1. Technical Field
The present disclosure relates to an electronic component device for electrically and mechanically connecting to a lead wire and a connector assembly having the same.
2. Description of Related Art
Electronic devices such as modems and power supply circuits, a number of electronic components are incorporated. For example, capacitors are likely to be used for noise elimination, or for cutting off a DC signal of a component.
Miniaturization and low-cost are desirable for electronic devices. Accordingly, significant miniaturization and low-cost are desirable for electronic components of the electronic devices. In automatic mounting technology, for reducing the mounting cost and reducing the mounting area, surface mount type electronic components are often utilized instead of soldering components. However, if the number of the electronic components integrated in a printed circuit board is small, the cost of using the surface mount technology to mount the electronic components is too high.
What is needed, therefore, is an electronic component device and a connector assembly having the same which can overcome the above-described problems.
Many aspects of the present device can be better understood with reference to the following drawings. The components in the drawings are not necessarily drawn to scale, the emphasis instead being placed upon clearly illustrating the principles of the present device. Moreover, in the drawings, like reference numerals designate corresponding parts throughout the several views, and all the views are schematic.
Various embodiments will now be described in detail below and with reference to the drawings.
Referring to
The receiving body 11 is cuboidal, and includes a top surface 110, a bottom surface 111, a first side 112, a second side 113, a third side 114 and a fourth side 115. The bottom surface 111 is opposite to the top surface 110. The first, second, third, and fourth sides 112,113,114, 115 are all in connection between the top and bottom surfaces 110 and 111. The third side 114 faces away from the first side 112. The fourth side 115 faces away from the second side 113.
The receiving body 11 further defines an installation groove 116, a receiving cavity 117, and two communication slots 118. The installation groove 116 is exposed at the top surface 110, that is, the installation groove 116 is a blind slot in the top surface 110 along a direction from the first side 112 to the third side 114, and penetrates through the first and third sides 112 and 114. In this embodiment, the installation groove 116 has a U-shaped section. The installation groove 116 has a first side face 1160, a bottom face 1161 in connection with the first side face 1160, and a second side face 1162 in connection with the bottom face 1161. The first side face 1160 is arranged between the second side 113 and the second side face 1162. The second side face 1162 is arranged between the first side face 1160 and the fourth side 115. The bottom face 1161 is a concave surface. The installation groove 116 located between the top surface 110 and the receiving cavity 117. The receiving cavity 117 located between the installation groove 116 and the bottom surface 111. The receiving cavity 117 has an inner surface 1170. The two communicating slots 118 are in communication with the installation groove 116 and the receiving cavity 117. Both of the two communicating slots 118 extending from the top surface 110 to the inner surface 1170. The communicating slot 118 has a rectangular section.
The electronic component 12 is received in the receiving cavity 117. The electronic component 12 can be a resistance, a capacitance, an inductance, a transformer or other electronic components. The electronic component 12 includes a main body 120 and two contacting pins 121 arranged on the main body 120. The two contacting pins 121 are electrically connected to the main body 120, and inserted in the corresponding communicating slots 118.
The two stripping connectors 13 are comprised of an electrically conductive material. The two stripping connectors 13 are partly accommodated in the corresponding communication slots 118. At least part of the stripping connector 13 is in the installation groove 116. The two stripping connectors 13 are respectively in contact with the two contacting pins 121 of the electronic component 12, thus in electrical connection with the two contacting pins 121 of the electronic component 12. Both of the two stripping connectors 13 includes a first end 130 and an opposite second end 131. The first end 130 terminates at the top surface 110, the second end 131 is in contact with the corresponding contacting pin 121, thus in electrical connection with the electronic component 12. Both of the two stripping connectors 13 include a stripping blade 132 exposed at the installation groove 116. The stripping blade 132 define a guiding slot 133 and a stripping slot 134 for extension of the core therethrough. The stripping slot 134 is in communication with the guiding slot 133.
The guiding slot 133 is arranged between the top surface 110 and the stripping slot 134. The guiding slot 133 includes a first guiding surface 135 and an opposite second guiding surface 136. The first guiding surface 135 is arranged between the second side 113 and the second guiding surface 136. The second guiding surface 136 is arranged between the first guiding surface 135 and the fourth side 115. The first and second guiding surfaces 134, 135 are inclined to the first end 130, thereby cooperatively forming the guiding slot 133 with a trapeziform section. The first and second guiding surfaces 134, 135 are adapted for being in contact with the lead wire and guide it into the stripping slot 134.
The stripping slot 134 is arranged between the guiding slot 133 and the bottom surface 111. The stripping slot 134 has a width less than or equal to the diameter of the core of the lead wire (the lead wire 200 as shown in
The two support elements 14 are formed in the installation groove 116 between the two stripping connectors 13. The two support elements 14 are spaced apart from each other. The two support elements 14 are adapted for supporting the portion of the lead wire between the two stripping connectors 13. Each of the two support elements 14 includes a first arm 140, a connecting arm 141, and a second arm 142. The first arm 140 is in contact with the first side face 1160. The second arm 142 is opposite to the first arm 140, and is in contact with the second side face 1162. The connecting arm 141 is in connection with the first and second arms 140, 142 and is in contact with the bottom face 1161. The connecting arm 141 includes a supporting surface 143 for supporting the lead wire. The supporting surface 143 is substantially parallel with the contact surface 138 of the stripping connectors 13, and is arranged between the contact surface 138 and the top surface 110.
The cover 20 is adapted for detachability coupling with the base 10. The cover 20 includes a pressing board 21, a coupling frame 22, and an electrically insulating cutting body 23. The pressing board 21 is cuboid and includes a pressing surface 210. The pressing surface 210 is configured for covering the installation groove 116. The stripping blade 132 is configured for splitting the shell at the spitting slot 134 thus enable the core to be electrically connected with the electronic component 12. The coupling frame 22 extends along a peripheral margin region of the pressing surface 210. The coupling frame 22 is combined with the base 10. The coupling frame 22 defines two coupling openings 220 corresponding to the lead wire. The cutting body 23 protrudes from the pressing surface 210 in a central region of the pressing surface 210. The cutting body 23 is configured for cutting a portion of the lead wire between the stripping connectors 13 into two pieces. In this embodiment, the cutting body 23 is arranged between the two support elements 14 when the cover 20 covers the base 10. The length of the cutting body 23 is larger than the width of the lead wire, and smaller than the width of the installation groove 116. In the present embodiment, the cutting body 23 is triangular prism-shaped.
It is noted that the base 10 and the cover 20 can also be combined together by bonding, and is not limited to this embodiment.
Referring to
The number of the electronic components 32 is not limited to be two, more than two electronic components 32 can also be added.
Referring to
The number of the electronic components 42 is not limited to two, more than two electronic components 42 can also be added. That is, more than one inner connector 420 can connect the electronic components 42. One electronic component 42 on one end of the series includes a contacting pin 422, another electronic component 42 on the other end of the series includes another contacting pin 422, and the two contacting pins 422 are respectively in contact with the two stripping connectors 43.
Referring to
The lead wire 200 includes a core 201 and an electrically insulating shell 202 covering the core 201. The lead wire 200 is received in the installation groove 116. A portion of the lead wire 200 between the stripping connectors 13 is cut apart and separated by the cutting body 23. A split 301 is formed in a portion of the shell 202 at the spitting slot 134 by the stripping blade 132, the core 201 is electrically connected with the electronic component 12 via the stripping blade 132.
It is believed that the present embodiments and their advantages will be understood from the foregoing description, and it will be apparent that various changes may be made thereto without departing from the spirit and scope of the present disclosure or sacrificing all of its material advantages, the examples hereinbefore described merely being preferred or exemplary embodiments of the present disclosure.
Number | Date | Country | Kind |
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201010191298.0 | Jun 2010 | CN | national |