some embodiments of the present application, the thickness of the first door body along the third direction ranges from 6 mm to 12 mm, or the thickness of the first door body along the third direction ranges from 15 mm to 25 mm.

In some embodiments of the present application, the door body assembly further includes a fixing member, and the fixing member is used to fix the first door body and the second door body together.

In some embodiments of the present application, the fixing member includes a first connecting plate and a second connecting plate, the first connecting plate is provided with a first mounting hole, the first mounting hole is used to cooperate with a columnar fastener to fix the first connecting plate to the first door body, the second connecting plate is provided with a second mounting hole, the second mounting hole is used to cooperate with a columnar fastener to fix the second connecting plate to the second door body, one of the first mounting hole and the second mounting hole is a strip hole, and the columnar fastener cooperating with the strip hole is adjustable in position along the length direction of the strip hole.

In some embodiments of the present application, the board surface of the first connecting plate and the board surface of the second connecting plate are perpendicular to each other, the board surface of the first connecting plate is parallel to the third direction, the first mounting hole is the strip hole, and the length direction of the strip hole is parallel to the third direction, and the third direction is perpendicular to the mounting surface.

The second aspect of the present application proposes a household appliance, comprising an appliance body and the door body assembly proposed in the present application or any embodiment of the present application, wherein the appliance body is provided with a accommodating cavity having an opening, and the door body assembly is connected to the appliance body and can be opened and closed at the opening.

In addition, the household appliance according to the present application may also have the following additional technical features:

In some embodiments of the present application, the household appliance includes a refrigeration device, and the device body is the body of the refrigeration device.

BRIEF DESCRIPTION OF THE DRAWINGS

Various other advantages and benefits will become apparent to those of ordinary skill in the art by reading the detailed description of the embodiments below. The accompanying drawings are only used for the purpose of illustrating some embodiments and are not to be considered as limiting the present application. Also, the same reference numerals are used throughout the accompanying drawings to represent the same components. In the accompanying drawings:

FIG1 is a schematic structural diagram of the door assembly assembly process according to an embodiment of the present application;

FIG2 is a schematic diagram of the assembly of the second door body and the second adjusting member according to an embodiment of the present application;

FIG3 is a partial cross-sectional schematic diagram of a door assembly according to an embodiment of the present application;

FIG4 is a partial cross-sectional schematic diagram of another door assembly according to an embodiment of the present application;

FIG5 is a schematic diagram of the separation of the first door body and the second door body in an embodiment of the present application;

FIG6 is a partial enlarged view of FIG5;

FIG7 is a schematic diagram of an assembly of a first adjusting member and a second adjusting member according to an embodiment of the present application;

FIG8 is a schematic diagram of a viewing angle of FIG7 ;

FIG9 is a partial schematic diagram of the assembly of a first adjusting member and a second adjusting member in an embodiment of the present application;

FIG10 is a schematic structural diagram of a second adjusting member according to an embodiment of the present application;

FIG11 is a schematic diagram of a second adjusting member according to an embodiment of the present application from one viewing angle;

FIG12 is a schematic diagram of another second adjusting member according to an embodiment of the present application from one viewing angle;

FIG13 is a schematic diagram of assembling a second adjusting member and a third adjusting member according to an embodiment of the present application;

FIG14 is a schematic diagram of a door assembly according to an embodiment of the present application from one viewing angle;

FIG15 is a schematic diagram of a gasket according to an embodiment of the present application;

FIG16 is a schematic diagram of a second adjusting member and a first base in separate parts according to an embodiment of the present application;

FIG17 is a partial schematic diagram of the clamping connection between the fixing portion and the first base according to an embodiment of the present application;

FIG18 is a schematic diagram of a second adjusting member according to an embodiment of the present application;

FIG19 is a schematic diagram of a second adjusting member and a second base in separate parts according to an embodiment of the present application;

FIG20 is a schematic structural diagram of a door assembly according to an embodiment of the present application;

FIG21 is a partial enlarged view of FIG20;

FIG. 22 is a schematic diagram of a fixing member according to an embodiment of the present application.

The reference numerals are as follows:

10. Refrigerator door; 20. Cabinet board; 30. Gap;

100. first door body; 101. mounting surface;

200, second door;

300, first adjusting member; 310, limiting portion; 320, sliding groove; 331, first sub-wall; 332, second sub-wall; 333, stopper; 334, bottom wall; 335, avoidance gap; 336, limiting gap; 340, track block; 350, mounting groove;

400, second adjusting member; 410, fixing portion; 411, first position; 412, first axis; 413, positioning hole; 414, positioning groove; 415, fixing hole; 416, buckle structure; 420, adjusting portion; 421, adjusting position; 422, Abutment end; 423, adjustment arm; 4231, first adjustment arm; 4232, second adjustment arm; 4233, third adjustment arm; 4234, fourth adjustment arm; 4235, fifth adjustment arm; 4236, sixth adjustment arm; 430, slide;

500, first base; 510, positioning convex portion; 520, convex rib;

600, third adjusting member; 610, gasket; 620, second base; 621, threaded column;

700, fixing member; 710, first connecting plate; 720, second connecting plate; 730, first mounting hole; 740, second mounting hole;

X, width direction; Y, height direction; Z, third direction; A, first distance; B, second distance.

DETAILED DESCRIPTION

The exemplary embodiments of the present application will be described in more detail below with reference to the accompanying drawings. Although the exemplary embodiments of the present application are shown in the accompanying drawings, it should be understood that the present application can be implemented in various forms and should not be limited by the embodiments described herein. On the contrary, these embodiments are provided in order to enable a more thorough understanding of the present application and to fully convey the scope of the present application to those skilled in the art.

It should be understood that the terms used herein are only for the purpose of describing specific example embodiments and are not intended to be limiting. Unless the context clearly indicates otherwise, the singular forms "one", "an" and "said" as used herein may also be meant to include plural forms. The terms "include", "comprise", "contain", and "have" are inclusive, and therefore specify the existence of stated features, steps, operations, elements and/or parts, but do not exclude the existence or addition of one or more other features, steps, operations, elements, parts, and/or combinations thereof. The method steps, processes, and operations described herein are not interpreted as necessarily requiring them to be performed in the specific order described or illustrated, unless the execution order is clearly indicated. It should also be understood that additional or alternative steps may be used.

Although the terms first, second, third, etc. can be used in the text to describe multiple elements, components, regions, layers and/or sections, these elements, components, regions, layers and/or sections should not be limited by these terms. These terms can only be used to distinguish an element, component, region, layer or section from another region, layer or section. Unless the context clearly indicates, terms such as "first", "second" and other numerical terms do not imply order or sequence when used in the text. Therefore, the first element, component, region, layer or section discussed below can be referred to as the second element, component, region, layer or section without departing from the teaching of the example embodiments.

For ease of description, spatially relative terms may be used herein to describe an element as shown in the figure. The relationship of a component or feature to another component or feature, such as "inside", "outside", "inside", "outside", "below", "below", "above", "above", etc. Such spatial relative terms are intended to include different orientations of the device in use or operation in addition to the orientation depicted in the figure. For example, if the device in the figure is turned over, then the element described as "below other components or features" or "below other components or features" will be subsequently oriented as "above other components or features" or "above other components or features". Therefore, the example term "below..." can include both above and below orientations. The device can be oriented otherwise (rotated 90 degrees or in other directions) and the spatial relative descriptors used in the text are interpreted accordingly.

As shown in FIGS. 1 to 22 , according to an embodiment of the present application, a door assembly is proposed, comprising a first door body 100, a first adjusting member 300 and a second adjusting member 400. A side plate surface of the first door body 100 forms a mounting surface 101, the first adjusting member 300 is arranged on the mounting surface 101, and a limiting portion 310 is provided on the first adjusting member 300, and the limiting portion 310 is extended along a first direction. The second adjusting member 400 comprises a fixing portion 410 and an adjusting portion 420 connected to each other, the fixing portion 410 has a first position 411 for connecting and positioning with the second door body 200, and the size between the adjusting portion 420 and the first position 411 along the second direction is adjustable, the adjusting portion 420 is used to connect with the first adjusting member 300, the adjusting portion 420 and the first adjusting member 300 can slide relative to each other along the first direction, and the adjusting portion 420 can cooperate with the limiting portion 310 in the second direction; the first direction is perpendicular to the second direction, and the first direction and the second direction are parallel to the mounting surface 101 respectively.

It should be noted that in order to schematically show the relative positions of the first door body 100, the first adjusting member 300, the second door body 200 and the second adjusting member 400 in Figure 1, the first adjusting member 300 and the second adjusting member 400 are displayed in perspective, so that from Figure 1 it appears that the first adjusting member 300 and the second adjusting member 400 are located on the outside of the second door body 200, but in fact the first adjusting member 300 and the second adjusting member 400 are located on the side of the second door body 200 facing the first door body 100, that is, between the side of the second door body 200 facing the first door body 100 and the mounting surface 101 of the first door body 100.

The door assembly of this embodiment can be applied to household appliances. Specifically, the first door 100 can be the door of a refrigeration appliance and the second door 200 can be the door of a cabinet, or the first door 100 can be the door of a cabinet and the second door 200 can be the door of a refrigeration appliance. The refrigeration appliance can be a refrigeration or freezing appliance, specifically a refrigerator or the like. Usually, one of the first door 100 and the second door 200 is assembled and fixed to the corresponding device body, and the other is fixed to the first door 100, and the other corresponds to the corresponding device body but is not connected. Specifically, this embodiment mainly uses the first door 100 to be assembled with the corresponding device body, and the second door 200 is fixedly assembled to the first door 100. The door body 100 is used as an example for explanation. The first door body 100 can be assembled with the corresponding device body to form a household device for storage, transportation or sale as a complete piece of furniture, or it can be stored, transported or sold independently. Usually, when the household device corresponding to one of the first door body 100 and the second door body 200 that cooperate with each other is a household device that needs to be sealed, the first door body 100 can be set as the door body of the household device that needs to be sealed, and the first door body 100 and the device body of the household device can be assembled into a whole piece of furniture. For example, in a cabinet and a built-in refrigerator, the first door body 100 is usually a refrigerator door body 10, and the refrigerator is transported and sold as a conventional complete refrigerator.

It should also be noted that the second door body 200 can be fixed to the first door body 100, the second door body 200 is located at the opening of the accommodating cavity of the corresponding device body, and the second door body 200 can be connected to the corresponding device body or not. Among them, when the second door body 200 is connected to the corresponding device body, the connection between the second door body 200 and its corresponding device should enable the second door body 200 to be opened or closed synchronously with the first door body 100. For example, the device body corresponding to the first door body 100 is a refrigerator body, the first door body 100 is assembled and connected with the refrigerator body to form a complete refrigerator, the device body corresponding to the second door body 200 is a cabinet, the second door body 200 is located at the opening of the cabinet, the cabinet door can be fixed to the refrigerator door body 10 and is not connected to the cabinet; the cabinet door can also be fixed to the refrigerator door body 10, and an adaptive flexible connection is established between the cabinet and the cabinet, so that the cabinet door and the refrigerator door body 10 are opened or closed synchronously.

In this embodiment, the first adjusting member 300 and the second adjusting member 400 can be used as accessories of the first door body 100, and can be stored or transported together with the first door body 100. When the first door body 100 is transported to the user side, they are assembled to the corresponding first door body 100 and second door body 200. In other words, during the transportation of the door body assembly or the preparation of the door body assembly, the first adjusting member 300 and the second adjusting member 400 can be placed in the form of parts and accessories. When the door body assembly is transported to the installation position required by the user, for example, when the user purchases a refrigerator and the refrigerator is transported to the user's home, the first adjusting member 300 is installed on the first door body 100, and the second adjusting member 400 is installed on the second door body 200, and the assembly of the second door body 200 to the first door body 100 is achieved through the first adjusting member 300 and the second adjusting member 400.

Of course, the first adjusting member 300 can also be assembled to the first door body 100 during the processing and preparation of the first door body 100, that is, the second adjusting member 400 is transported as an accessory in the form of a part. In this way, when assembling on the user side, it is only necessary to assemble the second adjusting member 400 to the second door body 200, and then the second door body 200 is assembled to the first door body 100 through the first adjusting member 300 and the second adjusting member 400. In some cases, the second adjusting member 400 can also be temporarily assembled to the first adjusting member 300. When assembling on the user side, the second adjusting member 400 can be removed from the first adjusting member 300, and then the second adjusting member 400 is assembled to the second door body 200, and then the second door body 200 is assembled to the first door body 100 through the first adjusting member 300 and the second adjusting member 400. In some cases, the second door The first door body 200 and the second door body 200 may also be prepared by a manufacturer. For example, a built-in refrigerator and its matching cabinet are a complete household appliance. In this case, the first adjusting member 300 and the second adjusting member 400 can be transported in the form of parts, or the first adjusting member 300 can be pre-installed on the first door body 100, and the second adjusting member 400 can be pre-installed on the second door body 200. In this way, when assembling on the user side, when assembling the first door body 100 and the second door body 200, the first adjusting member 300 and the second adjusting member 400 can be directly adjusted as needed.

It should also be noted that the second adjusting member 400 can also be pre-assembled to the first adjusting member 300, and then the second adjusting member 400 can be installed on the second door body 200. In this case, the process of assembling the second adjusting member 400 to the second door body 200 may be more time-consuming. Although the assembly of the first door body 100 and the second door body 200 can also be achieved, it may be more time-consuming and labor-intensive. The present embodiment provides protection for the state of whether the first adjusting member 300 is installed to the first door body 100, the state of whether the second adjusting member 400 is installed to the second door body 200, and the state of whether the first adjusting member 300 and the second adjusting member 400 have been assembled. In other words, the first adjusting member 300 and the second adjusting member 400 may have various states before and after assembly on the user side, but as long as the first adjusting member 300 can be installed to the first door body 100 and cooperate with the second adjusting member 400 to achieve the function to be achieved in the present embodiment, and the second adjusting member 400 can be installed to the second door body 200 and cooperate with the first adjusting member 300 to achieve the function to be achieved in the present embodiment, they are all within the protection scope of the present embodiment.

The first direction and the second direction are both parallel to the mounting surface 101, and the first direction is perpendicular to the second direction. Due to actual errors and other reasons, the first direction and the second direction may be approximately parallel to the mounting surface 101, and the first direction and the second direction may be approximately perpendicular, that is, this embodiment does not make strict requirements for perpendicularity and parallelism, and it is sufficient to be close to parallelism or close to perpendicularity. For example, if the angle between the first direction and the second direction is between 85-95 degrees, it can be considered that the first direction and the second direction are perpendicular to each other.

Specifically, the first direction may be the width direction X of the first door body 100, and correspondingly, the second direction is the height direction Y of the first door body 100; the first direction may also be the height direction Y of the first door body 100, and correspondingly, the second direction is the width direction X of the first door body 100. Among them, the width direction X of the first door body 100 is perpendicular to the height direction Y of the first door body 100, and the width direction X of the first door body 100 and the height direction Y of the first door body 100 are both parallel to the installation surface 101. It can be understood that the width direction X of the first door body 100 and the height direction Y of the first door body 100 are described based on the actual application state of the first door body 100, and can also be understood as a reference description of the first door body 100 being installed on the corresponding equipment body. For example, when the first door body 100 is the door body of a refrigeration appliance, for example, when it is a refrigerator door body 10, the height direction Y of the first door body 100 is consistent with the height direction Y of the refrigerator (the height direction Y of the refrigerator can be understood with reference to the vertical direction), and the width direction X of the first door body 100 is consistent with the width direction X of the refrigerator. (The width direction X of the refrigerator is also the left and right direction of the user when the user faces the refrigerator).

The mounting surface 101 is usually the largest panel surface of the first door body 100 and is the surface on which the first door body 100 can be assembled with the second door body 200, that is, the surface of the first door body 100 that faces the second door body 200. For example, when the first door body 100 is the door body of a refrigeration appliance and the second door body 200 is a cabinet door, the door body of the refrigeration appliance is usually located on the inner side of the cabinet door, and the mounting surface 101 of the first door body 100 can be the outer side of the first door body 100; for another example, when the second door body 200 is the door body of a refrigeration appliance and the first door body 100 is a cabinet door, the door body of the refrigeration appliance is usually located on the inner side of the cabinet door, and the mounting surface 101 of the first door body 100 can be the inner side of the first door body 100.

The second adjusting member 400 is connected to the first adjusting member 300 through the adjusting portion 420. After the adjusting portion 420 is connected to the first adjusting member 300, the adjusting portion 420 and the first adjusting member 300 can retain the degree of freedom in the first direction, so that the adjusting portion 420 and the first adjusting member 300 can slide relative to each other in the first direction, so that the relative position of the second adjusting member 400 and the first adjusting member 300 along the first direction can be relatively adjusted. The second adjusting member 400 also cooperates with the limiting portion 310 through the adjusting portion 420 to position or limit the relative movement of the second adjusting member 400 and the first adjusting member 300 in the second direction. In other words, after the adjusting portion 420 and the limiting portion 310 are limitedly matched, the relative position of the second adjusting member 400 and the first adjusting member 300 in the first direction can be positioned, so that during the sliding process of the second adjusting member 400 and the first adjusting member 300 along the first direction, the second adjusting member 400 can be relatively fixed with the position of the first adjusting member 300 in the second direction.

The first adjusting member 300 may be a slide rail disposed on the mounting surface 101, and the second adjusting member 400 may be a slider. Specifically, the first direction is the width direction X of the first door body 100, and the second direction is the height direction Y of the second door body 200. The slide rail may be a bar-shaped block structure, such as a bar block with a rectangular cross section, the length direction of the bar block is arranged along the width direction X of the first door body 100, the upper surface of the slide rail may serve as a limiter 310, and the slider may slidably abut against the upper surface of the bar block. In the case where the slide rail is a bar-shaped block structure, a slide groove or a slide hole is provided on the slider, and the slide rail is sleeved in the slide groove or the slide hole, so that the slider is sleeved on the slide rail to abut against the slide rail and can slide along the width direction X of the first door body 100. A slide groove 320 may also be provided on the slide rail, and the side wall of the slide groove 320 may serve as a limiter 310, and the slider may be slidably arranged in the slide groove 320 and abut against the groove wall of the slide groove 320. In addition, it should be noted that in some possible implementations, the slider can be rotatably arranged on the slide rail, so that the slider can slide relative to the slide rail in a rolling manner. For example, the slider can be a roller, and the roller abuts against the slide groove 320 of the slide rail. The roller can roll relative to the slide rail in the annular groove to realize the movement of the roller along the width direction X of the first door body 100, that is, to realize the second adjustment member 400 and the first adjustment member 300. Sliding fit in width direction X.

In some implementations, the fixing portion 410 of the second adjusting member 400 can be first assembled to the second door body 200 through the first position 411, and then the second adjusting member 400 is assembled with the first adjusting member 300. The first position 411 of the fixing portion 410 can be understood as the initial positioning assembly position of the second adjusting member 400 for connecting with the second door body 200. Since the second adjusting member 400 needs to be connected with the second door body 200, the second adjusting member 400 must have a position for connecting with the second door body 200, and the second door body 200 also has a position for connecting with the second adjusting member 400. In order to facilitate the adjustment of the relative positions of the first door body 100 and the second door body 200 in the first direction and the second direction through the first adjusting member 300 and the second adjusting member 400, a suitable position can be selected on the second adjusting member 400, which is defined as the first position 411 for connecting with the second door body 200. After the second adjusting member 400 is installed on the second door body 200, the position of the first position 411 in the first direction and the second direction of the second door body 200 will not change, and the second adjusting member 400 is always connected to the second door body 200 at the same position of the first position 411 (that is, the position of the second door body 200 used to connect the second adjusting member 400 will usually not change). In this way, since the position of the first position 411 and the second door body 200 in the first direction and the second direction are determined, and the first adjusting member 300 is installed on the first door body 100, the position of the first adjusting member 300 and the first door body 100 in which it is located in the first direction and the second direction are determined. In this way, by adjusting the relative position of the adjusting part 420 and the first adjusting member 300 in the first direction and the second direction, the corresponding positions of the first door body 100 and the second door body 200 can be adjusted.

Specifically, since the adjusting portion 420 of the second adjusting member 400 can be slidably matched with the second adjusting member 400 in the width direction X, the relative position adjustment of the first door body 100 and the second door body 200 in the first direction can be achieved by sliding the first adjusting member 300 relative to the second adjusting member 400 or by sliding the second adjusting member 400 relative to the first adjusting member 300. Since the first position 411 of the fixing portion 410 and the position of the second door body 200 are relatively fixed, the relative position of the first position 411 and the first adjusting member in the second direction can be adjusted by adjusting the length between the adjusting portion 420 and the first position 411 along the second direction, thereby achieving the relative position adjustment of the first door body 100 and the second door body 200 in the second direction.

The dimension between the adjusting portion 420 and the first position 411 along the second direction can be understood as the distance between the position where the adjusting portion 420 is used to connect with the first adjusting member 300 and the first position 411 along the second direction. In some embodiments, as shown in FIGS. 2 to 4 and 7 to 12, the end of the adjusting portion 420 away from the fixing portion 410 is used to abut against the limiting portion 310. For the convenience of description, the end of the adjusting portion 420 used to abut against the limiting portion 310 is defined as the abutting end 422. The abutting end 422 is the position abutting against the first adjusting member 300 (i.e., the limiting portion 310). Accordingly, the dimension between the first position 411 and the adjusting portion 420 along the second direction can be understood as the distance between the abutting end 422 and the first The distance between the positions 411 along the second direction.

It should be noted that the dimension between the adjusting portion 420 and the first position 411 along the second direction is based on the second adjusting member 400 being installed on the second door body 200 or the second adjusting member 400 being assembled with the first adjusting member 300. When the second adjusting member 400 has not yet been assembled to the second door body 200 or the first adjusting member 300, the adjusting portion 420 only needs to be adjustable in dimension with respect to the first position 411 in one direction. Based on reasonable assembly, the dimension adjustable direction of the adjusting portion 420 corresponds to the second direction, and the dimension adjustable in the second direction between the adjusting portion 420 and the first position 411 can be realized.

When the door assembly is actually assembled, the first door 100 and the second door 200 can be assembled, and then the relative positions of the first door 100 and the second door 200 in the first direction and the second direction can be adjusted by adjusting the first adjusting member 300 and the second adjusting member 400. When the door assembly is actually assembled, the size between the adjusting portion 420 of the second adjusting member 400 and the first position 411 can be adjusted as needed, so that the first door 100 and the second door 200 can first meet the adjustment and positioning requirements in the second direction, and then the second adjusting member 400 and the first adjusting member 300 are assembled in coordination, and the second adjusting member 400 and the first adjusting member 300 slide relative to each other along the first direction to adjust the positions of the second adjusting member 400 and the first adjusting member 300 in the first direction, thereby meeting the adjustment and positioning requirements of the first door 100 and the second door 200 in the first direction. In this embodiment, unless otherwise specified, it can be understood that the relative adjustment of the first door 100 and the second door 200 is achieved in the latter manner.

The door body assembly according to the present application can be applied to household appliances. Specifically, the first door body 100 can be the door body of a refrigeration appliance (such as a refrigerator) and the second door body 200 can be the cabinet door of a cupboard, or the first door body 100 can be the cabinet door of a cupboard and the second door body 200 can be the door body of a refrigeration appliance. By using the door body assembly of the present application, the difficulty of assembling the refrigeration appliance and the cupboard door can be reduced, and the assembly efficiency can be improved.

As shown in Figures 1 to 9, in some implementations (the following embodiments mainly use this implementation as an example for relevant explanation), the first direction is the width direction X, and the second direction is the height direction Y. The door assembly of this embodiment can achieve bidirectional adjustment in the width direction X and the height direction Y through the first adjustment member 300 and the second adjustment member 400, and the component structure is simple and easy to operate. Specifically, by arranging the first adjustment member 300 on the mounting surface 101 of the first door body 100, when the second door body 200 is assembled with the first door body 100, the second adjustment member 400 can be installed on the second door body 200, so that after the second adjustment member 400 cooperates with the first adjustment member 300, the second adjustment member 400 can slide relative to the first adjustment member 300 to achieve the adjustment of the relative position of the first door body 100 and the second door body 200 along the width direction X; by adjusting the relative position between the first position 411 and the adjustment part 420 along the height direction Y of the first door body 100, so that the second adjustment member 400 cooperates with the first adjustment member 300, the second adjustment member 400 can also be achieved. The position of the first door body 100 relative to the second door body 200 along the height direction Y is adjusted. At the same time, since the second adjusting member 400 and the limiting portion 310 of the first adjusting member 300 can be slidably matched during the assembly process of the second door body 200 and the first door body 100, and the limiting portion 310 of the first adjusting member 300 abuts against the second adjusting member 400, the first door body 100 can support the second door body 200 through the first adjusting member 300 and the second adjusting member 400. In the process of positioning and adjusting the second door body 200 and the first door body 100, the assemblers do not need to frequently carry or lift the door bodies, which is more labor-saving, reduces the difficulty of operation, and improves the assembly efficiency.

According to some embodiments of the present application, optionally, the adjustment portion 420 is detachably connected to the first adjustment member 300 .

It is understandable that the first adjusting member 300 and the adjusting portion 420 are detachably connected, so that the first adjusting member 300 and the second adjusting member 400 can be detachably connected, so that the second door body 200 is temporarily assembled to the first door body 100 only through the second adjusting member 400 and the first adjusting member 300, and the second door body 200 and the first door body 100 are not adjusted in place in the second direction (in the height direction Y in this embodiment), the second door body 200 can also be disassembled from the first door body 100, and then the adjusting portion 420 of the second adjusting member 400 provided on the second door body 200 is adjusted so that the size between the adjusting portion 420 and the first position 411 along the second direction can be adjusted. The size adjustment between the adjusting portion 420 of the second adjusting member 400 and the first position 411 along the second direction can be adjusted when the second door body 200 is separated from the first door body 100, and the operation is more convenient.

Specifically, the adjusting portion 420 can slide from one end of the limiting portion 310 along the first direction to connect with or detach from the first adjusting member 300. In this embodiment, as shown in FIGS. 7 to 9 , the second adjusting member 400 can slide from one end of the limiting portion 310 along the width direction X to connect with the first adjusting member 300 and abut against the limiting portion 310 or slide to detach from the first adjusting member 300.

7 to 9 , one end of the limiting portion 310 in the width direction X refers to the left end or the right end of the limiting portion 310 , that is, one end of the two ends that are separated from each other in the width direction X. The second adjusting member 400 can slide from one end of the two ends of the limiting portion 310 in the width direction X to the first adjusting member 300 or detach from the first adjusting member 300 .

Specifically, in one implementation, as shown in FIGS. 7 and 8 , the limiting portion 310 passes through both ends of the mounting surface 101 along the width direction X of the mounting surface 101. In this way, since there are no stop limiters at both ends of the limiting portion 310 along the width direction X, the second adjusting member 400 can slide from any end of the limiting portion 310 into the limiting portion 310 of the first adjusting member 300. More specifically, referring to FIGS. 7 and 8 , the first adjusting member 300 includes a slide groove 320, and the top side wall (first sub-wall 331) or the bottom side wall (second sub-wall 332) of the slide groove 320 can serve as the limiting portion 310. The slide groove 320 passes through both ends of the mounting surface 101 along the width direction X of the mounting surface 101 (i.e., the first door body 100 along the width direction X). The second adjusting member 400 can slide into the slide groove 320 from one end of the slide groove 320, so that the second adjusting member 400 is connected to the first adjusting member 300 and abuts against the limiting portion 310. The second adjusting member 400 can also slide out of the slide groove 320 from one end of the slide groove 320, so that the second adjusting member 400 is separated from the first adjusting member 300.

It should be noted that, in the implementation method of the limiting portion 310, only one end of the limiting portion 310 may be aligned and correspond to one end of the width direction X of the mounting surface 101, so that the second adjusting member 400 can be connected or disconnected with the first adjusting member 300 through the end of the limiting portion 310 aligned with the mounting portion.

In another implementation, as shown in FIG. 9 , the stopper 310 is located inside the mounting surface 101 in the width direction X, and an escape notch 335 may be provided at one or both ends of the stopper 310 in the width direction X, so that the second adjusting member 400 can slide through the escape notch 335 to connect with the first adjusting member 300, or slide to the escape notch 335 to detach from the first adjusting member 300. In this implementation, the first adjusting member 300 and the stopper 310 may be provided in multiple discontinuous sections in the width direction X. When the first door body 100 is sequentially equipped with a plurality of second adjusting members 400 along the width direction X, each second adjusting member 400 may correspond to an escape notch 335, so that the second adjusting member 400 does not need to slide from one end of the mounting surface 101 in the width direction X to the other end, but can slide from the respective corresponding escape notches 335 to the first adjusting member 300, which can shorten the sliding stroke of the second adjusting member 400 along the width direction X and improve the assembly efficiency.

In this embodiment, during the process of assembling the second door body 200 to the first door body 100, the second adjusting member 400 can be connected to the first adjusting member 300 by sliding along the width direction X, and assembled until it abuts against the limiting portion 310, which is convenient and quick to operate. After the first door body 100 and the second door body 200 are initially assembled, if it is found that the first door body 100 does not match the second door body 200 in the height direction Y, the second adjusting member 400 can be slid from one end of the first adjusting member 300 to be disconnected from the first adjusting member 300, so that the second door body 200 can be easily removed from the first door body 100. In this way, after the initial preliminary assembly of the second door body 200 and the first door body 100, if the positioning of the two along the height direction Y is not appropriate, the deviation of the first door body 100 and the second door body 200 in the height direction Y can be measured in the initial preliminary assembly state, and then the second door body 200 can be removed from the first door body 100. Since the relative height adjustment of the first door body 100 and the second door body 200 can be achieved by the corresponding adjustment of the first adjustment member 300 and/or the second adjustment member 400 on the corresponding door body, the first adjustment member 300 and the second adjustment member 400 can be adjusted accordingly according to the deviation. After the corresponding height positioning adjustment is achieved, the second door body 200 can be slid onto the first adjustment member 300 through the second adjustment member 400. Due to the sliding manner, the second door body 200 is convenient to disassemble and assemble to the first door body 100, and since the first adjusting member 300 and/or the second adjusting member 400 can adjust the height of the second door body 200 relative to the first door body 100, the second door body 200 can be separated from the first door body 100. The first door body 100 and the second door body 200 can be assembled after adjusting the height in a separated manner, which is convenient to operate and saves time and effort.

According to some embodiments of the present application, as shown in Figures 1 and 3 to 9, optionally, in some embodiments, the first adjusting member 300 includes a slide groove 320, the slide groove 320 includes a side wall extending along the width direction X, the side wall forms a limiting portion 310, and the second adjusting member 400 can be slidably disposed in the slide groove 320.

The slide groove 320 may be formed by a partial depression of the mounting surface 101 of the first door body 100. Alternatively, a track block 340 may be provided on the first door body 100, the track block 340 may be extended along the width direction X, and the slide groove 320 may be provided on the track block 340. The track block 340 may be an integral structure with the first door body 100, or may be connected to the mounting surface 101 of the first door body 100 by means of a connector such as screws, welding, etc. As shown in FIG. 4 , the track block 340 may be installed on the mounting surface 101 of the first door body 100 in a protruding manner, that is, the track block 340 may be provided on the surface of the mounting surface 101 and fixed to the mounting surface 101. As shown in Figure 3, the track block 340 can also be formed in a recessed form on the mounting surface 101 of the first door body 100, that is, a mounting groove 350 can be provided on the first door body 100, the mounting groove 350 is recessed relative to the mounting surface 101, and the track block 340 has a slide groove 320, and the track block 340 is partially or completely embedded in the mounting groove 350.

The installation groove 350 is equivalent to a groove structure formed by a local depression of the installation surface 101, and the opening of the installation groove 350 faces the installation surface 101. On the first door body 100, the installation groove 350 is depressed toward the side away from the installation surface 101. The installation groove 350 can be a groove formed by removing part of the material on the first door body 100.

As shown in Figures 3, 4 and 6, the slide groove 320 can be a groove with a U-shaped cross-section. Specifically, the side wall of the slide groove 320 can include a first sub-wall 331 and a second sub-wall 332, both of which extend along the width direction X. The first sub-wall 331 and the second sub-wall 332 are relatively spaced apart, wherein the first sub-wall 331 can be located above the second sub-wall 332, and the second adjustment member 400 can be slidably arranged between the first sub-wall 331 and the second sub-wall 332.

The first sub-wall 331 or the second sub-wall 332 can be used as the limiting portion 310. Specifically, the side of the second sub-wall 332 facing the inside of the slide slot 320, that is, the side facing the side where the first sub-wall 331 is located, can be used as the limiting portion 310; the side of the first sub-wall 331 facing the inside of the slide slot 320, that is, the side facing the side where the second sub-wall 332 is located, can be used as the limiting portion 310 for cooperating with the second adjusting member 400. In the subsequent description of this embodiment, the first sub-wall 331 is used as the limiting portion 310, which can be understood by referring to the side of the first sub-wall 331 facing the inside of the slide slot 320, that is, the lower surface of the first sub-wall 331 is used as the limiting portion 310; the second sub-wall 332 is used as the limiting portion 310, which can be understood by referring to the side of the second sub-wall 332 facing the inside of the slide slot 320, that is, the upper surface of the second sub-wall 332 is used as the limiting portion 310.

The first sub-wall 331 can be adaptively selected according to whether the first door body 100 is a cabinet panel 20 or a door body of a refrigeration appliance. and one of the second sub-walls 332 serves as a limiting portion 310. Specifically, as shown in FIG4, in some implementations, the first door body 100 is an assembled door body, for example, the first door body 100 is an assembled refrigerator door body 10, at this time, the first door body 100 is equivalent to being fixed, and the second door body 200 needs to be assembled to the first door body 100. During the process of assembling the second door body 200 to the first door body 100, usually only the second door body 200 is movable, that is, the position adjustment of the second door body 200 relative to the first door body 100 can only be achieved by relying on the movement of the second door body 200; in this implementation, after the second adjustment member 400 is assembled to the second door body 200, during the process of assembling the second door body 200 and the first door body 100, The second adjusting member 400 can be abutted against the second sub-wall 332 (that is, the bottom side wall of the slide groove 320). The second sub-wall 332 supports the second adjusting member 400 in the height direction Y (vertical direction) and limits the downward movement of the second adjusting member 400 in the height direction Y. In this way, due to the gravity of the second door body 200, the second adjusting member 400 can continue to maintain the abutment with the second sub-wall 332. The relative position of the second adjusting member 400 and the second sub-wall 332 in the height direction Y is fixed, and the corresponding relative position of the second adjusting member 400 and the first adjusting member 300 in the height direction Y is fixed, so that the relative position of the second door body 200 relative to the first door body 100 in the height direction Y is fixed. As shown in FIG. 3 , in some other implementations, the second door body 200 is an assembled door body, for example, the second door body 200 is an assembled refrigerator door body 10, in which case the second door body 200 is equivalent to being fixed, and the first door body 100 needs to be assembled to the second door body 200. During the process of assembling the first door body 100 to the second door body 200, usually only the first door body 100 is movable, that is, the position adjustment of the second door body 200 and the second door body 200 is achieved only by the movement of the first door body 100; in this implementation, the second adjusting member 400 is first assembled to the second door body 200, and then the first door body 100 is assembled to the second door body 200, and the first door body 100 is assembled to the second door body 200. During the assembly process of the first door body 100 and the second door body 200, the first sub-wall 331 (that is, the top side wall of the slide groove 320) abuts against the top of the second adjusting member 400, and the second adjusting member 400 supports the first door body 100. The second adjusting member 400 supports the first sub-wall 331 in the height direction Y (vertical direction) and limits the downward movement of the first sub-wall 331 in the height direction Y. In this way, under the action of the gravity of the first door body 100, the first sub-wall 331 is always abutted against the second adjusting member 400, and the relative positions of the first adjusting member 300 and the second adjusting member 400 in the height direction Y are fixed, so that the relative positions of the first door body 100 and the second door body 200 in the height direction Y are fixed.

In some embodiments, the side wall is also connected to a stop portion 333, which is opposite to and spaced from the bottom wall 334 of the slide groove 320, forming a limiting gap 336 between the stop portion 333 and the bottom wall 334 of the slide groove 320, and the end of the second adjusting member 400 along the height direction Y is used to be set in the limiting gap 336.

The bottom wall 334 of the slide slot 320 is connected to one end of the side wall of the slide slot 320, and the bottom wall 334 and the slide slot 320 are connected. As shown in FIGS. 3 to 6 , one end of the first sub-wall 331 away from the bottom wall 334 and one end of the second sub-wall 332 away from the bottom wall 334 are both provided with a stopper 333, the stopper 333 connected to the first sub-wall 331 extends toward the side where the second sub-wall 332 is located, and the stopper 333 connected to the second sub-wall 332 extends toward the side where the first sub-wall 331 is located, and a limited gap 336 is formed between any one of the stoppers 333 and the bottom wall 334. When the second adjusting member 400 is assembled into the slide slot 320, the two ends of the second adjusting member 400 along the height direction Y can be respectively limited in the corresponding limited gaps 336.

It is understandable that, by providing the stopper 333 , the stability of the second adjusting member 400 when sliding in the slide groove 320 can be improved, and the possibility of the second adjusting member 400 being separated from the slide groove 320 during the sliding process can be reduced.

In the solution corresponding to the stopper 333 provided on the side wall, the stopper 333 can penetrate both ends of the first door body 100 along the width direction X, so that the second adjusting member 400 can slide into the slide groove 320 from the end of the stopper 333 in the width direction X and be stopped by the stopper 333. The stopper 333 can also be provided at a local position of the first door body 100 in the width direction X, that is, as shown in FIG9 , an avoidance notch 335 is provided on the side wall, and the avoidance notch 335 is provided at one end or both ends of the stopper 333 along the width direction X, and the avoidance notch 335 is used for the second adjusting member 420 to be inserted into the limiting gap 336. 9 , the first sub-wall 331 and the second sub-wall 332 may both be provided with avoidance notches 335, that is, the first sub-wall 331 and the second sub-wall 332 both have positions where the stopper 333 is not provided, and the avoidance notches 335 are formed at these positions, and the avoidance notches 335 of the first sub-wall 331 and the avoidance notches 335 of the second sub-wall 332 may be aligned to facilitate the insertion of the second adjustment member 400 from the avoidance notch 335 into the position of the slide groove 320 having the stopper 333.

It should be noted that, in some cases, the avoidance gap 335 may be provided only on the first sub-wall 331 or the second sub-wall 332 .

In some embodiments, there are multiple second adjustment members 400, any one of which can be detachably connected to the second door body 200, and at least two of the multiple second adjustment members 400 have different adjustable ranges along the second direction, wherein the adjustable range is the adjustable size range between the adjustment portion 420 and the corresponding first position 411 along the second direction.

The number of the second adjusting members 400 may be two or more, and some of the second adjusting members 400 may be spare parts, that is, according to actual assembly requirements, the required number of second adjusting members 400 may be selected from the plurality of second adjusting members 400 and installed on the second door body 200, and the remaining second adjusting members 400 may not be assembled to the second door body 200. Along the second direction, the adjustable ranges of the plurality of second adjusting members 400 may be different, or the adjustable ranges of some of the second adjusting members 400 may be the same, and the adjustable ranges of some of the second adjusting members 400 may be different. The adjustable range is different.

The first position 411 corresponding to the adjustment portion 420 is the first position 411 of the second adjustment member 400 where the adjustment portion 420 is located, that is, the adjustable range of each second adjustment member 400 is the adjustable range along the second direction between the adjustment portion 420 and the first position 411 of the same second adjustment member 400.

The adjustable ranges of at least two second adjusting members 400 are different, which can be understood as the size adjustment values of at least two second adjusting members 400 do not overlap. Taking the adjustable ranges of the two second adjusting members 400 as an example, in the two second adjusting members 400, the size between the node and the first position 411 along the second direction does not overlap, for example, along the second direction, the adjustable size between the adjusting portion 420 of one second adjusting member 400 and the first position 411 is 0.2 mm, 0.4 mm, 0.6 mm, and the adjustable size between the adjusting portion 420 of the other second adjusting member 400 and the first position 411 is 0.1 mm, 0.3 mm, 0.5 mm; for another example, the adjustable size between the adjusting portion 420 of one second adjusting member 400 and the first position 411 can be infinitely adjusted between 0.2 mm and 1 mm, and the adjustable size between the adjusting portion 420 of the other second adjusting member 400 and the first position 411 can be infinitely adjusted between 1.1 mm and 2 mm.

Optionally, in some embodiments, after the size between the adjustment portion 420 and the first position 411 along the second direction is adjusted appropriately, the fixing portion 410 may be further fixed. For example, as shown in FIGS. 7 to 12 and 18, a fixing hole 415 may be provided on the fixing portion 410, and the door assembly further includes a fastener, which is used to pass through the fixing hole 415 to fix the second adjustment member 400 to the second door body 200. Among them, one or more fixing holes 415 may be provided, and when there are multiple fixing holes 415, the multiple fixing holes 415 may be arranged at intervals along the circumference of the fixing portion 410. The fastener may be a bolt or a screw, and the fixing portion 410 is locked to the second door body 200 by passing the fastener through the fixing hole 415, so that the fixing portion 410 is relatively fixed to the second door body 200. For another example, as shown in Figures 16 and 17, a snap-fit structure 416 is provided on the fixing portion 410, and the snap-fit structure 416 is used to snap the fixing portion 410 to the second door body 200, wherein a first base 500 may be provided on the second door body 200, and the first base 500 is snap-fitted to the snap-fit structure 416 on the fixing portion 410, so that the second adjustment member is snap-fitted to the second door body 200.

It should be noted that the fixing portion 410 may have a positioning hole 413 corresponding to the first position 411 . In other words, the positioning hole 413 forms the first position 411 , and the fixing portion 410 may be preliminarily assembled with the second door body 200 through the positioning hole 413 .

The second adjusting member 400 of the door assembly can have various specific structural forms. Several specific implementation structures of the second adjusting member 400 are given below.

Implementation Method 1

As shown in FIGS. 7 to 12 , the second adjusting member 400 includes a fixed portion 410 and an adjusting portion 420 that are fixedly connected. The fixed portion 410 and the adjusting portion 420 can be fixedly connected by welding or the like, or can be an integrally formed structure. The fixed portion 410 has a first axis 412 at a first position 411, the first axis 412 is perpendicular to the mounting surface 101, the fixed portion 410 can rotate around the first axis 412, the adjusting portion 420 is arranged on the circumferential side wall of the fixed portion 410, along the rotation direction of the fixed portion 410, the adjusting portion 420 has at least two adjustment positions 421, along the direction perpendicular to the first axis 412, the shortest distance between the adjustment position 421 and the first axis 412 is the first distance A, the first distances A between the at least two adjustment positions 421 and the first axis 412 are different, and under the action of the fixed portion 410 rotating around the first axis 412, any one of the adjustment positions 421 can be adjusted to be arranged along the second direction.

The adjustment position 421 can be understood with reference to the abutting end 422. Specifically, the adjustment position 421 is a position for abutting against the limiting portion 310. The adjustment position 421 can be a point or a surface. Usually, the adjustment portion 420 can be formed into an abutting position by a point or a surface on the end surface of the fixing portion 410 away from the adjustment portion 420. The first distance A can be understood as the distance between the abutting end 422 and the first axis 412 (the center point of the fixing portion 410) along the radial direction of the fixing portion 410. In other words, the distance between the point or surface of the abutting end 422 farthest from the first axis 412 and the center point of the fixing portion 410 along the radial direction of the fixing portion 410.

During the assembly of the second door body 200 and the first door body 100, the fixing part 410 can be first installed on the second door body 200 in a rotatable manner. When the fixing part 410 is on the second door body 200, it can rotate around the first axis 412. By rotating the fixing part 410, the adjustment position 421 of the adjustment part 420 can be adjusted so that the adjustment position 421 of the appropriate length (size) corresponds to the second direction, thereby achieving the purpose of adjusting the size between the adjustment part 420 and the first position 411 along the second direction.

In some possible solutions, the adjustment part can be an eccentric wheel formed integrally with the fixing part 410 and the adjustment part, and the first axis 412 of the fixing part 410 is the rotation axis of the eccentric wheel, and the rotation axis deviates from the geometric center of the eccentric wheel, so that when the eccentric wheel rotates around the rotation axis, when different positions of the eccentric wheel rotate in the second direction, the distance between the edge of the eccentric wheel in the second direction and the rotation axis is different, that is, the size of the adjustment part 420 and the first position 411 along the second direction is different. The adjustment part can also be a cam structure formed integrally with the fixing part 410 and the adjustment part, etc.

Specifically, in this embodiment, continuing to refer to Figures 7 to 12, the adjustment part 420 includes at least two adjustment arms 423, one end of the adjustment arm 423 is connected to the circumferential side wall of the fixed part 410, all the adjustment arms 423 are arranged at intervals along the rotation direction of the fixed part 410, and any end of the adjustment arm 423 away from the fixed part 410 forms an adjustment position 421.

In which, along the rotation direction of the fixing portion 410 (i.e., the circumferential direction of the fixing portion 410), the plurality of adjustment arms 423 can be The equal spacing means that the intervals between the plurality of adjacent adjustment arms 423 are the same along the rotation direction of the fixing portion 410. Of course, the plurality of adjustment arms 423 may also be arranged at unequal intervals along the rotation direction of the fixing portion 410.

The fixing portion 410 may be a circular structure, with the first axis 412 located at the center of the fixing portion 410. The lengths of the plurality of (two or more) adjusting arms 423 may all be different. The plurality of adjusting arms 423 are sequentially spaced along the circumferential side wall of the fixing portion 410 and connected to the circumferential side wall of the fixing portion 410. Since the lengths of the plurality of adjusting portions 420 are different, and the distance between any point of the circumferential side wall of the fixing portion 410 and the first axis 412 (i.e., the center of the fixing portion 410) is the same, the minimum distance between the plurality of adjusting portions 420 and the first axis 412 (i.e., the radial distance between the plurality of adjusting portions 420 and the center of the fixing portion 410) is different, so that the size between the adjusting portion 420 and the first position 411 along the second direction is adjustable.

Along the rotation direction of the fixing portion 410 (ie, the circumferential direction of the fixing portion 410 ), the length sequence of the plurality of adjustment arms 423 may be increasing or decreasing in sequence, may increase first or decrease first, or may be arranged alternately in a mixed manner.

Optionally, in some embodiments, along the rotation direction of the fixing portion 410 (ie, the circumferential direction of the fixing portion 410 ), the first distances A between all the adjustment arms 423 and the first axis 412 may increase sequentially.

Among them, all the adjustment arms 423 are defined as all the adjustment arms 423 provided on a second adjustment member 400. Referring to FIG. 12 , when the fixed portion 410 is circular, the lengths of all the adjustment arms 423 can be set to increase in sequence along the circumference of the fixed portion 410, so that the first distance A between the first axis 412 and all the adjustment arms 423 can increase in sequence. In other words, along the rotation direction of the fixed portion 410, the lengths of two adjacent adjustment arms 423 are different, and the length of the upstream adjustment arm 423 is less than the length of the downstream adjustment arm 423. It should be noted that the length of the adjustment arm 423 increases in sequence, which is described with the adjustment arm 423 with the smallest length as the starting point and the adjustment arm 423 with the largest length as the end point. Since the rotation direction of the fixed portion 410 is circumferential, the adjustment arm 423 with the largest length is downstream of the adjustment arm 423 with the smallest length. Along the rotation direction, between the adjustment arm 423 with the smallest length and the adjustment arm 423 with the largest length, the lengths of the multiple adjustment arms 423 increase in sequence. All the adjustment arms 423 are sequentially increased along the circumference of the fixing part 410 , so when adjusting the length (size) between the adjustment part 420 and the first position 411 along the second direction, the operator can operate more conveniently by only rotating the fixing part 410 in the corresponding direction.

It should be explained that the rotation direction of the fixing portion 410 can be the clockwise direction of the fixing portion 410 or the counterclockwise direction. The number of the adjustment arms 423 can be an even number or an odd number. Along the rotation direction of the fixing portion 410, the difference between the lengths of adjacent adjustment arms 423 can be 0.05 mm to 3 mm (specifically, it can be 0.05 mm, 0.1 mm, 0.2 mm, etc.), and the difference between adjacent adjustment arms 423 in the plurality of adjustment arms 423 can be 0.05 mm to 3 mm (specifically, it can be 0.05 mm, 0.1 mm, 0.2 mm, etc.). The difference can be the same, for example, the number of adjustment arms 423 can be 6, and the difference between the lengths of adjacent adjustment arms 423 can be 0.2 mm, so that the adjustment arm 423 with the smallest length (the first adjustment arm 4231) is the reference adjustment arm 423, and the length of the adjustment arm 423 adjacent to the adjustment arm 423 with the smallest length (the second adjustment arm 4232) is equal to the reference adjustment arm 423 plus 0.2 mm. In order, the length of the third adjustment arm 4233 is equal to the length of the second adjustment arm 4232 plus 0.2 mm, the length of the fourth adjustment arm 4234 is equal to the length of the third adjustment arm 4233 plus 0.2 mm, the length of the fifth adjustment arm 4235 is equal to the length of the fourth adjustment arm 4234 plus 0.2 mm, and the length of the sixth adjustment arm 4236 is equal to the length of the fifth adjustment arm 4235 plus 0.2 mm.

The number of the second adjusting members 400 may be multiple, and any second adjusting member 400 may be detachably mounted on the second door body 200. The adjustable ranges of the multiple second adjusting members 400 may be set to be different, so that the second adjusting member 400 may be selected to be connected to the second door body 200 as needed, and when the second adjusting member 400 cannot meet the adjustment requirements in the second direction, the second adjusting member 400 on the second door body 200 may be replaced.

Exemplarily, the adjusting arm 423 can be arranged in an arc shape. Specifically, the adjusting arm 423 is an arc shape that protrudes outward relative to the fixing portion 410 (away from the center point of the fixing portion 410 is outward). The fixing portion 410 cooperates with a plurality of adjusting arms 423 to form the second adjusting member 400 in a shape similar to a plum blossom dart or a lotus petal. It is understandable that the adjusting arm 423 is arranged in an arc shape, so that the second adjusting member 400 is more beautiful. At the same time, the end of the adjusting arm 423 away from the fixing portion 410 is usually the abutting end 422 that abuts against the limiting portion 310. The adjusting arm 423 arranged in an arc shape makes the abutting end 422 of the adjusting arm 423 an arc transition. When the second door body 200 and the first door body 100 are connected by the first adjusting member 300 and the second adjusting member 400, when the rotating fixing portion 410 adjusts the first door body 100 and the second door body 200 along the second direction (in the height direction Y in this embodiment), the resistance of the fixing portion 410 is reduced, which facilitates the rotation operation.

The fixing part 410 of the second adjusting member 400 of this embodiment may be provided with a positioning hole 413, and the positioning hole 413 is connected to the second door body 200 through a rotating shaft. Usually, after the size between the adjusting part 420 and the first position 411 along the second direction is adjusted appropriately, the fixing part 410 needs to be further fixed to prevent the fixing part 410 from rotating. In this embodiment, as shown in Figures 7 to 12, a fixing hole 415 is provided on the fixing part 410, and the door body assembly further includes a fastener, which is used to pass through the fixing hole 415 to fix the second adjusting member 400 on the second door body 200, wherein the fixing hole 415 may be multiple, and the multiple fixing holes 415 may be arranged at intervals along the circumference of the fixing part 410. The fastener may be a bolt or a screw, and the fixing part 410 is locked on the second door body 200 by the fastener passing through the fixing hole 415, so that the fixing part 410 is relatively fixed to the second door body 200.

Implementation Method 2

The difference between the second embodiment and the first embodiment is that the second adjusting member 400 is fixed to the second door body 200. Specifically, the door body assembly further includes a first base 500, the first base 500 is used to connect with the second door body 200, the fixing portion 410 is used to connect to the first base 500, one of the first base 500 and the second adjusting member 400 is provided with a positioning hole 413, and the other is provided with a positioning protrusion 510, and the positioning protrusion 510 is snapped into the positioning hole 413.

As shown in Fig. 16 and Fig. 17, in this embodiment, a positioning protrusion 510 is protruded from the first base 500, a positioning hole 413 is provided on the fixing part 410, and a buckle structure 416 that cooperates with each other is provided on the inner wall of the positioning protrusion 510 and the positioning hole 413, so that the fixing part 410 and the first base 500 are engaged and matched. The first base 500 and the second adjusting member 400 can be repeatedly disassembled and assembled, and the first base 500 and the fixing part 410 can be directly engaged or rotated.

In actual use, the first base 500 is connected to the second door body 200, and specifically, the first base 500 and the second door body 200 are fixedly connected by screws. During the assembly process, the fixing block can be rotated relative to the first base 500 so that the appropriate adjustment arm 423 is in the second direction, that is, the dimension between the adjustment part 420 and the first position 411 along the second direction is adjusted to the right position, and then the fixing part 410 is clamped in the positioning hole 413 through the positioning protrusion 510, so that the second adjustment member 400 is fixed to the first base 500. In some cases, after the positioning protrusion 510 is clamped in the positioning hole 413, the positioning protrusion 510 can rotate in the positioning hole 413. At this time, the fixing part 410 can be clamped in the positioning hole 413 through the positioning protrusion 510, and then the fixing part 410 is rotated by applying torque to the fixing part 410 to adjust the adjustment arm 423, thereby adjusting the dimension between the adjustment part 420 and the first position 411 along the second direction.

Optionally, one of the inner wall of the positioning hole 413 and the circumferential side wall of the positioning protrusion 510 is provided with a convex rib 520, and the other is provided with a positioning groove 414, and the convex rib 520 is used to be plugged and matched with the positioning groove 414. Continuing to refer to FIG. 16, in this embodiment, the convex rib 520 is provided on the positioning protrusion 510, and the positioning groove 414 is provided on the inner wall of the positioning hole 413. The convex rib 520 and the positioning groove 414 can limit the rotation of the fixing part 410 relative to the first base 500, and after the size between the adjustment part 420 and the first position 411 along the second direction is adjusted appropriately, the possibility of the fixing part 410 rotating can be reduced.

Optionally, as shown in Figure 16, the number of ribs 520 is the same as the number of adjustment arms 423, and multiple ribs 520 are arranged at intervals along the circumference of the positioning protrusion 510, and the positioning grooves 414 are arranged one by one corresponding to the ribs 520. The ribs 520 are elastic and can slide out of the positioning grooves 414 along the circumference of the positioning protrusion 510 after being compressed.

The ribs 520 may be made of rubber. Each rib 520 extends along the axial direction of the positioning protrusion 510 and is disposed on the circumferential side wall of the positioning protrusion 510. The ribs 520 and the positioning protrusion 510 may be an integral structure, or the ribs 520 may be assembled separately to the positioning protrusion 510. The circumference of the positioning protrusion 510 and the circumference of the positioning hole 413 may be The direction is the same as the circumferential direction of the fixing portion 410. Along the circumference of the positioning protrusion 510, multiple ribs 520 can be arranged at equal intervals, and multiple adjustment arms 423 can also be arranged at equal intervals, and the central angle between adjacent ribs 520 is the same as the central angle between adjacent adjustment arms 423. In this way, the ribs 520 and the positioning groove 414 form an installation limit structure, which can ensure that the position of the adjustment arm 423 at each angle of the second adjustment member 400 is stable relative to the first base 500. That is to say, when the positioning protrusion 510 rotates in the positioning hole 413, when it rotates to the non-gear position, the ribs 520 limit and press down, and when it rotates to the gear position, the limit rib rebounds and falls into the positioning groove 414 to achieve precise positioning of the rotation angle.

The second embodiment focuses on describing the differences from the first embodiment, and for other parts not described, reference may be made to the first embodiment.

Implementation Method 3

The difference between the third embodiment and the first and second embodiments is that the adjustment arms 423 exist in pairs, and the total length of each pair of adjustment arms 423 is the same.

Specifically, as shown in Figures 8 and 11, in some embodiments, the number of adjustment arms 423 is an even number, which can be 4, 6, 8, 10, etc., and the multiple adjustment arms 423 are divided into multiple pairs, and any pair of adjustment arms 423 has two adjustment arms 423, and the two adjustment arms 423 in each pair of adjustment arms 423 are located on opposite sides of the fixed part 410.

The connection position of each pair of adjustment arms 423 and the fixing part 410 can be roughly axially symmetrical. Specifically, the axis of symmetry between the connection positions of each pair of adjustment arms 423 and the fixing part 410 can be the first axis 412, and the connection positions of each pair of adjustment arms 423 and the fixing part 410 can also be understood as being centrally symmetrically arranged with respect to the center point of the fixing part 410. The distance between the two adjustment arms 423 in each pair of adjustment arms 423, which are opposite to each other, is the second distance B, and the second distances B of the multiple pairs of adjustment arms 423 are the same.

The connection positions of each pair of adjustment arms 423 and the fixing part 410 are arranged in axisymmetry, that is, the connection line of each pair of adjustment arms 423 passes through the center point of the fixing part 410. It should be noted that in this embodiment, "substantially symmetrical" includes the meaning of symmetry or approximately symmetry, that is, symmetry is not strictly required. In other words, one adjustment arm 423 and the other adjustment arm 423 in each pair of adjustment arms 423 are on opposite sides of the fixing part 410, which can be considered symmetrical. As for whether the sizes of the connection positions of the two adjustment arms 423 of each pair of adjustment arms 423 are completely consistent, there is no strict requirement.

The second distances B of the multiple pairs of adjustment arms 423 are the same, which can be understood as follows: along the radial direction of the fixing portion 410, the distance between one end of each pair of adjustment arms 423 away from the fixing portion 410 and the other end of the adjustment arm 423 away from the fixing portion 410 is the second distance B, and the second distance B is a constant value, so that the overall second adjustment member 400 The radial dimension of the fixing portion 410 is the same for each pair of adjustment arms 423 .

In a specific embodiment, as shown in FIG11 , the number of adjustment arms 423 is 6, the adjustment arm 423 with the smallest length (the first adjustment arm 4231) is the reference adjustment arm 423 (the first adjustment arm 4231), the length of the adjustment arm 423 opposite to the reference adjustment arm 423 (the adjustment arm 423 is the fourth adjustment arm 4234) (the length of the adjustment arm 423 is the dimension from the end of the adjustment arm 423 away from the fixing portion 410 to the end of the adjustment arm 423 connected to the fixing portion 410) is 3 mm longer than the first adjustment arm 4231, and along the rotation direction of the fixing portion 410, the second adjustment arm 4232 is adjacent to the reference adjustment arm 423, and the second The length of the adjusting arm 4232 is 0.2 mm longer than that of the first adjusting arm 4231. The adjusting arm 4233 opposite to the second adjusting arm 4232 is the fourth adjusting arm 4234, and the length of the fourth adjusting arm 4234 is 2.8 mm longer than that of the first adjusting arm 4231. Along the rotation direction of the fixing part 410, the third adjusting arm 4233 is adjacent to the second adjusting arm 4232, and the length of the third adjusting arm 4233 is 0.4 mm longer than that of the first adjusting arm 4231. The adjusting arm 423 opposite to the third adjusting arm 4233 is the sixth adjusting arm 4236, and the sixth adjusting arm 4236 is 2.6 mm longer than the first adjusting arm 4231.

As shown in Figure 11, the second adjusting member 400 of the present implementation can be used in conjunction with the first adjusting member 300 having a slide groove 320. As shown in Figure 8, the width of the slide groove 320 (the dimension of the slide groove 320 in the up and down directions in Figure 8 is the width of the slide groove 320) is a fixed value. By setting the second distance B to a fixed value, no matter which adjusting arm 423 of the second adjusting member 400 is supported by the slide groove 320 (i.e., the limiting portion 310), the fitting clearance between the second adjusting member 400 and the slide groove 320 remains unchanged. As shown in Figure 8, K is the width of the slide groove 320. Two identical second adjusting members 400 are used in Figure 8. One second adjusting member 400 is supported by a support arm of one length and the slide groove 320, and the other second adjusting member 400 is supported by a support arm of another length and the slide groove 320. The center line of the two second adjusting members 400 has been tilted, so that the second door body 200 connected thereto has changed in height at both ends relative to the slide groove 320, but the top gap a of the two second adjusting members 400 is the same because the second distance B is controlled by a constant value.

It should be noted that the third embodiment focuses on describing the differences between the first and second embodiments, and other parts not described can refer to the first and second embodiments.

Implementation Method 4

As shown in Fig. 18 , the fourth embodiment is different from the first, second and third embodiments. The fourth embodiment achieves the size adjustment between the overall adjustment portion and the first position 411 along the second direction by replacing the adjustment portion 420 with different lengths on the fixing portion 410 .

Specifically, the second adjusting member 400 includes a fixing portion 410 and a plurality of adjusting portions 420, wherein at least two of the plurality of adjusting portions 420 have different lengths along the second direction, and any one of the plurality of adjusting portions 420 has different lengths along the second direction. The portion 420 can be replaceably connected to the fixing portion 410 .

The fixing part 410 can be connected with the adjusting part 420 by snapping. As shown in FIG. 18 , one end of the fixing part 410 can be used to connect with the second door body 200, and the other end of the fixing part 410 is provided with a snap-in protrusion, and the adjusting part 420 is provided with a snap-in slot. The fixing part 410 is fixed to the adjusting part 420 by snapping the snap-in protrusion with the snap-in slot. A snap-in structure 416 can also be provided on the snap-in protrusion and the slot to enhance the connection stability between the fixing part 410 and the adjusting part 420.

It should be noted that the arrow in FIG. 8 indicates that the adjusting portion 420 is assembled to the fixing portion 410 in the direction indicated by the installation arrow.

In this implementation, the fixing portion 410 may be provided with a positioning hole 413 and a fixing hole 415, and both the positioning hole 413 and the fixing hole 415 may be used in conjunction with fasteners to fix the fixing portion 410 to the second door body 200. The fixing portion 410 may also be mounted on the second door body 200 in the form of a first base 500, which will not be described in detail herein.

According to some embodiments of the present application, optionally, the door body assembly of the present embodiment also includes a third adjusting member 600, and the third adjusting member 600 is arranged between the first adjusting member 300 and the first door body 100 and/or the third adjusting member 600 is used to be arranged between the second adjusting member 400 and the second door body 200. The third adjusting member 600 can be used to adjust the relative position of the second door body 200 and the first door body 100 along a third direction Z, and the third direction Z is perpendicular to the mounting surface 101.

The third direction Z is equivalent to the thickness direction of the door assembly, which is consistent with the front-to-back direction of the home appliance. The third adjusting member 600 can be arranged on the side of the second adjusting member 400 facing the second door body 200, or on the side of the first adjusting member 300 facing the first door body 100.

Specifically, in some implementations, the third adjusting member 600 includes a plurality of gaskets 610, at least two of the plurality of gaskets 610 have different thicknesses along the third direction Z, and at least one of the plurality of gaskets 610 is used to be disposed between the first adjusting member 300 and the first door body 100 or between the second adjusting member 400 and the second door body 200. By selecting gaskets 610 of different thicknesses, the relative position of the first door body 100 and the second door body 200 in the third direction Z can be adjusted. As shown in FIG. 15 , in some solutions, a hole can be provided on the gasket 610, and the hole can be provided in a one-to-one correspondence with the fixing hole 415 on the fixing portion 410, so that the fixing portion 410 and the gasket 610 can be fixed to the second door body 200 together by a fastener.

In this embodiment, the third adjusting member 600 is provided on the side of the second adjusting member 400 facing the second door body 200. As shown in FIG. 13 and FIG. 14, the thickness of the second adjusting member 400 along the third direction Z is C, and a gasket 610 is provided on the side of the second adjusting member 400 facing the second door body 200. The size of the second adjusting member 400 and the gasket 610 is C1. The thickness of the second adjusting member 400 along the third direction Z can be adjusted by the gasket 610, so as to adjust the relative position of the second door body 200 relative to the first door body 100 in the third direction Z. It can be understood that by the second adjusting member 400 The adjusting member 400 cooperates with the gasket 610 , and a small number of second adjusting members 400 and gaskets 610 can be designed to form a plurality of second adjusting members 400 with different thicknesses.

It should be noted that the gasket 610 is usually disposed corresponding to the fixing portion 410 , that is, the gasket 610 may not extend to the position corresponding to the adjustment arm 423 to avoid mutual interference between the gasket 610 and the adjustment arm 423 .

In some other implementations, the third adjusting member 600 includes a second base 620 , and the first adjusting member 300 and/or the second adjusting member 400 are disposed on the second base 620 , and their positions along the third direction Z are adjustable relative to the second base 620 .

In this embodiment, the third adjusting member 600 is provided on the side of the second adjusting member 400 facing the second door body 200 as an example for main description. As shown in FIG19 , the third adjusting member 600 includes a second base 620, and the fixing portion 410 of the second adjusting member 400 is installed on the second base 620, and the position of the fixing portion 410 on the second base 620 along the third direction Z is adjustable. It can be that the fixing portion 410 is provided with a first thread, and the second base 620 is provided with a second thread, the first thread is meshed with the second thread, and the axis of the first thread and the second thread extends along the third direction Z. By rotating the fixing portion 410 relative to the second base 620, under the action of the thread meshing, the fixing portion 410 can move relative to the second base 620 along the third direction Z, thereby realizing the adjustment of the relative position of the fixing portion 410 relative to the second base 620 in the third direction Z.

Specifically, as shown in FIG. 19 , in this embodiment, a positioning hole 413 is provided on the fixing portion 410, and an internal thread is provided on the hole wall of the positioning hole 413. A threaded column 621 is provided on the second base 620, and an external thread is provided on the threaded column 621. The threaded column 621 is screwed into the positioning hole 413, and the position of the fixing portion 410 on the threaded column 621 can be adjusted by rotating the fixing portion 410 relative to the threaded column 621 along the rotation direction D. It should be noted that, in addition to being provided with external threads, the second base 620 can also cooperate with the fixing portion 410 to form an installation limiting structure, and specific reference can be made to the introduction of the rib 520 and the positioning groove 414 of the first base 500 and the fixing portion 410. It should also be noted that, since the second base 620 needs to rotate relative to the fixing part 410 to adjust the relative position in the third direction Z, when used in combination with the above-mentioned embodiments one and two, in order to avoid affecting the rotation of the fixing part 410 to adjust the relative position in the second direction, the second base 620 and the fixing part 410 can be rotated relative to each other, first adjusted into place in the third direction Z, and then the second base 620 is fixed to the second door body 200, and the second base 620 is rotatable relative to the second door body 200. In this way, the rotation of the second base 620 relative to the second door body 200 can synchronously drive the fixing part 410 to rotate, thereby realizing adjustment in the second direction.

According to some embodiments of the present application, optionally, the number of the second adjustment members 400 is at least two, and at least two second adjustment members 400 are arranged at intervals along the first direction.

It should be noted that the two second adjusting members 400 spaced apart along the first direction refer to the state that the second adjusting member 400 is arranged on the second door body 200, that is, as shown in Figures 1, 2, 7 and 8, a plurality of second adjusting members 400 sequentially arranged along the first direction may be connected to the second door body 200. The second adjusting members 400 spaced apart along the first direction may be used in conjunction with the same first adjusting member 300.

According to some embodiments of the present application, optionally, along the second direction, at least two first adjustment members 300 are provided at intervals on the mounting surface 101 , and at least one of the at least two first adjustment members 300 is matched with a second adjustment member 400 .

In this embodiment, as shown in Figures 1, 2, 7 and 8, two first adjusting members 300 are provided in the height direction Y of the first door body 100, and the two first adjusting members 300 can be matched with the second adjusting member 400, and each first adjusting member 300 can be matched with multiple second adjusting members 400 along the first direction.

It can be understood that as long as there is a first adjusting member 300 that is matched with the second adjusting member 400, the relative adjustment of the first door body 100 and the second door body 200 in the height direction Y and the width direction X can be achieved. Therefore, it is not necessary for all first adjusting members 300 to be matched with the second adjusting member 400 provided in this embodiment. In some schemes, some of the first adjusting members 300 can be configured with a sliding plate 430 that only has a sliding function, and the sliding plate 430 is connected to the second door body 200 to play a role of guiding sliding. In this embodiment, the number of the first adjusting members 300 includes two arranged along the height direction Y. As shown in FIG. 2, the second door body 200 is only provided with the second adjusting member 400 at the position corresponding to the upper first adjusting member 300, and the second door body 200 is provided with a sliding plate 430 at the position corresponding to the lower second adjusting member 400.

According to some embodiments of the present application, optionally, the door assembly further includes a second door 200, and the second door 200 is connected to the second adjusting member 400. The first door 100 is a door of a refrigerating appliance and the second door 200 is a cabinet door of a cupboard, or the first door 100 is a cabinet door of a cupboard and the second door 200 is a door of a refrigerating appliance, and the refrigerating appliance is used to be arranged in the cupboard.

The refrigeration appliance may be a refrigerator, and the refrigerator door body 10 may be in the form that all storage spaces are opened and closed through the integral door body, or may be in the form of a plurality of independently opened and closed door bodies. For example, the refrigerator compartment has an independent door body, and the freezer compartment has an independent door body. The door body of the refrigerator compartment and the door body of the freezer compartment are separate and independent of each other, and can be controlled to open or close separately. In the present embodiment, the independently opened door bodies of the refrigerator may all be refrigerator door bodies 10, that is, a cabinet panel 20 may be provided on the outer side of any openable door body of the refrigerator, and the cabinet panel 20 and the corresponding door body are opened and closed synchronously. In the case where the refrigerator has a plurality of independently set door bodies, the cabinet panel 20 also has a plurality of pieces, and the cabinet panels 20 and the refrigerator door bodies 10 are arranged in a one-to-one correspondence. In the case where the refrigerator has a plurality of independently set door bodies, the cabinet panels 20 corresponding to the plurality of independent door bodies may be matched in different sliding directions. For example, one of the door bodies may be matched with the corresponding The first direction of the cabinet panel 20 is the width direction X of the entire refrigerator, and the door body and the cabinet panel 20 are slidably connected along the width direction X of the refrigerator; the first direction in which the other door body cooperates with the corresponding cabinet panel 20 is the height direction Y of the entire refrigerator, and the door body and the cabinet panel 20 are slidably connected along the height direction Y of the refrigerator.

The thickness of the cabinet door along the third direction Z is in the range of 6 mm to 30 mm. Specifically, along the third direction Z, the thickness of the cabinet board 20 is in the range of 6 mm to 12 mm, or, along the third direction Z, the thickness of the cabinet board 20 is in the range of 15 mm to 25 mm.

Specifically, the thickness of the cabinet board 20 may be 6 mm, 9 mm, or 12 mm. The thickness of the cabinet board 20 may also be 15 mm, 18 mm, or 25 mm.

In some embodiments, the thickness of the cabinet board 20 along the third direction Z can be 9 mm or about 9 mm, or 18 mm or about 18 mm, or 20 mm or about 20 mm. Wherein about 9 mm and about 18 mm can be understood as the size within the processing error range allowed by the process when processing the cabinet board 20 of the standard size with 9 mm or 18 mm as the standard size.

Optionally, along the third direction Z, a width E of the gap 30 between the first door body 100 and the second door body 200 is 0.1 mm to 4.5 mm.

It is understandable that, since the first adjusting member 300, the second adjusting member 400 and the third adjusting member 600 are provided between the cabinet plate 20 and the refrigerator door body 10 (that is, between the first door body 100 and the second door body 200), it is usually difficult to achieve no gap 30 between the cabinet plate 20 and the refrigerator door body 10, but if the gap 30 is too large, the thickness space occupied will inevitably increase, affecting the user experience. In this embodiment, through the corresponding structural arrangement of the first adjusting member 300, the second adjusting member 400 and the third adjusting member 600, the width E of the gap 30 between the cabinet door and the refrigerator door body 10 can be 0.1 mm to 4.5 mm, specifically 0.1 mm, 0.5 mm, 1 mm, 2 mm, 3 mm, 4 mm, 4.5 mm, so that the thickness space occupied by the door assembly is small, which improves the user experience and space utilization.

Specifically, referring to FIG. 3 and FIG. 4 , the first adjusting member 300 and the second adjusting member 400 are assembled to obtain an overall structure, and the thickness along the third direction Z can be set to be less than or equal to 8 mm, so that the thickness space occupied by the door body assembly can be smaller and consumables can be saved. It should be noted that, as shown in FIG. 3 , when the thickness T of the first adjusting member 300 and the second adjusting member 400 along the third direction Z after assembly is greater than the gap set between the first door body 100 and the second door body 200, the first adjusting member 300 and the second adjusting member 400 can be installed through the mounting groove 350 by opening a mounting groove 350 on the surface of the first door body 100 and the second door body 200, so that part of the first adjusting member 300 or part of the second adjusting member 400 is embedded in the mounting groove 350, which can reduce the gap between the first door body 100 and the second door body 200.

In this embodiment, after the first door body 100 and the second door body 200 are adjusted into place in any direction by the first adjusting member 300, the second adjusting member 400 and the third adjusting member 600, the first door body 100 and the second door body 200 can be fixedly connected by the fixing member 700.

Specifically, as shown in Figures 20 to 22, the door body assembly also includes a fixing member 700, and the fixing member 700 may include a first connecting plate 710 and a second connecting plate 720. The first connecting plate 710 and the second connecting plate 720 may be an integral structure or a fixedly connected structure. The first connecting plate 710 is provided with a first mounting hole 730, and the first mounting hole 730 is used to cooperate with a columnar fastener to fix the first connecting plate 710 to the first door body 100. The second connecting plate 720 is provided with a second mounting hole 740, and the second mounting hole 740 is used to cooperate with a columnar fastener to fix the second connecting plate 720 to the second door body 200. One of the first mounting hole 730 and the second mounting hole 740 is a strip hole, and the position of the columnar fastener cooperating with the strip hole is adjustable along the length direction of the strip hole.

Among them, the column fastener can be a screw, and the cooperation between the column fastener and the first mounting hole 730 can be that one end of the column fastener passes through the first mounting hole 730 to connect with the first door body 100, and the other end of the column fastener presses on the first connecting plate 710; the cooperation between the column fastener and the second mounting hole 740 can be that one end of the column fastener passes through the second mounting hole 740 to connect with the second door body 200, and the other end of the column fastener presses on the second connecting plate 720. The length direction of the strip hole refers to the direction in which the length of the strip hole is the largest in the direction perpendicular to its own axial direction. The strip hole makes the setting position of the column fastener more flexible, which facilitates the assembly and fixation of the first door body 100 and the second door body 200.

The first connecting plate 710 and the second connecting plate 720 may be connected in the same plane or may be connected in an intersecting manner, as long as the first connecting plate 710 and the second connecting plate 720 correspond to the first door body 100 and the second door body 200 respectively.

In one embodiment, the plate surface of the first connecting plate 710 and the plate surface of the second connecting plate 720 are perpendicular to each other, the plate surface of the first connecting plate 710 is parallel to the third direction Z, the first mounting hole 730 is a strip hole, and the length direction of the strip hole is parallel to the third direction Z, and the third direction Z is perpendicular to the mounting surface 101.

Specifically, the second connecting plate 720 and the first connecting plate 710 can be connected to form an L-shaped plate, the first connecting plate 710 has a first end and a second end that are relatively arranged, the first end is fixedly connected to the second connecting plate 720, the first mounting hole 730 on the first connecting plate 710 is a strip hole, the strip hole extends from the first end to the second end, and a columnar fastener is passed through the strip hole to fix the first connecting plate 710 to the first door body 100, and the columnar fastener can move in the strip hole along the length direction of the strip hole.

The following takes the example of the first connecting plate 710 being connected to the refrigerator door 10 and the second connecting plate 720 being connected to the cabinet plate 20 as an example to specifically describe the fixing member 700. As shown in FIGS. 20 to 22 , in the width direction X, the cabinet plate 20 can be wider than the refrigerator door 10. The width of the door body 10 is slightly wider, and the fixing member 700 is arranged at one end of the width direction X of the refrigerator door body 10, and is located on the inner side of the cabinet board 20 wider than the refrigerator door body 10, so that the first connecting plate 710 can be attached and connected to the end of the width direction X of the refrigerator door body 10, and the second connecting plate 720 is attached and connected to the inner side of the cabinet board 20. In some implementations, as shown in Figures 20 and 21, the end of the width direction X of the refrigerator door body 10 can be provided with a mounting groove, and the first connecting plate 710 can be arranged in the mounting groove. Among them, the second connecting plate 720 can be provided with one or two second mounting holes 740, and a cylindrical fastener (such as a screw, etc.) passes through the assembly hole to connect the second connecting plate 720 to the refrigerator door body 10; a strip hole is provided on the first connecting plate 710, and the strip hole extends along the third direction Z. The columnar fastener can be a screw, and the columnar fastener passes through the strip hole to connect the first connecting plate 710 to the refrigerator door body 10. Since the strip hole has a certain adjustment space in the third direction Z, the matching requirements for the first door body 100 and the second door body 200 in the third direction Z are relatively low, so that the assembly flexibility of the fixing member 700 is improved.

Some embodiments of the present application also provide a household appliance, including an appliance body, and also including a door body assembly proposed in the present application or any embodiment of the present application, the appliance body is provided with a accommodating cavity with an opening, the door body assembly is connected to the appliance body, and is opened and closed at the opening.

The household appliance may be a refrigeration appliance, specifically a refrigerator, and the device body is the body of the refrigeration appliance, specifically the body of the refrigerator. In other words, the refrigerator body and the door assembly constitute a refrigerator. The household appliance may also be a cabinet, and the device body is the cabinet body, that is, the cabinet body and the door assembly constitute a complete cabinet. The household appliance may also be a cabinet and an embedded refrigeration appliance assembly, and the device body may be the cabinet body and the body of the refrigeration appliance, that is, the door assembly includes a first door body 100 and a second door body 200 connected to each other, the device body includes a cabinet body and a refrigeration appliance body, the opening of the cabinet body and the opening of the refrigeration appliance body are oriented in the same direction, one of the first door body 100 and the second door body 200 is disposed at the opening of the body of the refrigeration appliance for sealing the body of the refrigeration appliance, and the other corresponds to the opening of the cabinet body.

The above are only some specific implementations of the present application, but the protection scope of the present application is not limited thereto. Any changes or substitutions that can be easily thought of by any technician familiar with the technical field within the technical scope disclosed in the present application should be included in the protection scope of the present application. Therefore, the protection scope of the present application should be based on the protection scope of the claims.

Claims (35)

A door assembly, comprising: The first door body has a panel surface on one side forming a mounting surface; A first adjusting member, disposed on the mounting surface, wherein the first adjusting member is provided with a limiting portion extending along a first direction; A second adjusting member, comprising a fixing portion and an adjusting portion connected to each other, the fixing portion having a first position for connecting and positioning with the second door body, the size between the adjusting portion and the first position along a second direction is adjustable, the adjusting portion is connected to the first adjusting member, the adjusting portion and the first adjusting member can slide relative to each other along the first direction, and the adjusting portion can cooperate with the limiting portion in limiting position in the second direction; The first direction and the second direction are respectively parallel to the mounting surface, and the first direction is perpendicular to the second direction. The door assembly according to claim 1, wherein the fixing portion has a first axis in the first position, the first axis is perpendicular to the mounting surface, and the fixing portion is rotatable about the first axis; The adjusting portion is arranged on the circumferential side wall of the fixing portion, The adjusting portion has at least two adjusting positions, and the at least two adjusting positions are arranged in sequence along the rotation direction of the fixing portion. Along a direction perpendicular to the first axis, the shortest distance between each of the adjustment positions and the first axis is a first distance, and the first distances of all the adjustment positions are different. The door body assembly according to claim 2, wherein the adjustment part comprises at least two adjustment arms, one end of each adjustment arm is connected to the circumferential side wall of the fixed part, and the at least two adjustment arms are arranged at intervals along the rotation direction of the fixed part, and one end of any one of the adjustment arms away from the fixed part forms the adjustment position. The door body assembly according to claim 3, wherein, along the rotation direction of the fixing portion, the first distances corresponding to all the adjusting arms increase sequentially. The door body assembly according to claim 3, wherein the adjustment part includes multiple pairs of adjustment arms, any pair of the adjustment arms includes two adjustment arms, the two adjustment arms in any pair of the adjustment arms are located on opposite sides of the fixed part, the distance between the ends of the two adjustment arms in any pair of the adjustment arms that are away from each other is the second distance, and the second distances of multiple pairs of the adjustment arms are the same. The door assembly according to any one of claims 3 to 5, wherein the number of the adjustment arms is six; And/or, along the rotation direction of the fixing portion, the at least two adjustment arms are arranged at equal intervals. The door assembly according to any one of claims 3 to 6, wherein the door assembly further comprises a first base, the first base is used to be connected to the second door, and the fixing portion is used to be connected to the first base. One of the first base and the second adjusting member is provided with a positioning hole, and the other is provided with a positioning convex portion, and the positioning convex portion is clamped in the positioning hole. The door assembly according to claim 7, wherein one of the inner wall of the positioning hole and the circumferential side wall of the positioning protrusion is provided with a convex rib, and the other is provided with a positioning groove, and the convex rib is plug-fitted with the positioning groove; The number of the ribs is the same as the number of the adjustment arms, and the plurality of ribs are arranged at intervals along the circumference of the positioning protrusion. The positioning grooves are arranged one-to-one with the ribs, and the ribs are elastic. After being compressed, the ribs can slide out of the positioning grooves along the circumference of the positioning protrusion. According to the door body assembly according to any one of claims 1-8, wherein the number of the adjusting parts is plural, at least two of the adjusting parts have different lengths along the second direction among all the adjusting parts, and any one of the adjusting parts can be replaceably connected to the fixing part. According to any one of claims 1-9, there are multiple second adjusting members, any one of which can be detachably connected to the second door body, and at least two of the second adjusting members have different adjustable ranges along the second direction, wherein the adjustable range is the adjustable size range between the adjusting portion and the corresponding first position along the second direction. The door body assembly according to any one of claims 1-10, wherein the first direction is a width direction of the first door body, and the second direction is a height direction of the first door body. The door assembly according to any one of claims 1 to 11, wherein the adjusting portion is detachably connected to the first adjusting member. The door body assembly according to claim 12, wherein the adjusting portion can slide from one end of the limiting portion along the first direction to be connected to or detached from the first adjusting member. According to the door body assembly according to any one of claims 1-13, wherein the first adjusting member includes a slide groove, the slide groove includes a side wall extending along a first direction, the side wall forms the limiting portion, and the adjusting portion is slidably disposed in the slide groove. The door body assembly according to claim 14, wherein the first sub-wall and the second sub-wall are arranged opposite to each other on the side wall, and the first sub-wall and the second sub-wall are both arranged along the first direction, and the second sub-wall forms the limiting portion on the side of the first sub-wall facing the first sub-wall and/or the side of the first sub-wall facing the second sub-wall. According to the door body assembly according to claim 14 or 15, wherein the side wall is connected with a stop portion, the stop portion and the bottom wall of the slide groove are arranged opposite to and spaced apart from each other, a limiting gap is formed between the stop portion and the bottom wall of the slide groove, and the end of the second adjusting member along the second direction is used to be arranged in the limiting gap. According to the door body assembly according to claim 16, wherein an avoidance gap is provided on the side wall, and the avoidance gap is provided at one end or both ends of the stop portion along the first direction, and the avoidance gap is used for allowing the second adjustment portion to be inserted into or slide out of the limiting gap. The door body assembly according to any one of claims 14 to 17, wherein the first adjusting member comprises a track block, the track block is connected to the first door body, and the slide groove is formed on the track block. The door assembly according to claim 18, wherein the track block is connected to a surface of the mounting surface; Alternatively, a local position of the mounting surface is recessed to form a mounting groove, and at least a portion of the track block is embedded in the mounting groove. The door body assembly according to any one of claims 1-19, wherein the door body assembly further comprises a third adjusting member, wherein the third adjusting member is disposed between the first adjusting member and the first door body and/or the third adjusting member is used to be disposed between the second adjusting member and the second door body, wherein the third adjusting member is used to adjust the relative position of the second door body and the first door body along a third direction, wherein the third direction is perpendicular to the mounting surface. The door body assembly according to claim 20, wherein the third adjusting member comprises a plurality of gaskets, at least two of the plurality of gaskets have different thicknesses along a third direction, and at least one of the plurality of gaskets is used to be arranged between the first adjusting member and the first door body or between the second adjusting member and the second door body. The door body assembly according to claim 20 or 21, wherein the third adjusting member includes a second base, the fixing portion is fixedly arranged through the second base, and the position of the fixing portion along the third direction on the second base is adjustable. The door body assembly according to claim 22, wherein a first thread is provided on the fixing portion, a second thread is provided on the second base, the first thread is threadedly connected to the second thread, and the axis of the first thread and the axis of the second thread extend along the third direction. The door assembly according to any one of claims 1 to 23, wherein the fixing portion is provided with a fixing hole, and the door assembly further comprises a fastener, the fastener is used to pass through the fixing hole and fix the second adjusting member to the second door body; And/or, a snap-fit structure is provided on the fixing portion, and the snap-fit structure is used to fix the fixing portion on the second door body. The door body assembly according to any one of claims 1-24, wherein the number of the second adjusting members is at least two, and at least two of the second adjusting members are arranged at intervals along the first direction. The door body assembly according to any one of claims 1-25, wherein, along the second direction, at least two of the first adjusting members are provided on the mounting surface at intervals, and at least one of the at least two first adjusting members is matched with the second adjusting member. The door assembly according to any one of claims 1 to 26, wherein the door assembly further comprises a second door body, and the second door body is connected to the second adjusting member; The first door body is a door body of a refrigeration appliance and the second door body is a cabinet door, or the first door body is a cabinet door and the second door body is a door body of a refrigeration appliance, and the refrigeration appliance is used to be arranged in the cabinet. The door body assembly according to claim 27, wherein the width of the gap between the first door body and the second door body ranges from 0.1 mm to 4.5 mm along a third direction, and the third direction is perpendicular to the mounting surface. The door body assembly according to any one of claims 1-28, wherein the first door body is a cabinet door, the thickness of the first door body along a third direction ranges from 6 mm to 30 mm, and the third direction is perpendicular to the installation surface. The door body assembly according to claim 29, wherein the thickness of the first door body along the third direction ranges from 6 mm to 12 mm, or the thickness of the first door body along the third direction ranges from 15 mm to 25 mm. The door body assembly according to any one of claims 1 to 30, wherein the door body assembly further comprises a fixing member, and the fixing member is used to fix the first door body and the second door body together. The door body assembly according to claim 31, wherein the fixing member includes a first connecting plate and a second connecting plate, the first connecting plate is provided with a first mounting hole, the first mounting hole is used to cooperate with a columnar fastener to fix the first connecting plate to the first door body, the second connecting plate is provided with a second mounting hole, the second mounting hole is used to cooperate with a columnar fastener to fix the second connecting plate to the second door body, one of the first mounting hole and the second mounting hole is a strip hole, and the columnar fastener cooperating with the strip hole is positionally adjustable along the length direction of the strip hole. The door body assembly according to claim 32, wherein the plate surface of the first connecting plate and the plate surface of the second connecting plate are perpendicular to each other, the plate surface of the first connecting plate is parallel to the third direction, the first mounting hole is the strip hole, and the length direction of the strip hole is parallel to the third direction, and the third direction is perpendicular to the mounting surface. A household appliance, comprising an appliance body and a door assembly according to any one of claims 1 to 33, wherein the appliance body is provided with a receiving cavity having an opening, and the door assembly is connected to the appliance body and can be opened. The sealing member is arranged at the opening. The household appliance according to claim 34, wherein the household appliance comprises a refrigeration device, and the device body is the body of the refrigeration device.