Spliceable aluminum material

By using the mechanical self-locking of the 'T'-shaped bidirectional tenon and the slide groove, and the friction locking of the ball joint sleeve, the problems of poor stability and limited functionality of traditional aluminum splicing are solved. This enables multi-angle stable connection and wiring design, improving the application range and installation efficiency of aluminum materials.

CN224498167UActive Publication Date: 2026-07-14FOSHAN NANHAI LVXIANG ALUMINUM

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
FOSHAN NANHAI LVXIANG ALUMINUM
Filing Date
2025-07-29
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Traditional aluminum splicing methods rely on bolts or clips for connection, which suffers from poor connection stability, high alignment difficulty, the need for additional tools, limited functionality, and inability to meet the splicing needs of multi-angle or complex structures, thus limiting the scope of application.

Method used

It adopts a mechanical self-locking structure with a 'T'-shaped bidirectional tenon and a sliding groove, combined with the friction locking of the ball joint sleeve and the conical sleeve, to achieve a stable connection at multiple angles. The cable tray design hides the cables and simplifies the installation process.

Benefits of technology

It improves connection stability and installation efficiency, is suitable for multi-angle splicing, expands application scenarios, meets the internal wiring needs of electronic equipment, provides expansion interfaces, and enhances product reliability and adaptability.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model provides a kind of splicable aluminium material, it is related to aluminium material splicing technical field, including a kind of splicable aluminium material, including aluminium material main body, the one end of aluminium material main body is provided with "T" type bidirectional tenon, and the other end of aluminium material main body connected with aluminium material main body is opened with sliding slot, the other end of aluminium material main body is embedded with spherical joint sleeve group;The utility model uses "T" type bidirectional tenon and sliding slot cooperation, reverse barb of tenon two sides and sliding slot inclined groove are engaged, form mechanical self-locking, prevent loosening.Compared with traditional bolt connection, this structure can still keep stable under vibration or torsion working condition, avoid connection failure due to external force effect;T type tenon is inserted into sliding slot and can be automatically locked, without bolt or additional tool;Spherical joint is quickly fixed by rotating locking ring, greatly reduces installation time, sliding slot front end inclined groove guides tenon alignment, reduces the adjustment difficulty when multi-angle splicing, especially suitable for complex frame building.
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Description

TECHNICAL FIELD

[0001] The utility model relates to the technical field of aluminium material splicing, especially to a splicing type aluminium material. BACKGROUND

[0002] Aluminium material is a product made of aluminium and other alloy elements, the main metal element is aluminium, and some alloy elements are added to improve the performance of the aluminium material.

[0003] In the past, the splicing of traditional aluminium material mainly relied on bolts or buckles for connection, but this connection method has many shortcomings, first of all, the bolt connection is easy to loosen, especially in the case of vibration or strong torsion, the connection stability is poor, and although the buckle connection is convenient and fast, it requires high precision alignment when splicing at multiple angles or complex structures, which also leads to unstable connection. These connection methods not only reduce the torsional resistance of the product, but also affect the reliability and durability of the overall structure.

[0004] In addition, the traditional aluminium material splicing method usually needs additional tools for installation, and the user needs to spend a certain amount of time to align the interface, which not only reduces the work efficiency, but also increases the difficulty of operation when dealing with multiple angles or complex splicing. Especially when quick installation is needed or assembly is difficult to reach, the traditional splicing method is particularly inconvenient;

[0005] In addition, the traditional aluminium material has a single function, usually without built-in design for wiring or expansion interface. This design limits the application range of the aluminium material in different scenarios, for example, it cannot meet the wiring needs of internal components of electronic devices, and it cannot provide enough expansion interfaces to support multi-functional applications, limiting the adaptability of the product in various complex scenarios, therefore, we propose a splicing type aluminium material. Utility model content

[0006] The utility model discloses a kind of splicing aluminium materials, including aluminium material main body, the one end of the aluminium material main body is provided with "T" type two-way tenon, and the other end of the aluminium material main body connected with the aluminium material main body is opened with sliding slot, and the other end of the aluminium material main body is embedded with spherical joint sleeve group.

[0007] To achieve the above object, the utility model adopts the following technical scheme:

[0008] A kind of splicing aluminium material, including a kind of splicing aluminium material, including aluminium material main body, the one end of the aluminium material main body is provided with "T" type two-way tenon, and the other end of the aluminium material main body connected with the aluminium material main body is opened with sliding slot, and the other end of the aluminium material main body is embedded with spherical joint sleeve group.

[0009] Further, the "T" type two-way tenon is "G" type, and the two sides of the upper and lower two tenons of the "T" type two-way tenon are provided with reverse barb, and the sliding slot is matched with the "T" type two-way tenon.

[0010] Further, the position of the tenon of the sliding slot clamping "T" type two-way tenon is opened with inclined slot in front end, and the inclined slot is matched with reverse barb.

[0011] Further, the other end of the aluminium material main body is opened with ball cavity, the spherical joint sleeve group is installed on ball cavity, and the spherical joint sleeve group is composed of ball, hemispherical shell and short shaft.

[0012] Further, the ball is embedded in ball cavity, the hemispherical shell is screwed on the ball, and the ball, hemispherical shell and ball cavity are all opened with round hole, and one end of short shaft is connected in the aluminium material main body through round hole.

[0013] Further, the diameter of the ball is slightly larger than the diameter of ball cavity, and the one end of the aluminium material main body connected with the one end of the aluminium material main body is installed with conical sleeve, the bottom of the conical sleeve is provided with threaded locking ring, the front end of the short shaft is provided with screw thread, and the front end of the short shaft is connected with conical sleeve.

[0014] Further, the inner wall of the conical sleeve is provided with a high friction coefficient bushing, the ball is made of nylon material, and a pin hole is formed in the connecting end of the aluminum body.

[0015] Further, the upper and lower sides of the aluminum body are provided with wiring grooves, the upper side of the wiring groove is provided with a cover plate, the cover plate is embedded with a magnet, and the cover plate and the wiring groove edge are magnetically attracted.

[0016] Compared with the prior art, the utility model has the advantages that:

[0017] 1, the utility model discloses a " T " type two -way tenon and the cooperation of sliding slot, and the reverse barb of tenon two -sides is combined with the inclined groove of sliding slot, forms mechanical self -locking, prevents loose, compared with the traditional bolt connection, this structure still can keep firm under the vibration or torsion working condition, avoids the connection failure caused by external force, and T -type tenon inserts the sliding slot and can be automatically locked, does not need bolt or extra tool, spherical joint is fixed through the rotation locking ring fast, greatly reduces the installation time, and the inclined groove of sliding slot front end guides the tenon alignment, reduces the adjustment difficulty when multi -angle splicing, especially suitable for complex frame construction.

[0018] 2, spherical joint allows 0 ° ~ 90 ° arbitrary angle adjustment, realizes the high rigidity fixing after multi -angle splicing through the friction locking of ball and conical sleeve, is applicable to complex structure splicing, ensures the connection strength, satisfies the splicing demand of non - orthogonal structure (such as inclined support, arc frame), and the application scene of aluminum material is expanded. BRIEF DESCRIPTION OF DRAWINGS

[0019] Figure 1 It is a whole structure schematic diagram of the splicable aluminum material provided by the utility model;

[0020] Figure 2 It is a spherical joint sleeve group connecting structure schematic diagram of the splicable aluminum material provided by the utility model;

[0021] Figure 3 It is a wiring groove structure schematic diagram of the splicable aluminum material provided by the utility model;

[0022] Figure 4 It is a part structure schematic diagram of the splicable aluminum material provided by the utility model.

[0023] Legend: 1, aluminum body;2, spherical joint sleeve group;101, " T " type two -way tenon;102, sliding slot;103, reverse barb;104, inclined groove;105, ball cavity;106, conical sleeve;107, threaded locking ring;108, wiring groove;109, cover plate;201, ball;202, hemispherical shell;203, short shaft. DETAILED DESCRIPTION

[0024] Clearly and completely describe the technical scheme in the embodiments of the utility model with reference to the embodiments of the utility model below, obviously, the described embodiments are only some of the embodiments of the utility model, not all the embodiments, based on the embodiments in the utility model, all other embodiments obtained by the ordinary skilled in the art without creative labor belong to the scope of protection of the utility model.

[0025] In order to facilitate the understanding of the utility model, the utility model will be described more fully below with reference to the related, a number of embodiments of the utility model are given, however, the utility model can be realized in many different forms, and is not limited to the embodiments described herein, on the contrary, the purpose of providing these embodiments is to make the disclosure of the utility model more thorough and comprehensive.

[0026] It should be noted that when an element is referred to as being "fixed to" another element, it can be directly on the other element or there can be intervening elements, and when an element is referred to as being "connected to" another element, it can be directly connected to the other element or there can be intervening elements, the terms "vertical", "horizontal", "left", "right" and similar expressions used herein are for illustrative purposes only.

[0027] Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which the utility model belongs, the terms used in the specification of the utility model herein are only for the purpose of describing specific embodiments and are not intended to limit the utility model, the term "and / or" used herein includes any and all combinations of one or more of the associated listed items.

[0028] Embodiment 1

[0029] As Figures 1-4 As shown in the utility model provides a technical scheme: a splicing type aluminum material, including as Figure 1 The splicing type aluminum material of the embodiment includes an aluminum material body 1, a "T" type bidirectional tenon 101 is arranged on one end of the aluminum material body 1, a sliding groove 102 is opened at the other end of the aluminum material body 1 connected with the aluminum material body 1, after the "T" type bidirectional tenon 101 slides into the sliding groove 102, the barb is clamped into the pre-set inclined groove 104 in the groove, physical self-locking is formed, without bolt, the other end of the aluminum material body 1 is embedded with a spherical joint sleeve group 2, the spherical joint sleeve group 2 can adjust the angle without tool, and is compatible with horizontal or vertical splicing, one end of the aluminum material body 1 is the "T" type bidirectional tenon 101, for linear splicing, the other end is the spherical joint sleeve group 2, for angle adjustment, through the spherical joint sleeve group 2, after connecting multiple aluminum material bodies 1, the "T" type bidirectional tenon 101 is inserted into another profile sliding groove 102, and a stable frame is formed.

[0030] Example 2

[0031] like Figures 1-4 As shown, the "T"-shaped double tenon 101 is in the shape of an "I". Both sides of the upper and lower tenons of the "T"-shaped double tenon 101 are provided with reverse hooks 103. The sliding groove 102 fits into the "T"-shaped double tenon 101. The front end of the position where the sliding groove 102 engages with the tenon of the "T"-shaped double tenon 101 is provided with a slanted groove 104. The slanted groove 104 fits into the reverse hooks 103. The tenon of the "T"-shaped double tenon 101 is pushed in along the sliding groove 102. Utilizing the elastic deformation property of aluminum, the reverse hooks 103 are squeezed and contracted. The "T"-shaped double tenon is similar to the principle of an "expansion screw".

[0032] A spherical cavity 105 is formed on the other end of the aluminum body 1. A spherical joint sleeve 2 is installed on the spherical cavity 105. The spherical joint sleeve 2 consists of a sphere 201, a hemispherical shell 202, and a short shaft 203. The sphere 201 is embedded in the spherical cavity 105, and the hemispherical shell 202 is threaded onto the sphere 201. The aluminum hemispherical shell 202 is screwed onto the sphere 201 to form a rotatable joint. The threaded teeth on the inner wall of the hemispherical shell 202 are misaligned and engaged with the groove of the sphere 201, generating frictional locking when screwed on. Circular holes are formed on the sphere 201, the hemispherical shell 202, and the spherical cavity 105, and one end of the short shaft 203 passes through the circular hole and is connected to the aluminum body 1. The short shaft 203 restricts... The sphere 201 is dislodged but allowed to rotate. The diameter of the sphere 201 is slightly larger than the diameter of the sphere cavity 105. The nylon sphere 201 is pressed into the sphere cavity 105 and fixed by elastic deformation. A tapered sleeve 106 is installed on one end of the aluminum body 1 connected to the aluminum body 1. A threaded locking ring 107 is provided at the bottom of the tapered sleeve 106. The front end of the short shaft 203 is threaded and connected to the tapered sleeve 106. A high friction coefficient bushing is provided on the inner wall of the tapered sleeve 106. The sphere 201 is made of nylon. A pin hole is opened at the connection end of the sphere 201 and the aluminum body 1. The pin hole is used to insert a positioning pin to prevent loosening after long-term use.

[0033] The aluminum body 1 has cable trays 108 on both the upper and lower sides. The cable trays 108 are used to hide cables without weakening the structural strength. A cover plate 109 is provided above the cable trays 108. A magnet is embedded in the cover plate 109. The cover plate 109 and the edge of the cable tray 108 are magnetically attracted to each other, which facilitates quick opening and closing for wiring.

[0034] The workflow of this utility model is as follows: When using a splicable aluminum material, first select the splicing method according to the requirements:

[0035] 1) Straight-line splicing:

[0036] Take two aluminum material main bodies 1 to be spliced, one with a "T" type two-way tenon 101, and the other with a matching sliding groove 102, align the "T" type two-way tenon 101 with the entrance of the sliding groove 102, and apply appropriate pressure to push the tenon into the sliding groove 102, at this time the reverse hooks 103 on both sides of the tenon will temporarily shrink due to the elastic deformation of the aluminum material, when the tenon is fully inserted in place, the reverse hooks 103 will automatically pop into the pre-set inclined groove 104 at the front end of the sliding groove 102, the engagement of the reverse hooks 103 and the inclined groove 104 forms a mechanical self-locking, ensuring stable connection without additional fasteners;

[0037] 2) Multi-angle splicing flow:

[0038] Take an aluminum material with a spherical joint sleeve set 2 and an aluminum material with a conical sleeve 106, align the nylon ball 201 with the opening of the conical sleeve 106, apply pressure to press the ball 201 into the sleeve, at this time the high-friction coefficient bushing will temporarily deform to make room, rotate the threaded locking ring 107 at the bottom of the sleeve to tightly wrap the ball 201 with the bushing, and achieve fixation at any angle through friction and mechanical pressure, and a positioning pin can be inserted through the pin hole to prevent loosening after long-term use;

[0039] 3) Comprehensive framework building:

[0040] First, connect multiple aluminum materials using spherical joints to build a basic framework with the required angle, and achieve quick fixation at each connection point by rotating the threaded locking ring 107, and at the positions where linear extension is required, use "T" type two-way tenon 101 and sliding groove 102 for quick insertion and connection, and the self-locking mechanism ensures the stability of the extended structure;

[0041] After all the connections are completed, open the magnetic cover plate 109, arrange the cables in the cable groove 108, and close the cover plate 109 to achieve hidden wiring. The magnetic cover plate 109 can be opened at any time to add or replace cables, and wiring adjustment can be completed without tools.

[0042] Although embodiments of the present application have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and variations can be made to these embodiments without departing from the principles and spirit of the present application, and the scope of the present application is defined by the appended claims and their equivalents.

Claims

1. A splicable aluminum material, comprising an aluminum material body (1), characterized in that: One end of the aluminum body (1) is provided with a "T"-shaped double tenon (101), and the other end of the aluminum body (1) connected to the aluminum body (1) is provided with a sliding groove (102). The other end of the aluminum body (1) is embedded with a ball joint sleeve (2).

2. The splicable aluminum material according to claim 1, characterized in that: The "T"-shaped double tenon (101) is in the shape of an "I" character. Both sides of the upper and lower tenons of the "T"-shaped double tenon (101) are provided with reverse barbs (103). The groove (102) fits into the "T"-shaped double tenon (101).

3. The splicable aluminum material according to claim 2, characterized in that: The groove (102) engages with the tenon of the "T"-shaped bidirectional tenon (101), and a slanted groove (104) is provided at the front end of the tenon. The slanted groove (104) is engaged with the reverse barb (103).

4. The splicable aluminum material according to claim 1, characterized in that: A spherical cavity (105) is provided on the other end of the aluminum body (1), and the spherical joint sleeve (2) is installed on the spherical cavity (105). The spherical joint sleeve (2) consists of a sphere (201), a hemispherical shell (202) and a short shaft (203).

5. The splicable aluminum material according to claim 4, characterized in that: The sphere (201) is embedded in the spherical cavity (105), and the hemispherical shell (202) is threaded onto the sphere (201). The sphere (201), the hemispherical shell (202) and the spherical cavity (105) are all provided with circular holes, and one end of the short shaft (203) passes through the circular hole and is connected to the aluminum body (1).

6. The splicable aluminum material according to claim 5, characterized in that: The diameter of the sphere (201) is slightly larger than the diameter of the sphere cavity (105). A tapered sleeve (106) is installed on one end of the aluminum body (1) which is connected to the aluminum body (1). A threaded locking ring (107) is provided at the bottom of the tapered sleeve (106). The front end of the short shaft (203) is provided with a thread, and the front end of the short shaft (203) is connected to the tapered sleeve (106).

7. The splicable aluminum material according to claim 6, characterized in that: The inner wall of the conical sleeve (106) is provided with a high friction coefficient bushing, the sphere (201) is made of nylon, and the connection end of the sphere (201) and the aluminum body (1) is provided with a pin hole.

8. The splicable aluminum material according to claim 1, characterized in that: The aluminum body (1) has wiring grooves (108) on both the upper and lower sides. A cover plate (109) is provided above the wiring groove (108). A magnet is embedded in the cover plate (109). The cover plate (109) is magnetically attracted to the edge of the wiring groove (108).