CN-121987029-A - Height increasing frame and combined storage structure thereof

Abstract

The invention discloses a heightening frame and a combined storage structure thereof, which are characterized by comprising a heightening frame main body, a foundation heightening module and a functional module, wherein the heightening frame main body is provided with a top surface bearing part and a bottom surface mounting part, the bottom surface of the top surface bearing part is provided with at least one group of linearly distributed plug-in guide rails along the length direction, the bottom surface mounting part is provided with a plurality of second butt joint structures, the foundation heightening module is composed of supporting components, the supporting components are matched with the connecting structures through the butt joint structures to realize supporting and vertical stacking extension, and the functional module is matched with the guide rails through sliding blocks to realize sliding adjustment and forward and reverse posture switching along the bottom surface of the main body. The combined storage structure of the invention utilizes the butt joint of the two main bodies in the normal and inverted directions to form the containing gap. The invention realizes flexible layout and form switching of the functional modules, the height can be adjusted in a modularized way, and the combined storage structure combination constructs a double-layer storage space, thereby improving the structural strength and the space utilization rate.

Inventors

• CAI JUNJIE
• WANG ZIXUAN
• WANG YILIN
• CHEN YAWEN

Assignees

• 广东工业大学

Dates

Publication Date

20260508

Application Date

20260225

Claims (10)

1. 1. An elevated frame, comprising: The heightening frame comprises a heightening frame body, wherein the heightening frame body is provided with a top surface bearing part and a bottom surface mounting part, the bottom surface of the top surface bearing part is provided with at least one group of linearly distributed plug-in guide rails along the length direction, and the bottom surface mounting part is provided with a plurality of second butt joint structures; The foundation heightening module comprises at least two independent supporting components, wherein a first butt joint structure matched with the second butt joint structure is arranged at the top of each supporting component, and a first connecting structure is arranged at the bottom of each supporting component; The functional module is provided with a connecting part which is constructed as a sliding block with the cross section shape matched with that of the plug-in guide rail; the functional module is matched with the plug guide rail through the connecting part, can slide along the bottom surface of the top surface bearing part to adjust the position and fix the position, and can be installed in a forward or reverse gesture relative to the heightening frame main body so as to switch the use form of the functional module.
2. 2. An heightening frame according to claim 1, characterized in that: the first connecting structure of the supporting component is a U-shaped groove, and the inner side wall of the U-shaped groove forms a limiting surface; the first butt joint structure is constructed as a protruding block matched with the shape of the inner cavity of the U-shaped groove; When a plurality of supporting components are vertically stacked, the protruding blocks of the lower supporting component are embedded into the U-shaped grooves of the upper supporting component, and the limiting faces are used for limiting the relative displacement of the protruding blocks in the horizontal direction.
3. 3. An heightening frame according to claim 2, characterized in that: a magnetic component is arranged between the matching surfaces of the first butt joint structure and the first connecting structure; A magnetic part is embedded in the first butt joint structure, and a magnetic conduction part is embedded in a corresponding position in the first connecting structure; The position of the magnetic part corresponds to the position of the magnetic conduction part, and when the first butt joint structure is inserted into the first connecting structure, the magnetic part and the first butt joint structure are in a magnetic force adsorption fit state.
4. 4. An heightening frame according to claim 1, characterized in that: The plug guide rail is a T-shaped groove formed along the bottom surface of the top surface bearing part.
5. 5. An heightening frame according to claim 1, characterized in that: The side wall or the back of the heightening frame main body between the top surface bearing part and the bottom surface mounting part is provided with a plurality of wire arranging holes; the wire arranging hole is configured to be used for allowing wires of the functional module or connecting wires of external equipment to pass through so as to store and manage desktop wires.
6. 6. An heightening frame according to claim 1, characterized in that: The bottom of the supporting component is provided with an anti-slip corner cutting structure; The anti-slip chamfer structure is configured as an outwards inclined bevel surface, and an anti-slip pad is arranged on the bevel surface.
7. 7. A height-increasing frame combined type storage structure applied to the height-increasing frame as set forth in any one of claims 1 to 6, comprising: A first heightening frame body and a second heightening frame body; The first heightening frame main body keeps a normal state, and the second heightening frame main body is turned to an inverted state; The second butt joint structure at the bottom of the first heightening frame main body is in butt joint with the second butt joint structure at the bottom of the second heightening frame main body through a middle connecting piece and/or a supporting component, so that an accommodating gap is formed between the bottom surface mounting parts of the two heightening frame main bodies; The functional module can be inserted and contained in the containing gap.
8. 8. The height-increasing rack combined storage structure as set forth in claim 7, wherein: positioning clamping grooves are formed in the edges of two sides of the top surface bearing part of the heightening frame main body; the transverse width of the bottom surface mounting part of the heightening frame main body is matched with the distance between the positioning clamping grooves on the two sides of the top surface bearing part; the positioning card slot is configured to accommodate a bottom surface mounting portion of another height-increasing frame body in a body stacked state.
9. 9. The height-increasing rack combined storage structure as set forth in claim 7, wherein: the intermediate connector is provided with a plug-in part which is suitable for being inserted into the accommodating gap; When the intermediate connecting piece is inserted into the side face of the accommodating gap, the intermediate connecting piece is simultaneously abutted against the edges of the first heightening frame body and the second heightening frame body.
10. 10. The height-increasing rack combined storage structure as set forth in claim 7, wherein: the combined storage structure also supports the vertical stacking mode of the main body; When the vertical stacking mode is constructed, the bottom surface mounting part of the upper heightening frame body can be embedded into the positioning clamping groove of the lower heightening frame body, and the side wall of the positioning clamping groove is used for limiting the movement of the upper heightening frame body.

Description

Height increasing frame and combined storage structure thereof Technical Field The invention relates to the technical field of office supplies and desktop storage, in particular to an heightening frame and a combined storage structure thereof. Background With the development of modern office environments, display height increasing frames have become a common tool for improving cervical vertebra health of computer users and optimizing desktop space. Conventional display risers typically consist of a panel and two fixed support legs, the main function of which is to raise the display so that the user's line of sight is level with the screen. Most of the existing heightening frames are fixed in height and cannot be adjusted according to crowds with different heights, a few brackets with adjusting functions are often fixed by adopting complicated lifting mechanical structures or screws, the structure is complicated, the adjustment is inconvenient, and the personalized requirements of users on different sight heights are difficult to meet. The traditional heightening frame is usually only used as a supporting platform, and lacks the capacity of accommodating and integrating the periphery of a desktop such as an earphone, a cable and a mobile phone. While some products attempt to add hooks or drawers, these components are typically fixedly mounted in a particular location, and the user cannot adjust the position of these features according to his or her desktop layout habits (e.g., left or right hand access). Existing fittings, once installed, are locked in orientation and use. For example, one storage box can only be opened forward, and a user cannot mount it in reverse to hide the stored article, and cannot switch the functions of the components by changing the mounting posture, resulting in poor versatility and playability of the product. Therefore, there is a need for a height-increasing rack with a movable and convertible functional module that can be flexibly adjusted in height to solve the above-mentioned problems. Disclosure of Invention In order to overcome the technical defects in the prior art, the invention provides an heightening frame and a combined storage structure thereof. In order to solve the problems, the invention is realized according to the following technical scheme: the first aspect of the present invention provides a height-increasing frame comprising: The heightening frame comprises a heightening frame body, wherein the heightening frame body is provided with a top surface bearing part and a bottom surface mounting part, the bottom surface of the top surface bearing part is provided with at least one group of linearly distributed plug-in guide rails along the length direction, and the bottom surface mounting part is provided with a plurality of second butt joint structures; The foundation heightening module comprises at least two independent supporting components, wherein a first butt joint structure matched with the second butt joint structure is arranged at the top of each supporting component, and a first connecting structure is arranged at the bottom of each supporting component; The functional module is provided with a connecting part which is constructed as a sliding block with the cross section shape matched with that of the plug-in guide rail; the functional module is matched with the plug guide rail through the connecting part, can slide along the bottom surface of the top surface bearing part to adjust the position and fix the position, and can be installed in a forward or reverse gesture relative to the heightening frame main body so as to switch the use form of the functional module. With reference to the first aspect, the first connection structure of the support assembly is configured as a U-shaped groove, and the inner side wall of the U-shaped groove forms a limiting surface; the first butt joint structure is constructed as a protruding block matched with the shape of the inner cavity of the U-shaped groove; When a plurality of supporting components are vertically stacked, the protruding blocks of the lower supporting component are embedded into the U-shaped grooves of the upper supporting component, and the limiting faces are used for limiting the relative displacement of the protruding blocks in the horizontal direction. With reference to the first aspect, a magnetic component is arranged between the first butt joint structure and the matching surface of the first connecting structure; A magnetic part is embedded in the first butt joint structure, and a magnetic conduction part is embedded in a corresponding position in the first connecting structure; The position of the magnetic part corresponds to the position of the magnetic conduction part, and when the first butt joint structure is inserted into the first connecting structure, the magnetic part and the first butt joint structure are in a magnetic force adsorption fit state. In combination with the first aspect, th