The present invention generally relates to a cable assembly, and more particularly to a cable assembly equipped with a sensor.
A cable assembly is used for interconnecting two or more electronic devices for data exchange therebetween. A sensor is widely utilized for detecting different running parameters of an electronic device or other gadget, such as temperature, pressure, speed, voltage, etc. A cable assembly with a sensor thereon may be required if an running state of corresponding device should be monitored. However, if a sensor is directly mounted to connector of the cable assembly without any precaution, it would be easily damaged when the cable assembly is manufactured.
Hence, an improved cable assembly is highly desired to overcome the aforementioned problems.
Accordingly, an object of the present invention is to provide a cable assembly equipped with a sensor which is well protected.
In order to achieve the object set forth, a cable assembly in accordance with the present invention comprises an insulated housing having a base portion and a mating portion extending forwardly from the base portion; a plurality of terminals received in the insulated housing; a retainer formed on the base portion, said retainer defining a cavity with a rear outlet; a sensor accommodated in the cavity of the retainer; and a lid member covering the rear outlet of the rear outlet.
Other objects, advantages and novel features of the invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.
Reference will now be made in detail to the preferred embodiment of the present invention.
Referring to
The insulated housing 2 includes an elongated base portion 21 and a mating portion 22 extending forwardly from a front surface 211 of the base portion 21.
The mating portion 22 has a top wall 222, a bottom wall 223 and a pair of side walls (not numbered) interconnected together to enclose two juxtaposed L-shaped mating ports 221. A plurality of terminals slots 224 extend through an front and a back surface of the top wall 222. A retainer 214 is formed on a middle section of an upper surface of the base portion 21 and rearward extends beyond back surface of the base portion 21, and two flange portions 213 protrude upwardly from a middle lateral sections of the up surface of the base portion 21, with two gaps 212 located between the retainer 214 and the two flange portions 213. A substantially semi-circular shaped cavity 215 is defined in the retainer 214, and the cavity 215 further has a front opening and a rear outlet (not numbered). The front opening is adjacent to a top surfaces of the mating portion 22. A first notch 216 and second notch 217 are respectively defined in a top and a front sections of each of lateral sides of the retainer 214. Two recess portions 219 are recessed forwardly from the back surface of the base portion 21, and a plurality of terminal retention passages 218 are defined in the base portion 21 and disposed in front of the recess portion 219. The recess portions 219 are in communication to the terminals slots 224 via the terminal retention passages 218 therebetween. It should be noted that the retainer 214 may be part of the base portion 21.
The terminals 3 are stamped of sheet metal and separated into a set of first terminals 3a and a set of second terminals 3b distinct from one another along a transversal direction. Each of the terminals 3 has a contacting portion 31, a tail portion 32 and a retention portion 33 interconnecting the contacting portion 31 and a tail portion 32.
Each of the spacer 4 includes a rectangular-shaped main portion 41 and a number of ribs 42 extending forwardly from an upper section of a front surface thereof. A number of holes 411 slotted through middle sections of the front surface and the back surface of the main portion 41.
The cables 5 includes first cables 51, second cables 52 and third cables 53. The first cables 51 has a number of wires (not numbered) electrically connected to the first terminals 3a, the second cables 52 electrically connected to the second terminals 3b and the third cables 53 electrically connected to the sensor 7.
The PCB 6 has a rectangular-shaped substrate (not numbered), with a plurality of conductive pads 61 arranged on the front section thereof and a number of conductive holes 62 defined in the back section of the substrate. The tail portions 32 of the second terminals 3b are soldered on the conductive pads 61, while conductors (not numbered) of the second cables 52 are inserted into the conductive holes 62 and soldered therein, respectively.
The sensor 7 is accommodated in the cavity 215 of the retainer 214, with three legs 71 thereof disposed outside of the retainer 214. The sensor 7 may be a transistor, a diode etc.
The lid/cap member 8 includes a body portion 81 and two L-shaped locking arms 82 extending forwardly from lateral sides of the body portion 81. A slit 811 is recessed rearward from a front surface of the body portion 81 and three passages 812 are recess forwardly from a back surface of the body portion 81 and further in communication to the slit 811. Each of the locking arms 82 further has a hook portion 812 formed at a front end thereof.
The external cover 9 is made of plastic material or other insulative material, which is molded over the base portion 2 and partial of the cable 5 which is adjacent to the base portion 2.
When assemble, the terminals 3 are first inserted into the insulated housing 2, with contacting portions 31 extending into the terminals slots 224, the retention portions 33 disposed in the terminal retention passages 218, and the tail portions 32 disposed outside of the back surface of the base portion 21. Secondly, the two spaces 4 are mounted to the recess portions 219 of the base portion 21, with the tail portions 32 passing through the holes 411 thereof, and the ribs 42 jammed into the retention passages 218 to secure the retention portions 32 with the base portion 21 together. Thirdly, the first cables 51 are soldered on the tail portions 32 of the set of first terminals 3a, the tail portions 32 of the set of second terminals 3b are soldered on the conductive pads 61 of the PCB 6, and the conductors of the second cables 51 are soldered to the conductive holes 62 of the PCB 6, therefore, the first and second cables 51, 52 are electrically connected to the terminals 3.
Fourthly, the sensor 7 is assembled to the cavity 215 of the retainer 214 via the rear outlet thereof and the lid member 8 latches with the retainer 214 to cover/seal/shield the rear outlet (not numbered) of the cavity 215 to prevent the sensor 7 sliding outward. The pair of latching arms 82 of the lid member 8 hold the lateral sides of the retainer 214 and the hook portions 821 thereon lock into the first notches 216 of the retainer 214. The legs 71 of the sensor 7 extend into the slit 811 and then extend outward of the lid member 8 via passages 812. Fifthly, the third cables 53 are soldered to the legs 71 of the sensor 7. Sixthly, the melted insulative material is molded over the base portion 21, the lid member 8 and the cable 5 nearby the base portion 21 to form the external cover 9. As the sensor 7 is accommodated in the retainer 214 and the body portion 81 seals/covers/shields the rear outlet of the cavity 215, thus the sensor 7 is not easily be damaged during molding process.
When the cable assembly 1 mates with a complementary connector (not shown) mounted to a Hard Disk (HD) or other electronic device, the sensor 7 is capable of detecting temperature or other running signal parameters of the electronic device and transform it into an electrical signal, then the electrical signal is transmitted to a control system of a device (not shown) via the third cables 53.
It will be understood that the invention may be embodied in other specific forms without departing from the spirit or central characteristics thereof. The present examples and embodiments, therefore, are to be considered in all respects as illustrative and not restrictive, and the invention is not to be limited to the details given herein.
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