The present invention relates to a connector holder.
Conventionally, when a cable is connected to a substrate in small electrical equipment, such as a mobile telephone, a connector that is connected to an end of the cable is fit into a base connector secured to a circuit board such as is shown in Japanese Utility Model Registration publication No. 2526329).
In
Here, the cable connector 301 is secured to another substrate 311 for use in electrical equipment. The one substrate 304 and the other substrate 311 are connected to each other in the electrical equipment by connecting means such as threaded bolts, screws, or the like. Consequently, a positional displacement may be induced between the cable connector 301 and the substrate connector 303. In order to absorb the positional displacement which may occur during connection, the cable connector 301 is secured to a connector holder that movably supports the cable connector 301 with respect to the other substrate 311. That is, the end of the cable 302 on the male housing 312 side is housed in a case 314 fixed to the other substrate 311 and is supported via a plurality of coil springs 315. Thus, movement of the coil springs 315 may absorb all movement of the cable connector 301 with respect to the other substrate 311.
Nevertheless, because a part of the male housing 312 of the cable connector 301 is housed within the case 314 and supported via the plurality of coil springs 315, this type of conventional connector holder is complicated in its structure and large in the size, making it impossible to use religiously in mobile telephones. Additionally, the shape of the male housing 312 is complicated and peculiar and therefore, cannot use a general connector that is commercially available. Further, due to the complicated structure, it is not easy to assemble and secure the connector holder, resulting in high cost. The present invention is directed to a cable connector holder that overcomes the aforementioned problems.
A general object of the present invention is to provide a connector holder of simple structure and small in size, that holds a coaxial connector in a manner that permits positional movement thereof with respect to a substrate, and connect easily and reliably the coaxial connector to an second connector secured to an second substrate, by having a fixing part fixed to the substrate, a holding part for holding a coaxial connector connected to a coaxial cable, and a connecting part for resiliently connecting the fixing and the holding parts together, in which the fixing part, holding part, and connecting part are formed integrally, and the coaxial connector is held in its floating state with respect to a substrate.
To this end, a connector holder of the present invention includes: a fixing part configured to be fixed to a substrate; a holding part configured to hold a coaxial connector connected to a coaxial cable; and a connecting part configured to resiliently connect the fixing part and the holding part, in which the fixing part, the holding part, and the connecting part are formed integrally, and the coaxial connector is held in its floating state with respect to a substrate.
In accordance with one embodiment of the invention, the connector holder is configured such that the fixing part, the holding part, and the connecting part are integrally formed as a metal plate forming a plane perpendicular to the substrate; the fixing part has a body parallel to the substrate and has an opening; the holding part has a body which is narrower than the opening of the body of the fixing part, and is also provided, with an opening; and, the connecting part is bent so that it connects the fixing and holding parts together so that their respective openings are identical in direction, and it connects together the right or left end of the body of the fixing part with the right or left ends of the body of the holding part.
In accordance with another embodiment of the present invention, the connector holder is configured such that the fixing and holding parts are formed in a substantial U shape.
In accordance with another embodiment of the present invention, the connector holder is configured such that the connecting part is bent in a substantial V-shape.
In accordance with a further embodiment of the present invention, the connector holder is configured such that the holding part pinches the coaxial connector along an internal wall surface of the body part.
In accordance with a still further embodiment of the present invention, the connector holder is configured such that the holding part is further provided with guide pieces that project from an upper edge of the body part thereof and which are tilted outwardly.
A general object of the present invention is to provide the connector holder so holding part with a bottom plate part that extends parallel to the substrate and supports a bottom surface of the coaxial connector.
Another object of the present invention is to provide the connector holder with a bottom plate part having a flat portion capable of permitting being contacted by a vacuum adsorption nozzle.
Still yet another object of the present invention is to provide the connector holder bottom plate part with pinching pieces that project upwardly and pinch an end of the coaxial cable, the tips of the pinching pieces being tilted outwardly.
An additional object of the present invention, the connector holder is configured to be fixed at a position adjacent to another connector mounted on the substrate.
In accordance with the present invention, a connector holder has a fixing part to be fixed to a substrate, a holding part for holding a coaxial connector connected to a coaxial cable, and a connecting part for resiliently connecting the fixing part and the holding part, in which the fixing part, the holding part, and the connecting part are formed integrally, and the coaxial connector is held in its floating state with respect to the substrate. Hence, this connector holder makes it possible to attain a simple structure and a small size, and hold a general coaxial connector in its positionally shiftable state with respect to a substrate, and reliably and easily connect the coaxial connector to an second connector secured to an second substrate.
Reference will be had in the detailed description to the following drawings in which like reference numbers refer to like parts and in which:
Preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.
In
This description includes the assumption that the above-mentioned equipment has a casing that can be divided into a plurality of portions, each of the adjacent portions being rotatably connected. As an example a mobile telephone casing can be divided into a display part casing provided with a large display screen using a liquid crystal or LED display, and an operating part casing provided with operating elements such as push buttons. In this case, in
Preferably, the connecting substrate 31, the flexible circuit 34, and the display device substrate 35 are formed of a flat printed circuit, referred to as a flexible printed circuit (FPC), and are formed integrally. An auxiliary plate 32 formed of a rigid material such as polyimide can be attached to the region of the connecting substrate 31. In the drawings, the auxiliary plate 32 includes such a size and a shape as to cover the whole of the connecting substrate 31 and is attached to the back side of the connecting substrate 31. On the other hand, the operating part substrate 41 may be formed of a flexible circuit, as in the cases of the connecting substrate 31, the connecting wiring substrate 34 and the display device substrate 35. Alternatively, it may be comprised of a rigid material having no flexibility, as in the case of a typical printed circuit board.
A substrate connector 25 is mounted on the connecting substrate 31 at a position adjacent to the connector holder 10 in a juxtaposed manner. The substrate connector 25 is another connector, to which a plurality of signal lines, including a display signal line are connected in a manner such that the display signal line passes through the connecting wiring substrate 34 and transmits a signal for activating the display device. A coaxial connector 22 connected to an end of a coaxial cable 21 is secured to the connector holder 10.
On the other hand, a second substrate connector 43 is fit onto the substrate connector 25, and second coaxial connector 42 is fit into the coaxial connector 22, these are mounted at positions corresponding to the substrate connector 25 and the coaxial connector 22, respectively, on the operating part substrate 41. Here, the substrate connector 25 and the second substrate connector 43 constitute a pair of board-to-board connectors to be used for electrically connecting printed circuits to each other. Thus, the signal lines including the display signal line passing through the connecting wiring substrate 34 can be connected to their respective corresponding signal lines formed on the operating part substrate 41, so that a screen corresponding to the operation of an operating component provided in the operating part casing can be displayed on the display device of the display part casing.
A coaxial connector 22, which is connected to the end of the coaxial cable 21 is mounted on the connecting substrate 31 by way of the connector holder 10, and by securing it to the connector holder 10.
An auxiliary metal bracket, or cover 23, covers the end of the coaxial cable 21 and the lower surface of the coaxial connector 22. This auxiliary bracket 23 has flat first pinched portions 23a, which are disposed on opposite sides of the coaxial connector 22 and extend generally parallel to the direction of connection of the coaxial connector 22. Flat second pinched portions 23b are disposed around the coaxial cable 21, where it is connected to connector 22 and the flat surfaces extend in parallel with the direction of connection of the coaxial connector 22. The first pinched portions 23a or the second flat pinched portions 23b are optional structures.
Although the coaxial cable 21 may be any one used in numerous applications, this description will be provided on the assumption such that it is used as an antenna line connected to the antenna of a mobile telephone. In general, the antenna line of a mobile telephone is designed so as to transmit a high frequency signal, which is higher in frequency than a display signal line to transmit a signal for driving a display device, or the like. In order to prevent the antenna line from adversely affecting on other signals, the antenna line is preferably arranged to be isolated from other signal lines and shielded. For this reason, it is preferable to use as the antenna line a coaxial cable 21 with a center conductor whose periphery is surrounded by a shield member, and formed separately from the connecting wiring substrate 34 through which the display signal line and the like pass.
Similarly, it is also preferable that the antenna line connector is separated and isolated from the connectors of the other signal lines and is shielded. For this reason, the coaxial connector 22 has a periphery thereof surrounded by a shield member and is formed as separate and isolated from the substrate connector 25 to which are connected the signal lines, including the display signal line passing through the connecting wiring substrate 34. Similarly, mounted on the operating part substrate 41 is the second coaxial connector 42 that includes a shield member and which is formed to be separated and isolated from the second substrate connector 43 to be fit into the substrate connector 25. Thus, high frequency signals received by the antenna are transmitted to the operating part substrate 41 through the coaxial cable 21, the coaxial connector 22, and the second coaxial connector 42, without adversely affecting signals transmitted through the other signal lines.
At this stage, it might also be considered to adopt such a configuration that the coaxial cable 21 together with the other signal lines are connected to the substrate connector 25, by applying a shield for high frequencies to a part of the substrate connector 25 and a part of the second substrate connector 43. In this case, however, due to the application of the shield for high frequencies, the substrate connector 25 and the second substrate connector 43 have become complicated in structure, high in cost, and large in size. On the contrary, the present invention uses general board-to-board connectors, which are of simple structure, low cost, and small size, as the substrate connector 25 and the second substrate connector 43.
Referring to
Referring now to
The fixing part 11 is formed by bending a metal strip at two locations and at approximately right angles. In
The reason why the fixing part 11 is of the substantial Ur shape is that a connector holding part 13 also has a substantial U-shape. Thus, the similarity in shape between the holding and fixing parts 11,13 ensures a provision of a moving range for enabling the connector holding part 13 to be efficiently moved. The connecting part 18 is connected so that the direction of the opening of the fixing part 11 and that of the holding part 13 coincide and take up substantially parallel positions. If the distance between the fixing part 11 and the holding part 13 is sufficiently large, these parts may not be of the identical shape. For example, the fixing part 11 may be formed in a substantially arcuate shape.
In the drawings, the first and third tail portions 12a and 12c are shown as formed by bending a tongue projecting from the lower edge of the body part of the fixing part 11 to project outwardly. The second tail portion 12b is similarly formed by bending the lower end of an elongated tail connecting portion 12d outwardly. Alternatively, like the first and third tail portions 12a and 12c, the second tail portion 12b may also be formed by bending the tongue at the lower edge of the body part of the fixing part 11 outwardly. The number and arrangement of the tail portions 12 can be changed to suit the number and arrangement of the connecting pads 36.
To form the first, second and third tail portions 12a, 12b and 12c, the tongues are bent outwardly of the fixing part 11 in order to comply with reflow soldering. Alternatively, the tongue may be projected down from the fixing part 11 to the substrate in order to comply with dip soldering. In this case, instead of the holder connecting pads 36, through-holes that permit the insertion of a projecting portion into the back side of the substrate may be provided, and soldering may be performed on the back side of the substrate.
The holding part 13 can also be formed by bending a metal strip at two locations and at right angles. In
When the coaxial connector 22 is secured to the connector holder 10 by moving it downward as shown in
The holding part 13 further has a bottom plate part 14, which is connected centrally of its body part to its lower edge through a bottom plate connecting part 17 of substantial L-shape. The bottom plate part 14 is preferably a flat member that supports the bottom part of the coaxial connector 22 held by the holding part 13, and it extends parallel to the connecting substrate 31, the direction being orthogonal to the holding part 13. The bottom plate part 14 has a first pinching portion 16a and a second pinching portion 16b, connected one to each side of the tip of the bottom plate part 14 (its lower end as viewed in
When the coaxial connector 22 is secured to the connector holder 10 the second pinched portions 23b of the auxiliary brackets 23 at each side of the end of the coaxial cable 21 move down while abutting against the tilted surfaces of the tips of the first and second pinching portions 16a and 16b. Thus, they are positioned to be centrally received in the holding part 13. When the coaxial connector 22 is secured in to the connector holder 10, the second pinched portions 23b of the auxiliary brackets 23 are pinched from both sides with the internal wall surfaces of the first and second pinching portions 16a and 16b, so that the ends of the coaxial connector 22 and the coaxial cable 21 are reliably held.
Although the size of the bottom plate part 14 can vary, it is preferable that the flat portion permits contact by a vacuum absorption nozzle attached to the robot arm so that the connector holder 10 can be handled by using an automatic mounting device. The bottom plate part 14 is shown formed and positioned lower than the tail portions 12. However, the position in the direction of the height of the bottom plate part 14 (a lateral direction as viewed in
As a result of such an adjustment, if the bottom plate part 14 is lower than the tail portions 12, as shown in
The connecting part 18 can be formed by bending a metal plate at bending portion 18a and at an acute angle. Its both ends are connected to the ends of the fixing and holding parts 11,13, respectively. More specifically, the connecting part 18, whose shape in a cross-sectional plane taken parallel to the connecting substrate 31 is a substantially V-shape, connects the right or left end in the body part of the fixing part 11 with the right or left end in the body part of the holding part 13. The plate forming the connecting part 18 is narrower in width and lower in rigidity, and therefore more apt to be resiliently deform than the plate forming the fixing part 11. Therefore, if, in the state in which the fixing part 11 is secured to the connecting substrate 31, the force is applied to the holding part 13 in a lateral direction, namely in a direction parallel to the upper surface of the connecting substrate 31, and the connecting part 18 is resiliently deformed, allowing the holding part 13 to move parallel to the upper surface of the connecting substrate 31, as shown in
Here, the bending of the bending portion 18a in the substantially V-shape will increase the distance of the bending portion to the first pinching portion 16a. Therefore, if the distance between the first and second pinching portions 16a and 16b is increased, the amount of movement of the holding part 13 can be increased. For example, if the distance between these pinching portions is increased with a slightly large connector, there is no possibility of preventing the movement of the holding part 13.
Where the second pinched portions 23b of the coaxial connector 22 are small in size that the spacing between the first and second pinching portions 16a and 16b may be narrower, the bending portion 18a may be bent in a U-shape so that the bending portion 18a and the first guide portion 15a are arranged in parallel. The U-shape provides a long deflection portion, so that the flexibility of the connecting part 18 can be increased more than if it were bending in V-shape.
In
Next, securing of the coaxial connector 22 to the connector holder 10 will be described.
In
An operator manually connects the coaxial cable 21 with the coaxial connector 22, so that the lower surface of the coaxial connector 22 is directed immediately downward and positioned above the connector holder 10 mounted on and secured to the connecting substrate 31, as shown in
Subsequently, the coaxial connector 22 is moved downward, and inserted into the holding part 13 and secured thereto. In this case, the first pinched portions 23a of the auxiliary brackets 23 are moved downwardly while abutting the tilted surfaces of the first and third guide portions 15a and 15c. They are positioned as to be guided and positioned centrally in the holding part 13. The edge of the tip of the coaxial connector 22 is moved down while abutting against the tilted surface of the second guide portion 15b and thus, it is positioned in such a manner as to be positioned centrally in the body part of the holding part 13. The second pinched portions 23b of the auxiliary brackets 23 are moved down while abutting against the tilted surfaces of the tips of the first and second pinching portions 16a and 16b. They are positioned to be guided and positioned centrally in the holding part 13. Accordingly, the coaxial connector 22 is easily secured so that it is accurately placed in position with respect to the holding part 13. If there is a positional shift between the coaxial connector 22 and the holding part 13, the movement of the holding part 13 in the direction parallel to the upper surface of the connecting substrate 31 permits absorption of the positional shift, allowing the coaxial connector 22 to be secured more readily to the holding part 13.
When the coaxial connector 22 is secured in the connector holder 10, the first pinched portions 23a of the auxiliary brackets 23 are held and pinched from both sides with the internal wall surface of the holding part 13, and the second pinched portions 23b are held and pinched from both sides with the internal wall surfaces of the first and second pinching portions 16a and 16b, so that the ends of the coaxial connector 22 and the coaxial cable 21 are reliably held. Thus, the coaxial connector 22 is mounted on the connecting substrate 31 through the connector holder 10. While the foregoing description has been made of the case where the coaxial connector 22 is moved with respect to the connecting substrate 31, the connecting substrate 31 may be moved with respect to the coaxial connector 22.
The following describes fitting the coaxial connector 22 mounted on the connecting substrate 31 into the second coaxial connector 42 mounted on the operating part substrate 41.
First, the operator manually reverses the operating part substrate 41, on which the second substrate connector 43 and the second coaxial connector 42 are mounted as shown in
The operator then allows the operating part substrate 41 to shift toward the connecting substrate 31, so that the second substrate connector 43 and the second coaxial connector 42 are fit into the substrate connector 25 and the coaxial connector 22, respectively. Thus, one operation permits simultaneous fitting between the substrate connector 25 and the second substrate connector 43, and between the coaxial connector 22 and the second coaxial connector 42. This results in improvement in the operability.
In some cases, the relative positional relationship between the substrate connector 25 and the coaxial connector 22 mounted on the connecting substrate 31 might not strictly be in coincidence with the relative positional relationship between the second substrate connector 43 and the second coaxial connector 42 mounted on the operating part substrate 41. In such a case, when the substrate connector 25 and the second substrate connector 43 are used as reference, a positional discrepancy is involved between the coaxial connector 22 and the second coaxial connector 42, resulting in a positional deviation between the coaxial connector 22 and the second coaxial connector 42. However, the movement of the holding part 13 in the direction parallel to the upper surface of the connecting substrate 31 can absorb such a positional deviation, thereby allowing the coaxial connector 22 to be readily and reliably fit into the second coaxial connector 42.
While the foregoing description has been made of the case where the operating part substrate 41 is shifted with respect to the connecting substrate 31, the connecting substrate 31 may also be shifted with respect to the operating part substrate 41.
Thus, in the present preferred embodiment, the connector holder 10 has the fixing part 11 to be fixed to the connecting substrate 31, the holding part 13 for holding the coaxial connector 22 connected to the coaxial cable 21, and the connecting part 18 for resiliently connecting the fixing part 11 and the holding part 13, in which the fixing part 11, the holding part 13, and the connecting part 18 are formed integrally, and the coaxial connector 22 is held in its floating state with respect to the connecting substrate 31. This provides the connector holder 10 of simple structure and small size. In addition, the general coaxial connector 22 can be held in its movable state with respect to the connecting substrate 31, allowing the coaxial connector 22 to be connected reliably and readily to the second coaxial connector 42 secured to the operating part substrate 41.
The fixing part 11 has the symmetrical body part, whose shape in a cross-sectional plane parallel to the connecting substrate 31 is the U-shape, which is opened toward one direction. The holding part 13 has the symmetrical body part, whose shape in the cross section parallel to the connecting substrate 31 is the U-shape, which is opened toward the same direction as the body part of the fixing part 11, and is narrower than the body part of the fixing part 11. The connecting part 18, whose shape in the cross section parallel to the connecting substrate 31 is a V-shape, connects the right or left end in the body part of the fixing part 11 with the right or left end in the body part of the holding part 13. Hence, the overall attitude of the connector holder 10 fixed to the connecting substrate 31 can be stabilized. Additionally, the holding part 13 is capable of shifting in any direction and over a wide range, without interfering with the fixing part 11.
The holding part 13 pinches the coaxial connector 22 with the internal wall surface of the body part thereof. Therefore, the coaxial connector 22 is also detachable from the connector holder 10, as required.
Further, the holding part 13 has the guide portions 15 projecting from the upper edge of the body part thereof and being tilted outwardly. Therefore, when the coaxial connector 22 is secured to the connector holder 10, it shifts while being abutted against the tilted surfaces of the guide portions 15, whereby the coaxial connector 22 can be positioned in such a manner as to be guided and positioned centrally in the holding part 13.
Further, the holding part 13 has the bottom plate part 14 that extends in parallel with the connecting substrate 31 and supports the bottom surface of the coaxial connector 22. It is, therefore, possible to stabilize the position of the coaxial connector 22. By adjusting the height of the bottom plate part 14, the height of the coaxial connector 22 secured to the connector holder 10 can be adjusted for permitting appropriate fitting of the coaxial connector 22 into the second coaxial connector 42, in the state in which the substrate connector 25 is fit into the second substrate connector 43.
The bottom plate part 14 has a flat portion to permit installation by a vacuum nozzle. Therefore, the connector holder 10 can be easily mounted on the connecting substrate 31 by using automatic mounting devices.
Further, the bottom plate part 14 has pinching portions 16 that project upwardly and pinch the end of the coaxial cable 21, and the tips of the pinching portions 16 are tilted outwardly. Therefore, because the end of the coaxial cable 21 can also be pinched, the direction of the coaxial connector 22 remains unchanged thereby to stabilize the attitude of the coaxial connector 22. In addition, when the end of the coaxial cable 21 is secured to the connector holder 10, it moves while abutting against the tilted surfaces of the tips of the pinching portions 16, whereby the end of the coaxial cable 21 is positioned centrally in the holding part 13.
The connector holder 10 is manufactured by bending a metal plate. This provides easy manufacturing and less manufacturing cost. In the case where the holder connecting pads 36, to which the tail portions 12 of the fixing part 11 are connected, are being connected to ground lines, the shield member around the coaxial connector 22 can be grounded by the ground lines through the connector holder 10 and the holder connecting pads 36.
Further, the connector holder 10 is fixed at a position adjacent to the substrate connector 25 mounted on the connecting substrate 31. Therefore, one operation permits the simultaneous fitting between the substrate connector 25 and the second substrate connector 43, and between the coaxial connector 22 and the second coaxial connector 42. This can improve the operability of the operation of connecting the connecting substrate 31 and the operating part substrate 41. Additionally, the signals such as the high frequency signal transmitted by the coaxial cable 21 can be transmitted through the coaxial connector 22 and the second coaxial connector 42 to the operating part substrate 41, without adversely affecting the signals transmitted through the other signal lines connected to the substrate connector 25. It is, therefore, possible to use the general board-to-board connectors, which are of simple structure, low cost, and small in its size, as the substrate connector 25 and the second substrate connector 43.
It is to be understood that the present invention is not limited to the foregoing preferred embodiment but is variously changed and modified by a person skilled in the art, based on the concept of the present invention, without departing from the scope and sprit of the present invention claimed in the attached claims.
Number | Date | Country | Kind |
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2006-041048 | Feb 2006 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IB2007/002130 | 2/20/2007 | WO | 00 | 12/22/2008 |