A mounting tool for a refrigerator door and a cabinet door of an embedded refrigerator and the embedded refrigerator

By combining the positioning frame and the ruler, the precise positioning of the embedded refrigerator door on the cabinet door is achieved, solving the problem of low assembly efficiency of embedded refrigerators in the existing technology and improving assembly efficiency and accuracy.

CN224390842UActive Publication Date: 2026-06-23HISENSE RONSHEN GUANGDONG REFRIGERATOR

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HISENSE RONSHEN GUANGDONG REFRIGERATOR
Filing Date
2025-04-18
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

In the existing technology, the refrigerator door of an embedded refrigerator can only be positioned in the height direction during installation, while the positioning in the width direction relies on manual measurement, resulting in low assembly efficiency.

Method used

An installation fixture including a positioning frame and a ruler is used. The positioning frame is connected to the cabinet door through its support body. The top and first side edges of the refrigerator door are positioned vertically by the first and second positioning parts, respectively. The positioning accuracy and stability are ensured by the combination of the limiting slide and the blocking part.

Benefits of technology

It improves the assembly efficiency and accuracy of built-in refrigerators, simplifies the operation process, and ensures more precise positioning of the refrigerator door on the cabinet door.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

The application relates to household appliance technology. In particular, the application relates to a mounting tool for a refrigerator door and a cabinet door of an embedded refrigerator and the embedded refrigerator. The mounting tool comprises a positioning frame, a first scale and a second scale. The first scale is detachably connected with the positioning frame. The first scale is provided with a first hanging convex part which can be hung on the top edge of the cabinet door. The positioning frame comprises a support body, a first positioning part and a second positioning part. The first positioning part and the second positioning part are arranged on the support body and protrude from the support body in a direction perpendicular to the first direction. The first positioning part is used for abutting against the top edge of the refrigerator door to determine the position of the top edge of the refrigerator door. The second positioning part is used for abutting against the first side edge of the refrigerator door to determine the position of the first side edge of the refrigerator door. The second scale is provided with a second hanging convex part which can be hung on the first side edge of the cabinet door. The mounting tool can improve the assembly efficiency of the embedded refrigerator.
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Description

Technical Field

[0001] Some embodiments of this application relate to household appliance technology. In particular, they relate to an installation fixture for the refrigerator door and cabinet door of a built-in refrigerator, and the built-in refrigerator itself. Background Technology

[0002] During the installation of a built-in refrigerator, the positioning accuracy of the refrigerator door directly affects the installation efficiency and the final user experience.

[0003] In the existing technology, installation tools are used to install refrigerator doors. However, the installation tools can only locate the height of the refrigerator door, while the width location still relies on manual measurement and marking, resulting in low assembly efficiency of built-in refrigerators. Summary of the Invention

[0004] Some embodiments of this application provide an installation fixture for the refrigerator door and cabinet door of an embedded refrigerator, as well as the embedded refrigerator itself, to improve the assembly efficiency of the embedded refrigerator.

[0005] To achieve the above objectives, some embodiments of this application provide an installation fixture for the refrigerator door and cabinet door of an embedded refrigerator, including:

[0006] A positioning frame, used to position the refrigerator door on the cabinet door;

[0007] A first ruler is detachably connected to the positioning frame. The first ruler has a first hanging protrusion that protrudes from the first ruler in a direction perpendicular to the first direction. The first hanging protrusion can be hung on the top edge of the cabinet door.

[0008] The positioning frame includes:

[0009] A bracket body for connecting to the cabinet door, wherein the first scale is movable relative to the bracket body along a first direction;

[0010] A first positioning part is disposed on the bracket body and protrudes from the bracket body in a direction perpendicular to the first direction. The first positioning part is used to abut against the top edge of the refrigerator door to determine the position of the top edge of the refrigerator door. The protruding direction of the first positioning part is opposite to the protruding direction of the first hanging protrusion.

[0011] The second positioning part protrudes from the bracket body, the protrusion direction of the second positioning part is consistent with the protrusion direction of the first positioning part, and the positioning direction of the second positioning part is perpendicular to the positioning direction of the first positioning part. The second positioning part is used to abut against the first side edge of the refrigerator door to determine the position of the first side edge of the refrigerator door.

[0012] The installation fixture also includes:

[0013] The second scale is detachably connected to the bracket body and can move relative to the bracket body in a second direction. The second scale is provided with a second hanging protrusion, which protrudes from the second scale in a direction perpendicular to the first direction. The second hanging protrusion can be hung on the first side edge of the cabinet door. The second direction is perpendicular to the first direction and is also perpendicular to the thickness direction of the cabinet door.

[0014] During the assembly of the refrigerator door, firstly, adjust the length of the first ruler to reflect the distance between the top edges of the cabinet door and the top edges of the refrigerator door. Then, determine the position of the bracket body relative to the top edge of the cabinet door in the first direction. Next, adjust the length of the second ruler to reflect the distance between the first side edges of the cabinet door and the first side edges of the refrigerator door, and determine the position of the bracket body relative to the first side edge of the cabinet door in the second direction. This completes the determination of the position of the bracket body on the cabinet door. Next, connect the bracket body to the cabinet door to fix it relative to the cabinet door, and remove the first and second rulers from the bracket body. Then, position the top edge of the refrigerator door using the first positioning part and position the first side edge of the refrigerator door using the second positioning part, thereby completing the positioning of the top edge and the first side edge of the refrigerator door. Finally, fix the positioned refrigerator door to the cabinet door, thus completing the purpose of assembling the refrigerator door onto the cabinet door.

[0015] As can be seen, the first ruler is detachably connected to the bracket body and can move relative to the bracket body in the first direction. The first positioning part abuts against the top edge of the refrigerator door, which can determine the position of the refrigerator door relative to the cabinet door in the first direction when the refrigerator door is assembled on the cabinet door. The second ruler is detachably connected to the bracket body and can move relative to the bracket body in the second direction. The second positioning part abuts against the first side edge of the refrigerator door, which can determine the position of the refrigerator door relative to the cabinet door in the second direction when the refrigerator door is assembled on the cabinet door.

[0016] Since the first and second directions are perpendicular to each other, and the positioning direction of the first positioning part is perpendicular to the positioning direction of the second positioning part, the refrigerator door can be positioned simultaneously along two mutually perpendicular directions by setting the first and second positioning parts. The operation is simple. Compared with manually measuring to make the middle position of the refrigerator door coincide with the middle position of the cabinet door in order to position the refrigerator door in the second direction, the assembly efficiency of the built-in refrigerator is improved.

[0017] In some possible implementations, the support body is provided with:

[0018] The first limiting slide groove extends along the first direction, and the first scale is movably inserted through the first limiting slide groove;

[0019] The second limiting slide groove extends along the second direction, and the second scale is movably inserted through the second limiting slide groove.

[0020] Therefore, by setting the first limiting groove, the movement trajectory of the first ruler can be limited to avoid the first ruler shifting relative to the bracket body when it moves in the first direction, thereby ensuring the accuracy of the position determination of the first positioning part on the top edge of the refrigerator door.

[0021] By setting a second limiting groove, the movement trajectory of the second ruler can be limited to prevent the second ruler from shifting relative to the bracket body when it moves in the second direction, thereby ensuring the accuracy of the second positioning part in determining the position of the first side edge of the refrigerator door.

[0022] In some possible implementations, the first scale may include multiple scales;

[0023] The first limiting slide groove includes multiple first limiting slide grooves, each corresponding to a multiple first scale, and the multiple first limiting slide grooves are spaced apart along the second direction.

[0024] By setting multiple first scales and multiple first limit grooves, the distance between the bracket body and the top edge of the cabinet door can be adjusted to ensure that the distance between the bracket body and the top edge of the cabinet door is equal, thereby improving the accuracy of the first positioning part in positioning the top edge of the refrigerator door, and thus improving the accuracy of the assembly of the built-in refrigerator.

[0025] In some possible implementations, the positioning frame further includes:

[0026] A first blocking part is disposed on the bracket body to provide resistance to prevent the first scale from sliding relative to the first limiting groove;

[0027] The second blocking part, which is disposed on the bracket body, is used to provide resistance to prevent the second scale from sliding relative to the second limiting groove.

[0028] By setting the first and second blocking parts, after determining the position of the first ruler relative to the bracket body and the position of the second ruler relative to the bracket body, it is ensured that the first and second rulers are fixed relative to the bracket body. This ensures that the bracket body does not move relative to the cabinet door during the process of fixing the bracket body to the cabinet door, and further improves the accuracy of the refrigerator door assembly to the cabinet door.

[0029] In some possible implementations, the bracket body is provided with multiple fastening through holes.

[0030] By setting multiple fastening through holes on the bracket body, fasteners can pass through the fastening through holes and connect to the cabinet door to fix the bracket body to the cabinet door, thereby improving the connection strength between the bracket body and the cabinet door.

[0031] In some possible implementations, the support body includes:

[0032] A first connecting portion, along the second direction, has a first end and a second end, a first scale is detachably connected to the first connecting portion, and a first positioning portion is disposed on the first connecting portion;

[0033] The second connecting part is connected to the first end;

[0034] A third connecting part is connected to the second end, the second scale is detachably connected to the second connecting part and / or the third connecting part, and the second positioning part is disposed on the second connecting part and / or the third connecting part.

[0035] It can be seen that the second connecting part and the third connecting part are located at both ends of the first connecting part, and the first positioning part is located on the first connecting part, so as to improve the positioning effect of the first positioning part on the top edge of the refrigerator door.

[0036] When the second positioning part is provided on the second connecting part or the third connecting part, it can position one of the first side edges of the refrigerator door. When the second positioning part is provided on both the second connecting part and the third connecting part, it can position both of the first side edges of the refrigerator door at the same time, thereby improving the positioning effect of the refrigerator door.

[0037] In some possible implementations, the first connecting part, the second connecting part, and the third connecting part are integrally formed.

[0038] Since the first connecting part, the second connecting part and the third connecting part are integrally formed, the number of parts of the bracket body can be reduced, thereby simplifying the process of connecting the bracket body to the cabinet door.

[0039] In some possible implementations, the support body, the first positioning part, and the second positioning part are all plate-shaped structures, and the first positioning part and the second positioning part are perpendicular to each other.

[0040] By making the bracket body, the first positioning part, and the second positioning part all plate-shaped structures, the contact area between the first positioning part and the refrigerator door and the second positioning part and the refrigerator door can be increased, thereby improving the connection strength between the first positioning part and the refrigerator door and the second positioning part and the refrigerator door.

[0041] This application also provides an embedded refrigerator, including:

[0042] The box body has a storage room inside, and the box body has an opening communicating with the storage room;

[0043] A refrigerator door, which is rotatably connected to the refrigerator body to open or close the opening;

[0044] The positioning frame is the positioning frame in the installation fixture described above. The support body of the positioning frame is used to connect with the cabinet door. The first positioning part of the positioning frame is connected to the top edge of the refrigerator door, and the second positioning part of the positioning frame is connected to the first side edge of the refrigerator door.

[0045] Fasteners are used to secure the bracket body to the cabinet door.

[0046] In the assembly process of a built-in refrigerator, the refrigerator body is first placed in the reserved space of the cabinet, and then the refrigerator door is assembled to the cabinet door. Specifically, firstly, the position of the first ruler relative to the bracket body is adjusted so that the first positioning part of the bracket body can determine the position of the top edge of the refrigerator door. Then, the position of the second ruler relative to the bracket body is adjusted so that the second positioning part of the bracket body can determine the position of the first side edge of the refrigerator door. Then, the bracket body is fixed to the cabinet door with fasteners. Finally, the refrigerator door is assembled to the cabinet door, and the top edge of the refrigerator door is connected to the first positioning part, and the first side edge of the refrigerator door is connected to the second positioning part, thus completing the assembly of the refrigerator door to the cabinet door. Finally, the cabinet door with the refrigerator door is rotated and connected to the cabinet. When the cabinet door is opened, the reserved space of the cabinet can be closed, and the refrigerator door can close the opening of the refrigerator body.

[0047] As can be seen, by setting up the positioning bracket, the positions of the top edge and the first side edge of the refrigerator door can be positioned respectively, thereby improving the efficiency of assembling the refrigerator door onto the cabinet door, and thus improving the assembly efficiency of the built-in refrigerator.

[0048] In some possible implementations, the embedded refrigerator further includes:

[0049] A hinge, the hinge having:

[0050] The first connecting end is connected to the housing;

[0051] The second connection end is connected to the refrigerator door and is rotatable relative to the first connection end.

[0052] The third connecting end is used to directly connect to the side wall of the cabinet, and the third connecting end is fixed relative to the first connecting end.

[0053] Because the second connecting end of the hinge can rotate relative to the first connecting end, and the second connecting end is connected to the refrigerator door, the refrigerator door can be rotatably connected to the refrigerator body.

[0054] Furthermore, since the third connection end of the hinge is directly connected to the side wall of the cabinet, it avoids the need to set a shim between the third connection end and the side wall of the cabinet to adjust the gap between the cabinet body and the side wall of the cabinet. In other words, the cabinet body is assembled in the cabinet using a right-side or left-side positioning method, thereby avoiding the problem of adjusting the refrigerator door relative to the cabinet door due to the cabinet body being centered, further simplifying the assembly process of the refrigerator door being assembled onto the cabinet door.

[0055] Compared with the prior art, the beneficial effects of this application are as follows:

[0056] The first ruler is detachably connected to the bracket body and can move relative to the bracket body in a first direction. The first positioning part abuts against the top edge of the refrigerator door, which can determine the position of the refrigerator door relative to the cabinet door in the first direction when the refrigerator door is assembled on the cabinet door. The second ruler is detachably connected to the bracket body and can move relative to the bracket body in a second direction. The second positioning part abuts against the first side edge of the refrigerator door, which can determine the position of the refrigerator door relative to the cabinet door in the second direction when the refrigerator door is assembled on the cabinet door.

[0057] Since the first and second directions are perpendicular to each other, and the positioning direction of the first positioning part is perpendicular to the positioning direction of the second positioning part, the refrigerator door can be positioned simultaneously along two mutually perpendicular directions by setting the first and second positioning parts. The operation is simple. Compared with manually measuring to make the middle position of the refrigerator door coincide with the middle position of the cabinet door in order to position the refrigerator door in the second direction, the assembly efficiency of the built-in refrigerator is improved. Attached Figure Description

[0058] To more clearly illustrate the implementation methods in some embodiments or related technologies of this application, the accompanying drawings used in the description of the embodiments or related technologies will be briefly introduced below. Obviously, the accompanying drawings described below are some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings.

[0059] Figure 1 This is a structural diagram of the installation fixture for the refrigerator door and cabinet door of an embedded refrigerator in the prior art;

[0060] Figure 2A schematic diagram of the structure for assembling a refrigerator door using an installation fixture in an existing embedded refrigerator technology;

[0061] Figure 3 A schematic diagram illustrating the structural relationship between installation fixtures and cabinet doors in existing technology;

[0062] Figure 4 This is one specific implementation of the cabinet in the embodiments of this application;

[0063] Figure 5 This is a schematic diagram of the installation fixture provided in the embodiments of this application;

[0064] Figure 6 A schematic diagram of the structure of the first scale provided in the embodiments of this application;

[0065] Figure 7 This is a schematic diagram of the installation fixture and cabinet door assembly provided in the embodiments of this application;

[0066] Figure 8 for Figure 5 A magnified view of a portion of point A in the middle;

[0067] Figure 9 for Figure 5 A magnified view of a portion of point B in the middle;

[0068] Figure 10 This is a structural schematic diagram of the refrigerator door of the embedded refrigerator in the closed / open state provided in an embodiment of this application;

[0069] Figure 11 This is a schematic diagram of the structure of an embedded refrigerator with its opening in an embodiment of this application.

[0070] Figure 12 This is provided by the embodiments of this application. Figure 11 A magnified view of a portion of point C.

[0071] Explanation of reference numerals in the attached figures:

[0072] 001-Positioning frame; 0011-Positioning part; 002-Scale;

[0073] 100 - Installation fixture; 110 - Positioning frame; 111 - Support body; 111a - First connecting part; 111b - Second connecting part; 111c - Third connecting part; 112 - First positioning part; 113 - Second positioning part; 114 - First limiting slide groove; 115 - Second limiting slide groove; 116 - First blocking part; 117 - Second blocking part; 120 - First scale; 121 - First hanging protrusion; 122 - Slot; 130 - Second scale; 131 - Second hanging protrusion; 140 - Fastening through hole;

[0074] 200 - Built-in refrigerator; 210 - Cabinet; 211 - Storage compartment; 220 - Refrigerator door; 230 - Hinge; 231 - First connecting end; 232 - Second connecting end; 233 - Third connecting end;

[0075] 300 - Cabinet; 310 - Cabinet door; 320 - Storage space. Detailed Implementation

[0076] To make the objectives, implementation methods and advantages of this application clearer, the exemplary implementation methods of this application will be clearly and completely described below with reference to the accompanying drawings of the exemplary embodiments of this application. Obviously, the described exemplary embodiments are only some embodiments of this application, and not all embodiments.

[0077] It should be noted that the brief descriptions of terms in this application are only for the convenience of understanding the embodiments described below, and are not intended to limit the embodiments of this application. Unless otherwise stated, these terms should be understood in their ordinary and common meaning.

[0078] Furthermore, the terms “comprising” and “having”, and any variations thereof, are intended to cover but not exclusively include, for example, a product or device that includes a series of components is not necessarily limited to those that are explicitly listed, but may include other components that are not explicitly listed or that are inherent to such product or device.

[0079] In the description of this application, it should be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this application.

[0080] The terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features indicated. Therefore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of this application, unless otherwise stated, "a plurality of" means two or more.

[0081] In the description of this application, it should be noted that, unless otherwise expressly specified and limited, the terms "installation," "connection," and "linking" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection between two components. Those skilled in the art can understand the specific meaning of the above terms in this application based on the specific circumstances.

[0082] As described in the background section, when installing a refrigerator door, an installation tool is used. However, the installation tool can only position the refrigerator door in the height direction, while the positioning in the width direction still relies on manual measurement and marking, resulting in low assembly efficiency of built-in refrigerators.

[0083] See Figure 1 , Figure 2 and Figure 3 , Figure 1 This is a structural diagram of the installation fixture for the refrigerator door and cabinet door of an embedded refrigerator in the prior art. Figure 2 This is a schematic diagram of the structure for assembling the refrigerator door in an existing embedded refrigerator using installation fixtures. Figure 3 This is a schematic diagram illustrating the structural relationship between an installation fixture and a cabinet door in the prior art. The installation fixture includes a positioning frame 001 and a ruler 002. The ruler 002 is detachably mounted on the positioning frame 001 and can move relative to the positioning frame 001 along the height direction of the cabinet door 310. One end of the ruler 002 overlaps the top edge of the cabinet door 310, thereby determining the position of the positioning frame 001 relative to the top edge of the cabinet door 310. After determining the position of the positioning frame 001 on the cabinet door 310, the ruler 002 needs to be removed from the positioning frame 001 for positioning the refrigerator door 220. The positioning frame 001 is provided with a positioning part 0011, which can... Positioning the top edge of the refrigerator door 220 allows the refrigerator door 220 to be positioned in the height direction of the cabinet door 310. However, determining the position of the refrigerator door 220 in the width direction of the cabinet door 310 requires manually measuring the midpoint of both the refrigerator door 220 and the cabinet door 310 in the width direction. This ensures that the midpoint of the refrigerator door 220 coincides with the midpoint of the cabinet door 310. In other words, the position of the refrigerator door 220 in the width direction of the cabinet door 310 is determined by manually measuring the midpoint. However, this method results in lower assembly efficiency for the built-in refrigerator 200.

[0084] Therefore, the embedded refrigerator of this application can improve its assembly efficiency.

[0085] The technical solutions of some embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this application.

[0086] The embedded refrigerator provided in this application can have various implementation forms, for example, see Figure 4 , Figure 4 In one specific embodiment of the cabinet 300 in this application, a storage space 320 is formed within the cabinet 300. In its height direction, the storage space 320 can be one or two. When there is only one storage space 320, refer to [reference needed]. Figure 2 The body 210 of the built-in refrigerator 200 is located within the storage space 320, and the top of the body 210 of the built-in refrigerator 200 is either flush with the top of the cabinet 300 or has a small gap. When there are two storage spaces 320, that is, a partition is provided in the storage space 320 to divide the storage space 320 into two. It is possible to choose whether to place the body 210 of the built-in refrigerator 200 in the upper storage space 320 (the top of the body 210 is close to the partition, and the bottom of the body 210 abuts against the bottom of the cabinet 300, i.e., the body 210 is placed at the bottom of the cabinet 300) or in the lower storage space 320 (the top of the body 210 is close to the top of the cabinet 300, and the bottom of the body 210 abuts against the partition, i.e., the body 210 is placed on the partition).

[0087] The following will describe in detail an installation fixture 100 for the refrigerator door 220 and cabinet door 310 of the built-in refrigerator 200 used in the assembly of the built-in refrigerator 200. The installation fixture 100 can position the refrigerator door 220 in the height direction and the width direction of the cabinet door 310 respectively, so as to improve the assembly efficiency of the built-in refrigerator 200.

[0088] In some possible embodiments, see Figure 5 and Figure 6 , Figure 5 This is a schematic diagram of the installation fixture 100 provided in the embodiments of this application. Figure 6 This is a schematic diagram of the structure of the first ruler 120 provided in the embodiment of this application. The installation fixture 100 includes a positioning frame 110 and a first ruler 120. The positioning frame 110 is used to position the refrigerator door 220 on the cabinet door 310. The first ruler 120 is detachably connected to the positioning frame 110. The first ruler 120 is provided with a first hanging protrusion 121. The first hanging protrusion 121 protrudes from the first ruler 120 in a direction perpendicular to the first direction. The first hanging protrusion 121 can be hung on the top edge of the cabinet door 310.

[0089] Because the first scale 120 has graduations, the distance to the object being measured can be intuitively reflected.

[0090] In addition, since the first hanging protrusion 121 on the first ruler 120 can be hung on the top edge of the cabinet door 310, and the first ruler 120 is detachably connected to the positioning frame 110, the distance between the top edge of the cabinet door 310 and the positioning frame 110 can be measured by the first ruler 120. Since the positioning frame 110 can position the refrigerator door 220 on the cabinet door 310, the first ruler 120 can reflect the distance between the top edge of the cabinet door 310 and the top edge of the refrigerator door 220.

[0091] In addition, it should be noted that the first direction refers to the height direction of the cabinet door 310, such as... Figure 5 The direction indicated by the X arrow.

[0092] Furthermore, the first mounting protrusion 121 can serve as the initial reference for the first scale 120, for example, the position of the 0 mark.

[0093] In some possible embodiments, see Figure 5 and Figure 7 , Figure 7 This is a schematic diagram of the installation fixture 100 and the cabinet door 310 provided in this application embodiment. The positioning frame 110 includes a bracket body 111 and a first positioning part 112. The bracket body 111 is used to connect with the cabinet door 310. The first scale 120 can move relative to the bracket body 111 in a first direction. The first positioning part 112 is disposed on the bracket body 111 and protrudes from the bracket body 111 in a direction perpendicular to the first direction. The first positioning part 112 is used to abut against the top edge of the refrigerator door 220 to determine the position of the top edge of the refrigerator door 220. The protrusion direction of the first positioning part 112 is opposite to the protrusion direction of the first hanging protrusion 121.

[0094] Wherein, the direction perpendicular to the first direction refers to the thickness direction of the cabinet door 310. For example, the first direction is... Figure 5 The direction indicated by the Z-arrow.

[0095] Since the first ruler 120 can move relative to the bracket body 111 along the first direction, in the process of determining the position of the bracket body 111 on the cabinet door 310, it is necessary to adjust the first ruler 120 to move along the first direction to determine the distance between the top edge of the refrigerator door 220 and the top edge of the cabinet door 310. After the distance between the two is determined, the bracket body 111 is connected to the cabinet door 310 and fixed relative to the cabinet door 310. At this time, the first ruler 120 can be removed from the bracket body 111. Since the first positioning part 112 is provided on the bracket body 111 and protrudes from the bracket body 111 perpendicular to the first direction, when the top edge of the refrigerator door 220 abuts against the first positioning part 112, the position of the top edge of the refrigerator door 220 on the cabinet door 310 can be determined, thereby determining the position of the refrigerator door 220 in the first direction.

[0096] In some possible embodiments, see Figure 5 and Figure 7 The positioning bracket 110 also includes a second positioning part 113, which protrudes from the bracket body 111. The protrusion direction of the second positioning part 113 is consistent with the protrusion direction of the first positioning part 112, and the positioning direction of the second positioning part 113 is perpendicular to the positioning direction of the first positioning part 112. The second positioning part 113 is used to abut against the first side edge of the refrigerator door 220 to determine the position of the first side edge of the refrigerator door 220. The installation fixture 100 also includes a second ruler 130, which is detachably connected to the bracket body 111 and can move relative to the bracket body 111 in a second direction. The second ruler 130 is provided with a second hanging protrusion 131, which protrudes from the second ruler 130 in a direction perpendicular to the first direction. The second hanging protrusion 131 can be hung on the first side edge of the cabinet door 310. The second direction is perpendicular to the first direction and is also perpendicular to the thickness direction of the cabinet door 310.

[0097] The second direction mentioned above is a direction perpendicular to the thickness direction of the cabinet door 310 and perpendicular to the first direction, such as... Figure 5 The direction indicated by the Y-arrow in the middle.

[0098] Similarly, the second scale 130 can intuitively reflect the distance of the measured object. Thus, by having the second hanging protrusion 131 of the second scale 130 hang on the first side edge of the cabinet door 310, and the second scale 130 can move relative to the bracket body 111 in the second direction, and the second direction is perpendicular to the first direction, it can reflect the distance between the first side edge of the cabinet door 310 and the bracket body 111. In this way, by having the second positioning part 113 abut against the first side edge of the refrigerator door 220, the position of the first side edge of the refrigerator door 220 can be determined, that is to say, the position of the first side edge of the refrigerator door 220 can be determined.

[0099] It should be noted that the refrigerator door 220 has a top edge, a bottom edge, and two first side edges. The top edge, one first side edge, the bottom edge, and the other first side edge are connected in sequence to form the outer contour of the refrigerator door 220. That is, the two first side edges of the refrigerator door 220 are spaced apart along its width direction and extend along its height direction. Similarly, the cabinet door 310 also has two first side edges. The two first side edges of the cabinet door 310 are spaced apart along its width direction and extend along its height direction.

[0100] During the assembly of the refrigerator door 220, the length of the first scale 120 is first adjusted to reflect the distance between the top edge of the cabinet door 310 and the top edge of the refrigerator door 220. Then, the position of the bracket body 111 relative to the top edge of the cabinet door 310 in the first direction is determined. Next, the length of the second scale 130 is adjusted to reflect the distance between the first side edge of the cabinet door 310 and the first side edge of the refrigerator door 220. The position of the bracket body 111 relative to the first side edge of the cabinet door 310 in the second direction is then determined, thus completing the determination of the position of the bracket body 111 on the cabinet door 310. Next, the bracket body 111 is connected to the cabinet door 310 to fix it relative to the cabinet door 310. The first ruler 120 and the second ruler 130 are removed from the bracket body 111. Then, the position of the top edge of the refrigerator door 220 is positioned by the first positioning part 112, and the position of the first side edge of the refrigerator door 220 is positioned by the second positioning part 113, thereby completing the positioning of the top edge and the first side edge of the refrigerator door 220. Finally, the positioned refrigerator door 220 is fixed to the cabinet door 310, thereby completing the purpose of assembling the refrigerator door 220 onto the cabinet door 310.

[0101] As can be seen, the first ruler 120 is detachably connected to the bracket body 111 and can move relative to the bracket body 111 in the first direction. The first positioning part 112 abuts against the top edge of the refrigerator door 220, which can determine the position of the refrigerator door 220 relative to the cabinet door 310 in the first direction when the refrigerator door 220 is assembled on the cabinet door 310. The second ruler 130 is detachably connected to the bracket body 111 and can move relative to the bracket body 111 in the second direction. The second positioning part 113 abuts against the first side edge of the refrigerator door 220, which can determine the position of the refrigerator door 220 relative to the cabinet door 310 in the second direction when the refrigerator door 220 is assembled on the cabinet door 310.

[0102] Since the first direction and the second direction are perpendicular to each other, and the positioning direction of the first positioning part 112 is perpendicular to the positioning direction of the second positioning part 113, the refrigerator door 220 can be positioned simultaneously along two mutually perpendicular directions by setting the first positioning part 112 and the second positioning part 113. The operation is simple. Compared with manually measuring to make the middle position of the refrigerator door 220 coincide with the middle position of the cabinet door 310 to position the refrigerator door 220 in the second direction, the assembly efficiency of the built-in refrigerator 200 is improved.

[0103] It should also be noted that the positioning direction of the first positioning part 112 refers to the direction that prevents the refrigerator door 220 from moving, that is... Figure 5 The direction indicated by the X-shaped arrow, the positioning direction of the second positioning part 113 refers to the direction that prevents the refrigerator door 220 from moving, that is... Figure 5 The direction indicated by the Y-arrow in the middle.

[0104] In some possible embodiments, see Figure 5 The bracket body 111 is provided with a first limiting slide groove 114 and a second limiting slide groove 115. The first limiting slide groove 114 extends along a first direction, and a first scale 120 is movably inserted through the first limiting slide groove 114. The second limiting slide groove 115 extends along a second direction, and a second scale 130 is movably inserted through the second limiting slide groove 115.

[0105] Therefore, by setting the first limiting groove 114, the movement trajectory of the first scale 120 can be limited to avoid the first scale 120 shifting relative to the bracket body 111 when it moves along the first direction, thereby ensuring the accuracy of the position determination of the top edge of the refrigerator door 220 by the first positioning part 112.

[0106] By setting the second limiting groove 115, the movement trajectory of the second scale 130 can be limited to avoid the second scale 130 shifting relative to the bracket body 111 when it moves in the second direction, thereby ensuring the accuracy of the position determination of the second positioning part 113 on the first side edge of the refrigerator door 220.

[0107] In some possible embodiments, see Figure 5 and Figure 7 The first scale 120 includes multiple first limiting slides 114, and the multiple first limiting slides 114 correspond one-to-one with the multiple first scales 120. The multiple first limiting slides 114 are spaced apart along the second direction.

[0108] The term "multiple" refers to two or more quantities. For example, as shown in the figure, there are two first scales 120 and two first limiting grooves 114.

[0109] By setting multiple first scales 120 and multiple first limiting grooves 114, when adjusting the distance between the bracket body 111 and the top edge of the cabinet door 310, the distance between the bracket body 111 and the top edge of the cabinet door 310 can be made equal, thereby improving the accuracy of the first positioning part 112 in positioning the top edge of the refrigerator door 220, and thus improving the accuracy of the assembly of the built-in refrigerator 200.

[0110] In some possible embodiments, see Figure 5 , Figure 8 and Figure 9 , Figure 8 for Figure 5 A magnified view of a portion of point A in the diagram. Figure 9 for Figure 5 The enlarged view at point B shows that the positioning frame 110 also includes a first blocking part 116 and a second blocking part 117. The first blocking part 116 is disposed on the support body 111 and is used to provide resistance to prevent the first scale 120 from sliding relative to the first limiting slide groove 114. The second blocking part 117 is disposed on the support body 111 and is used to provide resistance to prevent the second scale 130 from sliding relative to the second limiting slide groove 115.

[0111] For example, see Figure 6 The first scale 120 and the second scale 130 are provided with a plurality of slots 122, which are arranged sequentially along the extension direction of the first scale 120 and the second scale 130. The first blocking part 116 cooperates with the slot 122 of the first limiting slide groove 114 to prevent the first scale 120 from moving relative to the bracket body 111. When it is necessary to adjust the position of the first scale 120 relative to the bracket body 111, a force is applied to the first scale 120 to make it move relative to the bracket body 111, so as to adjust the position of the first scale 120 relative to the bracket body 111. After adjustment, the first blocking part 116 cooperates with the slot 122 on the first scale 120 to prevent the first scale 120 from moving relative to the bracket body 111.

[0112] Similarly, the adjustment of the second scale 130 is similar to the adjustment of the first scale 120. You can refer to the adjustment of the first scale 120, which will not be repeated here.

[0113] As can be seen, by setting the first blocking part 116 and the second blocking part 117, after determining the position of the first scale 120 relative to the bracket body 111 and the position of the second scale 130 relative to the bracket body 111, it is ensured that the first scale 120 and the second scale 130 are fixed relative to the bracket body 111. This ensures that the bracket body 111 is prevented from moving relative to the cabinet door 310 during the process of fixing the bracket body 111 to the cabinet door 310, and further improves the accuracy of the refrigerator door 220 being assembled onto the cabinet door 310.

[0114] In some possible embodiments, see Figure 7 The bracket body 111 is provided with multiple fastening through holes 140.

[0115] The aforementioned plurality of fastening through holes 140 refers to two or more fastening through holes 140.

[0116] By providing multiple fastening through holes 140 on the bracket body 111, fasteners can pass through the fastening through holes 140 and connect to the cabinet door 310 to fix the bracket body 111 to the cabinet door 310, thereby improving the connection strength between the bracket body 111 and the cabinet door 310.

[0117] Optionally, a plurality of fastening through holes 140 are spaced apart on the bracket body 111 along the second direction.

[0118] In some possible embodiments, the support body 111 includes a first connecting portion 111a, a second connecting portion 111b, and a third connecting portion 111c. Along the second direction, the first connecting portion 111a has a first end and a second end. A first scale 120 is detachably connected to the first connecting portion 111a, and a first positioning portion 112 is disposed on the first connecting portion 111a. The second connecting portion 111b is connected to the first end. The third connecting portion 111c is connected to the second end. A second scale 130 is detachably connected to the second connecting portion 111b and / or the third connecting portion 111c, and a second positioning portion 113 is disposed on the second connecting portion 111b and / or the third connecting portion 111c.

[0119] As can be seen, the second connecting part 111b and the third connecting part 111c are disposed at both ends of the first connecting part 111a, and the first positioning part 112 is disposed on the first connecting part 111a, so as to improve the positioning effect of the first positioning part 112 on the top edge of the refrigerator door 220.

[0120] When the second positioning part 113 is disposed on the second connecting part 111b or the third connecting part 111c, it can position one of the first side edges of the refrigerator door 220. When the second positioning part 113 is disposed on both the second connecting part 111b and the third connecting part 111c, it can simultaneously position both of the first side edges of the refrigerator door 220, thereby improving the positioning effect of the refrigerator door 220.

[0121] It should be noted that the order in which the first ruler 120 measures the top edge of the refrigerator door 220 and the top edge of the cabinet door 310, and adjusts the position of the first ruler 120 relative to the bracket body 111, and the order in which the second ruler 130 measures the first side edge of the refrigerator door 220 and the first side edge of the cabinet door 310, and adjusts the position of the second ruler 130 relative to the bracket body 111, is not limited. In other words, the position of the first ruler 120 relative to the bracket body 111 can be adjusted first, or the position of the second ruler 130 relative to the bracket body 111 can be adjusted first.

[0122] In some possible embodiments, the first connecting portion 111a, the second connecting portion 111b, and the third connecting portion 111c are integrally formed.

[0123] Since the first connecting part 111a, the second connecting part 111b and the third connecting part 111c are integrally formed, the number of parts of the bracket body 111 can be reduced, thereby simplifying the process of connecting the bracket body 111 to the cabinet door 310.

[0124] In some possible embodiments, the support body 111, the first positioning part 112 and the second positioning part 113 are all plate-shaped structures, and the first positioning part 112 and the second positioning part 113 are perpendicular to each other.

[0125] By making the bracket body 111, the first positioning part 112 and the second positioning part 113 all plate-shaped structures, the contact area between the first positioning part 112 and the refrigerator door 220 and the second positioning part 113 and the refrigerator door 220 can be increased, thereby improving the connection strength between the first positioning part 112 and the refrigerator door 220 and the second positioning part 113 and the refrigerator door 220.

[0126] See Figure 10 and Figure 11 , Figure 10 This is a structural diagram of the refrigerator door 220 of the embedded refrigerator 200 provided in this embodiment of the application, showing the refrigerator door 220 in a closed state (the mounting bracket in the mounting fixture 100 holds the refrigerator door 220 in a positioned state, and should not be interpreted as the mounting bracket being set on the refrigerator door 220). Figure 11This is a structural schematic diagram of the open state of the built-in refrigerator 200 provided in this application embodiment. This application embodiment also provides a built-in refrigerator 200, which includes a cabinet 210, a refrigerator door 220, a positioning frame 110, and fasteners. The cabinet 210 has a storage compartment 211 inside, and an opening communicating with the storage compartment 211 is provided on the cabinet 210. The refrigerator door 220 is rotatably connected to the cabinet 210 to open or close the opening. The positioning frame 110 is the positioning frame 110 in the installation fixture 100 in the above embodiment. The support body 111 of the positioning frame 110 is used to connect to the cabinet door 310. The first positioning part 112 of the positioning frame 110 is connected to the top edge of the refrigerator door 220, and the second positioning part 113 of the positioning frame 110 is connected to the first side edge of the refrigerator door 220. Fasteners are used to fix the support body 111 to the cabinet door 310.

[0127] The structure and function of the positioning frame 110 are the same as those of the positioning frame 110 in the above embodiments, and will not be repeated here.

[0128] During the assembly of the built-in refrigerator 200, the cabinet body 210 is first placed in the reserved space of the cabinet 300, and then the refrigerator door 220 is assembled to the cabinet door 310. Specifically, the position of the first ruler 120 relative to the bracket body 111 is first adjusted so that the first positioning part 112 of the bracket body 111 can determine the position of the top edge of the refrigerator door 220. Then, the position of the second ruler 130 relative to the bracket body 111 is adjusted so that the second positioning part 113 of the bracket body 111 can determine the position of the first side edge of the refrigerator door 220. Then, fasteners are used to fix the bracket body 111 to the cabinet door 310. Finally, the refrigerator door 220 is assembled to the cabinet door 310, and the top edge of the refrigerator door 220 is connected to the first positioning part 112, and the first side edge of the refrigerator door 220 is connected to the second positioning part 113, thereby completing the assembly of the refrigerator door 220 to the cabinet door 310. Finally, the cabinet door 310 with the refrigerator door 220 assembled is rotated and connected to the cabinet 300. When the cabinet door 310 is opened, it can close the reserved space of the cabinet 300, and the refrigerator door 220 can close the opening of the cabinet body 210.

[0129] As can be seen, by setting the positioning bracket 110, the top edge and the first side edge of the refrigerator door 220 can be positioned respectively, thereby improving the efficiency of assembling the refrigerator door 220 onto the cabinet door 310, and thus improving the assembly efficiency of the built-in refrigerator 200.

[0130] Alternatively, the built-in refrigerator 200 may also include a decorative strip, which is placed between the reserved space of the cabinet 300 and the cabinet body 210 to seal the gap between the cabinet 300 and the cabinet body 210, thereby improving the aesthetics of the built-in refrigerator 200.

[0131] In some possible embodiments, see Figure 11 and Figure 12 , Figure 12 This is provided by the embodiments of this application. Figure 11 The enlarged view at point C shows that the built-in refrigerator 200 also includes a hinge 230. The hinge 230 has a first connecting end 231, a second connecting end 232, and a third connecting end 233. The first connecting end 231 is connected to the cabinet body 210; the second connecting end 232 is connected to the refrigerator door 220 and can rotate relative to the first connecting end 231; the third connecting end 233 is used to directly connect to the side wall of the cabinet 300 and is fixed relative to the first connecting end 231.

[0132] Since the second connecting end 232 of the hinge 230 can rotate relative to the first connecting end 231, and the second connecting end 232 is connected to the refrigerator door 220, the refrigerator door 220 can be rotatably connected to the cabinet 210.

[0133] Furthermore, since the third connecting end 233 of the hinge 230 is directly connected to the side wall of the cabinet 300, it avoids the need to set a shim between the third connecting end 233 and the side wall of the cabinet 300 to adjust the gap between the cabinet body 210 and the side wall of the cabinet 300. In other words, the cabinet body 210 is assembled in the cabinet 300 using a right-side or left-side positioning method, thereby avoiding the problem of adjusting the refrigerator door 220 relative to the cabinet door 310 due to the centered positioning of the cabinet body 210, and further simplifying the assembly process of the refrigerator door 220 on the cabinet door 310.

[0134] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this application, and are not intended to limit them. Although this application has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some or all of the technical features therein. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the scope of the technical solutions of the embodiments of this application.

[0135] For ease of explanation, the above description has been provided in conjunction with specific embodiments. However, the above exemplary discussion is not intended to be exhaustive or to limit the embodiments to the specific forms disclosed above. Various modifications and variations can be obtained based on the above teachings. The selection and description of the above embodiments are for the purpose of better explaining the principles and practical applications, thereby enabling those skilled in the art to better utilize the described embodiments and various different variations of embodiments suitable for specific use considerations.

Claims

1. An installation fixture (100) for the refrigerator door (220) and cabinet door (310) of an embedded refrigerator (200), characterized in that, include: Positioning bracket (110), the positioning bracket (110) is used to position the refrigerator door (220) on the cabinet door (310); A first ruler (120) is movable relative to the positioning frame along a first direction. The first ruler (120) is provided with a first hanging protrusion (121). The first hanging protrusion (121) protrudes from the first ruler (120) perpendicular to the first direction. The first hanging protrusion (121) can be hung on the top edge of the cabinet door (310). The positioning frame (110) includes: The bracket body (111) is used to connect with the cabinet door (310), and the first scale (120) is detachably connected with the positioning frame (110). The first positioning part (112) is disposed on the bracket body (111) and protrudes from the bracket body (111) in a direction perpendicular to the first direction. The first positioning part (112) is used to abut against the top edge of the refrigerator door (220) to determine the position of the top edge of the refrigerator door (220). The protrusion direction of the first positioning part (112) is opposite to the protrusion direction of the first hanging protrusion (121). The second positioning part (113) protrudes from the bracket body (111), the protrusion direction of the second positioning part (113) is consistent with the protrusion direction of the first positioning part (112), and the positioning direction of the second positioning part (113) is perpendicular to the positioning direction of the first positioning part (112). The second positioning part (113) is used to abut against the first side edge of the refrigerator door (220) to determine the position of the first side edge of the refrigerator door (220). The installation fixture (100) also includes: The second scale (130) is detachably connected to the bracket body (111) and can move relative to the bracket body (111) in a second direction. The second scale (130) is provided with a second hanging protrusion (131). The second hanging protrusion (131) protrudes from the second scale (130) in a direction perpendicular to the first direction. The second hanging protrusion (131) can be hung on the first side edge of the cabinet door (310). The second direction is perpendicular to the first direction and is also perpendicular to the thickness direction of the cabinet door (310).

2. The installation fixture (100) according to claim 1, characterized in that, The support body (111) is provided with: The first limiting slide (114) extends along the first direction, and the first scale (120) is movably inserted through the first limiting slide (114). The second limiting slide (115) extends along the second direction, and the second scale (130) is movably inserted through the second limiting slide (115).

3. The installation fixture (100) according to claim 2, characterized in that, The first scale (120) includes multiple scales; The first limiting slide (114) includes multiple first limiting slides (114), and each of the multiple first limiting slides (114) corresponds to a multiple first scale (120). The multiple first limiting slides (114) are spaced apart along the second direction.

4. The installation fixture (100) according to claim 3, characterized in that, The positioning frame (110) also includes: The first blocking part (116) is disposed on the bracket body (111) and is used to provide resistance to prevent the first scale (120) from sliding relative to the first limiting groove (114); The second blocking part (117) is disposed on the bracket body (111) and is used to provide resistance to prevent the second scale (130) from sliding relative to the second limiting groove (115).

5. The installation fixture (100) according to claim 1, characterized in that, The bracket body (111) is provided with multiple fastening through holes (140).

6. The installation fixture (100) according to any one of claims 1-5, characterized in that, The support body (111) includes: A first connecting portion (111a) has a first end and a second end along the second direction. A first scale (120) is detachably connected to the first connecting portion (111a). A first positioning portion (112) is disposed on the first connecting portion (111a). The second connecting part (111b) is connected to the first end; The third connecting part (111c) is connected to the second end, the second scale (130) is detachably connected to the second connecting part (111b) and / or the third connecting part (111c), and the second positioning part (113) is disposed on the second connecting part (111b) and / or the third connecting part (111c).

7. The installation fixture (100) according to claim 6, characterized in that, The first connecting part (111a), the second connecting part (111b) and the third connecting part (111c) are integrally formed.

8. The installation fixture (100) according to any one of claims 1-5, characterized in that, The support body (111), the first positioning part (112) and the second positioning part (113) are all plate-shaped structures, and the first positioning part (112) and the second positioning part (113) are perpendicular to each other.

9. An embedded refrigerator (200), characterized in that, include: The box (210) has a storage room inside and an opening communicating with the storage room on the box (210). A refrigerator door (220) is rotatably connected to the cabinet (210) to open or close the opening; Positioning frame (110), wherein the positioning frame (110) is the positioning frame (110) in the installation fixture (100) according to any one of claims 1-8, the bracket body (111) of the positioning frame (110) is used to connect with the cabinet door (310), the first positioning part (112) of the positioning frame (110) is connected to the top edge of the refrigerator door (220), and the second positioning part (113) of the positioning frame (110) is connected to the first side edge of the refrigerator door (220); Fasteners are used to secure the bracket body (111) to the cabinet door (310).

10. The built-in refrigerator (200) according to claim 9, characterized in that, The built-in refrigerator (200) also includes: A hinge (230) having: The first connecting end (231) is connected to the housing (210); The second connecting end (232) is connected to the refrigerator door (220) and is rotatable relative to the first connecting end (231). The third connecting end (233) is used to directly connect to the side wall of the cabinet, and the third connecting end (233) is fixed relative to the first connecting end (231).