1. Technical Field
The present disclosure relates to reception apparatuses for electronic components, and particularly to a reception apparatus for cables and an electrical connection device using the same.
2. Description of Related Art
Electronic devices, such as personal computers (PCs) and servers, generally include many cables. In assembly, the cables used inside the cases of the electronic devices may be difficult to arrange, and placement of the cables in the cases of the electronic devices may cause problems. When the electronic devices need to be repaired or electric connections of the electronic devices need to be changed, arrangement of the cables may make it difficult to repair the electronic devices. Furthermore, if the cables are entangled with each other, electromagnetic interference and possibly short circuits may result.
Therefore, there is room for improvement within the art.
Many aspects of the present disclosure can be better understood with reference to the following drawings. The components in the various drawings are not necessarily drawn to scale, the emphasis instead being placed upon clearly illustrating the principles of the present disclosure. Moreover, in the drawings, like reference numerals designate corresponding parts throughout the figures.
Referring to
The case 200 may be part of the housing of an electronic device. In this embodiment, the case 200 includes a substantially rectangular side frame 210 and two cover boards 220. The two cover boards 220 and the side frame 210 cooperatively form a reception space 230. The case 200 further includes a circuit board 240 and a pair of sliding rails 250. The circuit board 240 is fixed in the case 200 and can be electrically connected to the flexible cable module 400. The circuit board 240 can also be electrically connected to a number of electronic components (not shown) of the electronic device. The sliding rails 250 are formed on one of the cover boards 220.
The interface module 300 can be received inside the reception space 230, and includes a connection box 310 and a sliding box 320. Each of the connection box 310 and the sliding box 320 is substantially cuboid-shaped, and includes two opposite and parallel side surfaces and two opposite and planar ends. The sliding box 320 is mounted between the two sliding rails 250, and the two side surfaces of the sliding box 320 respectively cooperate with the two sliding rails 250 to enable a sliding movement by the sliding box 320. One of the two ends of the sliding box 320 is connected to one of the two side surfaces of the connection box 310. One of the two side surfaces of the sliding box 320 is perpendicularly connected to the side surface of the connection box 310 which is connected to the sliding box 320, and the other of the two side surfaces of the sliding box 320 is coplanar with one of the two ends of the connection box 310. A plurality of main connectors 312 are mounted on the other of the two side surfaces of the connection box 310. A retaining board 314 is also perpendicularly connected to the side surface of the connection box 310 which is connected to the sliding box 320. The retaining board 314 is coplanar with the other of the two ends of the connection box 310 and is parallel to the two side surfaces of the sliding box 320, such that a retaining groove 340 is created between the retaining board 314 and the sliding box 320.
The sliding box 320 further includes a plurality of subsidiary connectors 321 and accessories 323. The subsidiary connectors 321 are mounted inside the sliding box 320 and can be electrically connected to the main connectors 312. The sliding box 320 defines a plurality of connection apertures 322 aligned with the subsidiary connectors 321 correspondingly. The accessories 323 can be replaceable and/or exchangeable components of the electronic device, such as storage devices, sound cards, graphics cards, for example. The accessories 323 can be received in the connection apertures 322, and the subsidiary connectors 321 can be inserted in the accessories 323 when the accessories 323 are received in the connection apertures 322.
Also referring to
The reception apparatus 100 includes a plurality of first holding units 110, a plurality of second holding units 130, and a plurality of rotation units 150. Each of the first holding units 110 includes two holding bars 111, 112 and a holding board 113. The holding board 113 is a substantially rectangular flat board. The holding bars 111, 112 are all equal in length. The length of the holding board 113 is less than the length of the holding bars 111, 112, and the thickness of the holding board 113 is less than the widths of the holding bars 111, 112. The two holding bars 111, 112 are parallel to each other, and the holding board 113 holds the two holding bars 111 and 112 together lengthwise, with substantial vertical and horizontal symmetry. Each end of both the two holding bars 111, 112 defines an assembling hole 116.
Each of the second holding units 130 includes two holding bars 131, 132, and a holding board 133. All of the second holding units 130 are similar to that of the first holding units 110, except that the holding board 133 in each of the second holding units 130 has a greater lateral width, to hold the holding bars 131 and 132 farther apart. Thus, the two holding bars 111, 112 of each of the first holding units 110 can be positioned between the two holding bars 131, 132 of each of the second holding units 130, so as to align the assembling holes 116 with the assembling holes 136 in a closefitting manner.
Each of the rotation units 150 includes a shaft 151 and a limiting member 152. The shaft 151 is substantially cylindrically-shaped. The diameter of one end of the shaft 151 is stepped outwards to form a disk-shaped retaining portion 153 of a greater diameter. A conic insertion portion 154 is formed on the other end of the shaft 151, and the diameter of the part of the shaft 151 that is adjacent to the bottom of the inserting portion 154 is stepped inwards to define a limiting groove 155. The diameter of the retaining portion 153 is greater than the diameter of the assembling holes 116, and the diameter(s) of all of the other parts of the shaft 151 (i.e., including the inserting portion 154 and the part of the shaft 151 that defines the retaining groove 155) are less than the diameter of the assembling holes 116. The limiting member 152 is substantially a hollow cone made of elastic material, such as rubber. The inner diameter of the top of the limiting member 152 is less than the diameter of the bottom of the inserting portion 154, and the outer diameter of the bottom of the limiting member 152 is greater than the diameter of the assembling holes 116. Each of the rotation units 150 further includes a gasket 156. The gasket 156 can be an elastic ring. The outer diameter of the gasket 156 substantially equals the diameter of the retaining portion 153, and the inner diameter of the gasket 156 substantially equals the diameter of the part of the shaft 151 that is adjacent to the retaining portion 153.
In assembly, the first holding units 110 and the second holding units 130 are positioned alternately. In each of the first holding units 110, one end of the holding bar 111 and one end of the holding bar 112 of the first holding unit 110 are positioned between one end of the holding bar 131 and one end of the holding bar 132 of one of the second holding units 130 that is positioned adjacent to the first holding unit 110, and the assembling holes 116 are aligned with the assembling holes 136.
One of the rotation units 150 is used to assemble the first holding unit 110 and the second holding unit 130 together. In assembly, the inserting portion 154 of the rotation unit 150 is inserted into the gasket 156 of the rotation unit 150, the assembling hole 136 of the holding bar 131, the assembling hole 116 of the holding bar 111, the assembling hole 116 of the holding bar 112, and the assembling hole 136 of the holding bar 132, and is finally inserted through the bottom of the limiting member 152 of the rotation unit 150, to emerge from the top of the limiting member 152. The limiting member 152 contracts elastically into the limiting groove 155 and thereby is fixed on the shaft 151. In this way, the first holding unit 110 and the second holding unit 120 are assembled together by the rotation unit 150 and can be rotated relative to each other. The limiting member 152 and the retaining portion 153 prevent the shaft 151 from sliding out of the assembling holes 116, 136. The limiting member 152 can decrease the effect of shocks between the inserting portion 154 and the second holding unit 130, and the gasket 156 can be coiled on the part of the shaft 151 that is adjacent to the retaining portion 153 to decrease the effect of shocks between the retaining portion 153 and the second holding unit 130.
Similarly, the other end of the holding bar 111 and the other end of the holding bar 112 of the first holding unit 110 are positioned between one end of the holding bar 131 and one end of the holding bar 132 of another of the second holding units 130 that is positioned adjacent to the first holding unit 110, and the assembling holes 116 and 136 aligned to continue the assembly as before. These assembling operations are repeated, until all of the first holding units 110 and the second holding units 130 (or as many as are required in the particular situation) are alternately assembled one by one and enabled to rotate relative to each other by the rotation units 150.
Furthermore, in each of the two outermost holding units 110 and/or 130 of the reception apparatus 100, each of the holding bars 111, 112 and/or 131, 132 has one free or unattached end. In this embodiment, the shafts 151 of two of the rotation units 150 are respectively inserted in the assembling holes 116 and/or 136 defined in the unattached ends of the holding bars 111, 112 and/or 131, 132.
The lengths of the holding boards 113 and the lengths of the holding boards 133 being less than the lengths of the holding bars 111, 112/131, 132 which hold them, when the first holding units 110, the second holding units 130 and the rotation units 150 are assembled together, an assembling aperture 170 is created between each end of each of the holding boards 113 and the shaft 151 assembled adjacent to the end of the holding board 113, and an assembling aperture 190 is created between each end of each of the holding boards 133 and the shaft 151 assembled adjacent to the end of the holding board 133. The flexible cable unit 402 is positioned to repeatedly pass through selected ones of the assembling apertures 170, 190 and be wrapped around the shafts 151. Parts of the flexible cable unit 402 that are positioned between every two of the rotation units 150 are tightened on the holding boards 113, 133 to be flattened under tension. Thus, the cable connection units 410, 420 may each be connected to the ends of the flexible cable unit 402.
One of the two rotation units 150 respectively rotatably assembled on the two outermost ends of the reception apparatus 100 is fixed in the case 200 and adjacent to the circuit board 240, and the other is placed into the connection box 310 through the retaining groove 340 and is fixed in the connection box 310. The cable connection unit 410 is received in the connection box 310 and electrically connected to the main connectors 312. The cable connection unit 420 is electrically connected to the circuit board 240, and the electronic components of the electronic device are electrically connected to the main connector 312 through the flexible cable module 400. In this way, the electrical connection device 10 is assembled.
Also referring to
When the electrical connection device 10 needs to be repaired or the accessories 323 need to be changed, the interface module 300 is pulled out from the reception space 230. When the connection box 310 slides away from the circuit board 240 along the sliding rails 250, the first holding units 110 and the second holding units 130 unfold from each other (e.g., as shown in
In other embodiments, the flexible cable unit 402 can also be replaced by a single flexible cable or by a plurality of independent flexible cables, which are connected to the cable connection units 410, 420 and mounted on the reception apparatus 100 according to methods that are substantially similar to that of connecting the flexible cable unit 402 with the cable connection units 410, 420 and mounting the flexible cable unit 402 on the reception apparatus 100.
The first holding units 110 and the second holding units 130 can also be assembled together and enabled to rotate relative to each other by rivets (not shown) assembled in the assembling holes 116, 136, and thus the shafts 151 can be omitted. Correspondingly, the flexible cable unit 402 or a number of them may pass repeatedly through apertures formed between adjacent ones of the holding boards 113, 133, and parts of the flexible cable unit 402 can be kept in tight contact with the holding boards 113, 133 to be flattened.
The main connectors 312 and the subsidiary connectors 321 can be different kinds of electric connectors, such that the electric connection device 10 can electrically connect the electronic device with all types of accessories (e.g., the accessories 323).
It is to be further understood that even though numerous characteristics and advantages of the present embodiments have been set forth in the foregoing description, together with details of structures and functions of various embodiments, the disclosure is illustrative only, and changes may be made in detail, especially in matters of shape, size, and arrangement of parts within the principles of the present 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 |
---|---|---|---|
201110245728.7 | Aug 2011 | CN | national |