MAGNETIC SUCTION BUCKLE

A magnetic suction buckle, including a female buckle, a female buckle plug buckle inserted on a surface of the female buckle, a male buckle inserted on a surface of the female buckle plug buckle, wherein the surface of the female buckle is fixed with a limit strip to limit a position of the female buckle plug buckle, surfaces of the female buckle plug buckle and the male buckle are both provided with edge grooves, each edge groove matches with the limit strip, and there is a magnetic attraction assembly between the female buckle plug buckle and the male buckle. When the male buckle is connected to the female buckle, the buckle structure on the surface of the male buckle runs through both the female buckle and the female buckle plug buckle, achieving a firm suspension of the female buckle.

TECHNICAL FIELD

The present disclosure relates to the field of buckle technology, in particular to a magnetic suction buckle.

BACKGROUND

Connectors, also known as fasteners or buckles, are increasingly commonly used in daily life, such as luggage, clothing, safety gear, strollers and various items. The buckles are usually installed on two separate components to achieve the connection or separation effect of these two components.

In existing technology, with the diversification of connection magnetic buckle products, the application range is becoming wider and wider, such as luggage bags, hiking bags, travel bags, bicycle bags, etc. However, these products currently face difficulties in separating male and female buckles, and the bags connecting male buckles are prone to loosening and falling off, requiring further improvement.

SUMMARY

The objective of the present disclosure is to provide a magnetic suction buckle to solve the problem mentioned above.

In order to realize the above objective, the technical solution is provided as following: A magnetic suction buckle, including a female buckle, a female buckle plug buckle inserted on a surface of the female buckle, a male buckle inserted on a surface of the female buckle plug buckle, and an anti-slip connection plate fixed on a surface of the connection base, wherein the surface of the female buckle is fixed with a limit strip to limit a position of the female buckle plug buckle, surfaces of the female buckle plug buckle and the male buckle are both provided with edge grooves, each edge groove matches with the limit strip, and there is a magnetic attraction assembly between the female buckle plug buckle and the male buckle.

Preferably, the surface of the female buckle is inserted with the connection base.

Preferably, the female buckle is a plate structure in an inverted “x” shape, a connection strip is integrally formed between two parallel side plates of the female buckle, a top surface of the connection strip is coplanar with a top surface of the female buckle, two of the connection strips is provided, and two of the connection strips are arranged in parallel.

Preferably, both a bottom plate of the female buckle and the surface of the female buckle plug buckle are provided with two of first slots, each of the first slots is in a recess shape, the bottom plate of the female buckle is provided with a first threading port, two of the first threading ports are provided, the two of the first threading ports are arranged side by side, and the two of the first threading ports are located between the two of the first slots.

Preferably, one end of the female buckle plug buckle is fixed with a buckle strip, the buckle strip is square, a top surface of the buckle strip is provided with an inclined surface, and the other end of the female buckle plug buckle is provided with a second threading port.

Preferably, the bottom surface of the male buckle is fixed with a first clamping strip, the first clamping strip is in a triangular prism structure, the first clamping strip matches the first slot; after the female buckle plug buckle is pushed into the female buckle, the female buckle is connected to the first slot on the surface of the female buckle plug buckle, and the first clamping strip runs through the female buckle and the first slot on the surface of the female buckle plug buckle.

Preferably, the magnetic suction assembly includes a first installation slot, a first magnet block, a second installation slot, and a second magnet block; the first installation slot is arranged on a bottom surface of the female buckle plug buckle, the first magnet block is fixed in the first installation slot, the second installation slot is arranged on a bottom surface of the male buckle, the second magnet block is fixed in the second installation slot, and the first magnet block and the second magnet block are attracted with each other when the male buckle is attached to the female buckle plug buckle.

Preferably, one end of the male buckle is integrally formed with a handle, surfaces of the handle and the male buckle are both provided with a second slot, the second slot matches with a second clamping strip, the second clamping strip is fixed on a bottom surface of the connection base, and the second clamping strip is in a triangular prism structure.

Preferably, a bottom surface of the connection base is provided with a third installation slot, and a third magnet block is fixed inside the third installation slot.

Preferably, the surface of the handle is provided with a third threading port.

Compared with the prior art, the advantageous effects of the present disclosure are as follows:

The advantageous effect of the magnetic suction buckle provided in the present disclosure: By installing a female buckle plug buckle inside the female buckle, when the male buckle is connected to the female buckle, the buckle structure on the surface of the male buckle runs through both the female buckle and the female buckle plug buckle, achieving a firm suspension of the female buckle. After the female buckle plug buckle is pulled and moved inside the female buckle, the clamping structure between the male buckle and the female buckle is pushed out, achieving rapid disassembly of the male buckle.

DETAILED DESCRIPTION OF THE EMBODIMENTS

In order to provide a clear and complete description of the objective, technical solution, and advantages of the present disclosure, the following will provide further detailed illustration of the embodiments of the present disclosure in conjunction with the accompanying drawings. It should be understood that the specific embodiments described here are part of the embodiments of the present disclosure, not all of them. They are only used to illustrate the embodiments of the present disclosure and are not intended to limit them. All other embodiments obtained by ordinary skilled person in the art without creative labor fall within the scope of the present disclosure.

Please refer toFIGS.1to3. The present disclosure provides a technical solution: A magnetic suction buckle, including a female buckle1, a female buckle plug buckle2inserted on a surface of the female buckle1, a male buckle3inserted on a surface of the female buckle plug buckle2, and an anti-slip connection plate5fixed on a surface of a connection base4. The surface of the female buckle1is fixed with a limit strip7to limit a position of the female buckle plug buckle2, surfaces of the female buckle plug buckle2and the male buckle3are both provided with edge grooves15, each edge groove15matches with the limit strip7, and there is a magnetic attraction assembly between the female buckle plug buckle2and the male buckle3. By installing a female buckle plug buckle2inside the female buckle1, when the male buckle3is connected to the female buckle1, the buckle structure on the surface of the male buckle3runs through both the female buckle1and the female buckle plug buckle2, achieving a firm suspension of the female buckle1. After the female buckle plug buckle2is pulled and moved inside the female buckle1, the clamping structure between the male buckle3and the female buckle1is pushed out, achieving rapid disassembly of the male buckle3.

Referring toFIGS.4,7, and8, on the basis of Embodiment 1, in order to achieve the connection between the female buckle1and the female buckle plug buckle2, the female buckle1is a plate structure in an inverted “x” shape, a connection strip6is integrally formed between two parallel side plates of the female buckle1, and a top surface of the connection strip6is coplanar with a top surface of the female buckle1. Two of the connection strips6is provided, and the two of the connection strips6are arranged in parallel. One end of the female buckle plug buckle2is fixed with a buckle strip19, the buckle strip19is square, a top surface of the buckle strip19is provided with an inclined surface, and the other end of the female buckle plug buckle2is provided with a second threading port20.

Referring toFIGS.9and10, on the basis of Embodiment 2, in order to achieve the connection between the female buckle plug buckle2and the male buckle3, the bottom surface of the male buckle3is fixed with a first clamping strip10, the first clamping strip10is in a triangular prism structure, and the first clamping strip10matches the first slot (9). After the female buckle plug buckle2is pushed into the female buckle1, the female buckle1is connected to the first slot9on the surface of the female buckle plug buckle2, and the first clamping strip10runs through the female buckle1and the first slot9on the surface of the female buckle plug buckle2. The magnetic suction assembly includes a first installation slot11, a first magnet block12, a second installation slot13, and a second magnet block14. The first installation slot11is arranged on a bottom surface of the female buckle plug buckle2, the first magnet block12is fixed in the first installation slot11, the second installation slot13is arranged on a bottom surface of the male buckle3, and the second magnet block14is fixed in the second installation slot13. The first magnet block12and the second magnet block14are attracted with each other when the male buckle3is attached to the female buckle plug buckle2. A bottom surface of the connection base4is provided with a third installation slot21, and a third magnet block22is fixed inside the third installation slot21. The surface of the handle16is provided with a third threading port23.

Referring toFIGS.5and6, on the basis of Embodiment 3, in order to achieve the connection between the male buckle3and the connection base4, one end of the male buckle3is integrally formed with a handle16. The surfaces of the handle16and the male buckle3are both provided with a second slot17, the second slot17matches with a second clamping strip18, the second clamping strip18is fixed on the bottom surface of the connection base4, and the second clamping strip18is in a triangular prism structure.

When in actual use, push the female buckle plug buckle2into the female buckle1. The female buckle plug buckle2is located below the two connection strips6and the limit strips7, and the buckle strip19at one end of the connection strip6is blocked by a connection strip6. The rope body is bolted in the second threading port20. When the male buckle3is connected to the female buckle1, push the male buckle3towards the female buckle1, and the edge groove15is buckled on the outer side of the limit strip7. After the first clamping strip10on the surface of the male buckle3passes through the first slot9, the male buckle3attaches to the surface of the female buckle2, at this point, the first magnet block12and the second magnet block14are attracted to each other. When installing the connection base4on the male buckle3, push the connection base4towards the male buckle3, and insert the second clamping strip18into the second slot17. When the male buckle3needs to be removed, two methods can be used. One is to press the buckle strip19with user's fingers, and the buckle strip19is compressed to drive the female buckle plug buckle2to slightly move inside the female buckle1. During this process, the first slot9extrudes the first clamping strip10, achieving rapid disassembly of the male buckle3. Another way is to pull the rope body bolted in the second threading port20to drive the female buckle plug buckle2to move inside the female buckle1.

Referring toFIGS.11and12, when in actual use, the connection base4and the male buckle3can also be used as alternative solutions, that is, the connection base4and the male buckle3are not used at the same time. When using the male buckle3, the wearing belt is threaded through the third threading port23, and the male buckle3is fastened to the female buckle plug buckle2. At this time, the first clamping strip10is inserted into the first slot9, and the first magnet block12and the the second magnet block14attract to each other, so as to achieve the installation of the male buckle3, and the connection base4is not installed on the male buckle3at this moment. When the connection base4needs to be used separately, first remove the male buckle3from the female buckle plug buckle2, and then buckle the connection base4onto the female buckle plug buckle2, that is, insert the second clamping strip18into the first slot9, and the the third magnet block22and the first magnet block12attract to each other. These enriches the functionality of the buckle structure.

Although embodiments of the present disclosure have been shown and described, it can be understood by ordinary skilled person in the art that multiple changes, modifications, substitutions, and variations can be made to these embodiments without departing from the principles and spirit of the present disclosure. The scope of the present disclosure is limited by the accompanying claims and their equivalents.