1. Field of the Invention
The present invention relates to a connector, and more particularly to a connector for a battery and having an insulative housing and a plurality of terminals mounted stably in the insulative housing without separating from the insulative housing.
2. Description of Related Art
The electronic devices such as cellular phones and music players become smaller and lighter so that electronic components inside the electronic devices have to be sized smaller and arranged compactly. Therefore, a compact, safety and reliable connector for a battery is important and necessary for the electronic devices.
A conventional connector for a battery and has an insulative housing and a plurality of terminals. Each terminal is mounted on a single mounting point on the insulative housing due to the conventional connector cost down. The engagement of the terminal and the insulative housing on the single mounting point is insufficient and weak so that the terminal easily sways and even separates from the insulative housing after a battery is repetitively engages with and presses against terminal. Furthermore, the terminal is not stable and easily vibrates to be disengaged from a contact on the battery so that the electricity transmission between the connector and the battery breaks off.
To overcome the shortcomings, the present invention provides a connector for a battery to mitigate or obviate the aforementioned problems.
The main objective of the invention is to provide a connector for a battery that has an insulative housing and a plurality of terminals mounted stably in the insulative housing without separating from the insulative housing.
A connector for a battery in accordance with the present invention comprises an insulative housing and a plurality of terminals.
The insulative housing has a plurality of cavities and each cavity has a front opening and two inner sidewalls. Each inner sidewall has a rear mounting slot and a front mounting slot. The terminals correspond respectively to and are mounted respectively in the cavities and each terminal has an arm portion, a body portion and a soldering portion. The arm portion is resilient. The body portion is mounted in a corresponding cavity, is formed on the arm portion and having two wing portions mounted respectively in the rear mounting slots. The soldering portion is formed on the body portion and has two hook portions mounted respectively in the front mounting slots in the corresponding cavity.
Other objectives, advantages and novel features of the invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.
With reference to
The connector 100 has an insulative housing 2 and a plurality of terminals 3.
The insulative housing 2 has a top portion 211, a bottom portion, a front portion 212, a rear portion 213, a plurality of cavities 21 and a plurality of mounting posts 22.
The cavities 21 are defined in the front portion 212 and the bottom portion, are arranged in a row and each cavity 21 has a front opening 2121, a bottom opening 215 and two inner sidewalls 214. The front opening 2121 is defined through the front portion 212 and has two side edges and two blocking strips 2122 formed respectively on and protruding respectively inward from the side edges and facing each other. The bottom opening 215 is defined through the bottom portion. Each inner sidewall 214 has a protrusion 2141 formed on and protruding from the inner sidewalls 214 and having a rear mounting slot 2142 and a front mounting slot 2143. The rear mounting slot 2142 is defined in the protrusion 2141 adjacent to the rear portion 213 and is communicated with the bottom opening 215. The front mounting slot 2143 is defined in the protrusion 2141 adjacent to the front opening 2121 and is communicated with the bottom opening 215.
The mounting posts 22 are formed on the bottom portion and may be mounted through the PCB.
The terminals 3 correspond respectively to and are mounted respectively in the cavities 21 in the insulative housing 2 and each terminal 3 has an arm portion 31, a body portion 32 and a soldering portion 33.
The arm portion 31 is U-shaped, is resilient, is exposed out of the front opening 2121 of a corresponding cavity 21 and has a front end, a rear end, a curved portion 311, a U-turn portion 312, a distal portion 313, two blocking tabs 315 and a contacting portion 314. The curved portion 311 is formed on the rear end of the arm portion 31. The U-turn portion 312 is formed on the front end, turns backward and faces the front opening 2121. The distal portion 313 is T-shaped, is inclined, is formed on the U-turn portion 312, extends in the corresponding cavity 21 through the front opening 2121 and has two opposite sides. The blocking tabs 315 are formed respectively on the sides of the distal portion 313 and are blocked respectively by the blocking strips 2122 of the front opening 2121 of the corresponding cavity 21 to prevent the distal portion 313 from moving out of the corresponding cavity 21 through the front opening 2121. The contacting portion 314 is formed longitudinally on and protrudes from the arm portion 31 and may contact a contact on the connector of the battery.
The body portion 32 is mounted in the corresponding cavity 21, is formed on and protrudes backward from the curved portion 311 on the arm portion 31 and abuts the rear portion 213 of the insulative housing 2. The body portion 32 has two opposite sides, a top end, a bottom end, a longitudinal portion 34 and two wing portions 321. The longitudinal portion 34 is formed on the top end of the body portion 32, is connected to the curved portion 311 and abuts the top portion 211 of the insulative housing 2. The wing portions 321 are formed respectively on and protrude respectively outward from the sides of the body portion 32 and correspond respectively to and are mounted respectively in the rear mounting slots 2142 in the corresponding cavity 21. Each wing portion 321 has two opposite ends, two holding portions 322 and a protruding tab 323. The holding portions 322 are formed respectively on and protrude respectively from the ends of the wing 321 and are mounted in a corresponding rear mounting slot 2142 in the corresponding cavity 21. The protruding tab 323 is pointy, is formed on the wing portion 321 and presses against an inner surface of the rear mounting slot 2142 to prevent the wing 321 from sliding inadvertently in the rear mounting slot 2142.
The soldering portion 33 is formed on and protrudes forward from bottom end of the body portion 32 and has a front end, a rear end, an inclined portion 35 and a tail portion 331. The inclined portion 35 is formed on and protrudes forward from the rear end of the soldering portion 33 and is connected to the bottom end of the body portion 32. The tail portion 331 is formed on and protrudes perpendicularly from the front end of the soldering portion 33 and has two opposite sides and two hook portions 332. The hook portions 332 are formed respectively on and protrude respectively outward from the sides of the tail portion 331 and are mounted respectively in the front mounting slots 2143 in the corresponding cavity 21.
When the connector 100 on the PCB is engaged with the connector on the battery, the arm portions 31 of the terminals 3 are pressed respectively against the contacts on the battery and are retracted respectively in the cavities 21. When the battery is disengaged from the connector 100 on the PCB, the arm portions 31 extends respectively out of the cavities 21 and the blocking strips 2122 in cavities 21 block the blocking tabs 315 on the arm portions 31.
Each terminal 3 is mounted securely in a corresponding cavity 21 through two mounting points. One mounting point is where the wind portions 321 on the body portion 32 are mounted respectively in the rear mounting slots 2142. The other mounting point is where the hook portions 332 on the soldering portion 33 are mounted respectively in the front mounting slots 2143. With the mounting points, the terminal 3 is mounted stably and securely in the corresponding cavity 21 and would not sway or vibrate inadvertently. Therefore, connector 3 may provide a fine electricity transmission when engaged with the battery.
Even though numerous characteristics and advantages of the present invention have been set forth in the foregoing description, together with details of the structure and function of the invention, the disclosure is illustrative only. Changes may be made in the details, especially in matters of shape, size, and arrangement of parts within the principles of the invention to the full extent indicated by the broad general meaning of the terms in which the appended claims are expressed.
Number | Date | Country | Kind |
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95209608 U | Jun 2006 | TW | national |
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