The present application claims the benefit of Taiwanese Patent Application No. 109106125 filed on Feb. 24, 2020, the contents of which are incorporated herein by reference in their entirety.
The invention relates to a connector, especially relates to a floating connector for floating connection.
Traditionally, a connector electrically connects a male terminal and a female socket.
In the process of connection, it is inevitable to be encountered with problems of how to align and connect, how to increase the assembling speed, how to decrease the damage rate of assembly, and how easy it is to be disconnected after connected, etc.
Accordingly, the invention provides a floating connector to solve the drawbacks of prior arts.
According to a first aspect of this invention, a floating connector is provided. The floating connector comprises a shell, a plurality of electrodes, buckle members, and a floating member to achieve floating assembling.
According to a second aspect of this invention, the above floating connector further comprises buckle members and a floating member to achieve connecting and disconnecting.
According to a third aspect of this invention, in the above floating connector, the shell has an alignment block, and the floating member has an alignment notch. Accordingly, the alignment block is inserted into the alignment notch to achieve aligning the electrodes to the electrode notches and buckling the alignment block in the alignment notch.
According to a fourth aspect of this invention, in the above floating connector, the alignment notch has a guiding incline to restrict the alignment block to the alignment notch.
According to a fifth aspect of this invention, in the above floating connector, a guiding structure is inserted into the alignment notch to block a notch on the guiding structure by the bump of the alignment notch.
According to a sixth aspect of this invention, in the floating connector, the elastic part is deformed by an external force to release the bump from the notch. Accordingly, the buckle member is then disconnected from the floating member.
According to a seventh aspect of this invention, in the floating connector, the bump comprises a guiding incline to buckle the bump to the notch by contacting a contacting part with a guiding structure through the guiding incline to deform the elastic part and buckle the bump to the notch.
According to an eighth aspect of this invention, in the floating connector, the guiding structure comprises a pick exposed outside the shell. The restricted state of the bump by the notch may be changed by the deformation of the elastic part resulted from the pick.
According to a ninth aspect of this invention, in the floating connector, the guiding structure comprises a fillet (or called as an arc) to buckle the bump to the notch successfully.
Accordingly, this invention provides a floating connector comprising a shell, a plurality of electrodes, two buckle members, and a floating member. The shell has an accommodating space and a plurality of openings. The electrodes are disposed in the accommodating space and penetrate the openings to protrude from the openings. The buckle members are respectively disposed on two sides of the accommodating space, wherein each of the buckle members comprises a fixed part, a contacting part, and an elastic part. Each of the fixed parts is disposed in the accommodating space. Each of the contacting parts comprises a notch and a guiding structure. Each of the elastic parts connects the fixed part and the contacting part and is disposed near the outer surface of the shell. The floating member combines the electrodes and the buckle members, wherein the floating member comprises a body, a plurality of electrode notches, and a bump. The electrode notches are formed on one side of the body that near the electrodes for receiving the electrodes protruding from the openings. The bump is disposed on the body and correspondingly to the notch, and the width of the bump is not greater than the width of the notch so that the bump is restricted in the notches by the guiding structure.
In comparison to prior arts, this invention provides two buckle members and a floating member, so that an assembler can electrically connect an electrode to another electrode provided in an electrode notch within an allowable range. In an embodiment, the buckle members may be firmly locked to the floating member. In another embodiment, the buckle members may be not only locked to the floating member but also unlocked and separated from the floating member for connection of multiple times.
In order to fully demonstrate the aspects, features, and effects of this invention, the following specific examples and the drawings are used to make a detailed description of this invention.
In this invention, “a/an” or “one” is used to describe the units, elements and components described herein, which is only for convenience of explanation and providing a general meaning to the scope of this invention. Therefore, unless clearly stated otherwise, such description should be understood to include one, at least one, and the singular also includes the plural.
In this invention, the terms “comprise,” “include,” “have,” “contain” or any other similar are intended to cover non-exclusive inclusions. For example, a component, structure, product, or device comprising multiple elements is not limited to the elements listed here but may comprise those not explicitly listed but generally inherent thereto. Besides, unless clearly stated to the contrary otherwise, the term “or” refers to an inclusive “or” rather than an exclusive “or”.
The floating connector 10 comprises a shell 12, a plurality of electrodes 14, two buckle members 16, and a floating member 18.
In
In another embodiment, the fixed part 162 is disposed in the accommodating space SP and welded onto a printed circuit board.
The elastic part 164 connects the fixed part 162 and the contacting part 166. In this embodiment, the elastic part 164 is the part exposing on the shell 12 as well as is disposed near the outer surface of the shell 12. The elastic part 164 protrudes from the fixed part 162 and is bent at an angle (such as U-shaped) to connect an end of the elastic part 164 to the fixed part 162, so that the elastic part 164 is elastic when subjected to an external force.
The contacting part 166 further extends from the elastic part 164, that is, the contacting part 166 is disposed at the front end of the buckle members 16. The contacting part 166 further comprises a notch 1662 and a guiding structure 1664.
In an embodiment, the guiding structure 1664 has a fillet to match a guiding incline 1862 of the bump 186. Hence, the contacting part 166 may deform the elastic part 164 through the interaction between the guiding structure 1664 and guiding incline 1862 of the bump 186. In other words, the elastic part 164 may be moved away from the shell 12 by the interaction between the guiding structure 1664 and the guiding incline 1862 to buckle the bump 186 in the notch 1662.
Worthy to notice, in
In addition, the alignment notch 188 forms a guiding incline 1882 to restrict the alignment block 124 in the alignment notch 188 by the guiding incline 1882.
The description of the shell 12 and the electrodes 14 are as described above, and the description thereof is thus omitted here.
The difference between the buckle members 16 and the buckle members 16′ is the design of a contacting part 166′. The difference between the floating member 18 and the floating member 18′ is the design of an alignment notch 188′.
Herein, the contacting part 166′ is inserted into the alignment notch 188′, so that the notch 1662 of the contacting part 166′ is stopped by the bump 186′ disposed on the alignment notch 188′, and the contacting part 166′ is fixed to the floating member 18′. In another embodiment, if the elastic part 164 is deformed by an external force F (such as an applied external force F in
The description of the shell 12, the electrodes 14, and the floating member 18 are as described above, and the description thereof is thus omitted here.
In
In this embodiment, the pick 168 extends from the contacting part 166, in particular from the guiding structure 1664. The pick 168 is exposed outside the shell 12, and the elastic portion 164 is deformed by the pick 168 through an external force F (applied in the direction of the arrow) to change the restricted state of the bump 186 by the notch 1662.
This invention has been disclosed above with embodiments, but those skilled in the art should understand that the embodiments are only used to depict this invention and should not be interpreted as limiting the scope of this invention. It should be noted that all changes and replacements equivalent to the embodiments should be included in the scope of this invention. Therefore, the scope of protection of this invention shall be determined by the scope of the claim(s).
Number | Date | Country | Kind |
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109106125 | Feb 2020 | TW | national |
Number | Name | Date | Kind |
---|---|---|---|
6830469 | Doyle | Dec 2004 | B1 |
6971901 | Chiu | Dec 2005 | B2 |
7559772 | Tsai | Jul 2009 | B2 |
7601017 | Wang | Oct 2009 | B2 |
7712215 | Wang | May 2010 | B2 |
9660370 | Ashibu | May 2017 | B2 |
20080296133 | Ura | Dec 2008 | A1 |
20120135621 | Hayauchi | May 2012 | A1 |
20160093980 | Beischer | Mar 2016 | A1 |
20160118735 | Hoyack | Apr 2016 | A1 |
20170141496 | Kiryu | May 2017 | A1 |
20170214161 | Yamada | Jul 2017 | A1 |
20200127410 | Shioda | Apr 2020 | A1 |
Number | Date | Country | |
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20210265757 A1 | Aug 2021 | US |