JP3572035B2 - Shielded cable with connector - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a shielded cable with a connector in which a connector is connected to an end of a shielded cable used for electrical connection between electronic devices.
[0002]
[Prior art]
In recent years, in various electronic devices such as personal computers and printers, with the improvement and diversification of functions of electronic devices, high-speed and large amounts of data have been transmitted and received between boards, units or between electronic devices in electronic devices. As a result, the use of multi-pin cable with connectors is increasing. Such cables with multi-pin connectors, especially when used for signal transmission between electronic devices, often cause problems in terms of radiated noise and immunity. A shielded cable covered with a member is often used. The shield member suppresses radiation noise by being electrically connected to a metal conductive housing of a connector coupled to an end of the shielded cable.
[0003]
The housing of the board-side connector of the electronic device, which is the connection partner of the shielded cable connector, is also a metal conductive member and is electrically connected to the metal housing of the electronic device. Thereby, in a state where the housing of the connector on the shielded cable side is fitted to the connector on the board side of the electronic device and both connectors are electrically connected, the shield member of the shielded cable is ground via the housings of both connectors. It is electrically connected to the housing of the electronic device and can suppress radiation noise by a shielding effect.
[0004]
[Problems to be solved by the invention]
However, in the above-described conventional technology, if the electrical connection between the members from the shield member of the shielded cable to the housing of the board-side connector of the electronic device is incomplete, the shield characteristics of the radiated noise greatly vary. This causes radiation noise.
[0005]
The first factor that causes incomplete electrical connection from the shield member of the shielded cable to the housing of the board-side connector of the electronic device is as follows. Defective. Normally, the cable side connector and the board side connector are fitted so that the fitting part of the cable side connector is outside and the fitting part of the board side connector is inside, and the fitting part of the cable side connector is slightly pushed. It is fitted so that it can be spread. Therefore, the shape of the fitting portion of the cable-side connector is easily deformed, and the connection state due to the fitting between the cable-side connector and the board-side connector becomes unstable due to repeated use.
[0006]
In addition, the cable-side connector is usually formed by combining an outer housing forming its exterior with an inner housing having a fitting portion of the board-side connector. For this reason, the second cause of incomplete electrical connection from the shield member of the shielded cable to the housing of the board-side connector of the electronic device is a poor electrical connection between the outer housing and the inner housing. Can be This unstable state of the electrical connection is promoted by distortion of the fitting portion of the cable-side connector that occurs when the cable-side connector is fitted to the board-side connector.
[0007]
In addition, a clamp portion for connecting and clamping the shield portion of the shielded cable is usually formed at the rear end of the outer housing. The clamp portion is formed of an elastic member having a U-shaped cross section, and clamps the outer periphery of the shield portion of the shielded cable by reducing its diameter. However, since the clamp member is an elastic member, it is deformed, and a defective electrical connection between the shield member provided on the shielded cable and the outer housing occurs. This is the third factor in which the electrical connection from the shield member of the shielded cable to the housing of the board-side connector of the electronic device is incomplete.
[0008]
[Means for Solving the Problems]
In order to solve the above problems, in the present invention, in a shielded cable with a connector in which a connector is coupled to an end of a shielded cable in which a plurality of cores are covered with a shield member, a plurality of electrodes connected to the plurality of cores are provided. A conductive inner housing having the electrode portion therein, and a fitting portion of the inner housing, the conductive portion having the electrode portion therein, and the fitting portion of the inner housing. And the fitting portion is connected by a conductive connecting portion having elasticity in a direction to suppress deformation that is expanded by being fitted to the connector to which the connector is connected, and accommodates a core wire exposed from the shielded cable. Having a conductive outer housing,
The outer housing is arranged so that the end of the shield member is located inside the cable inlet at the rear of the outer housing, and the shield of the shielded cable is provided by a conductive clamp provided at the rear end of the outer housing. It is characterized in that the shield member is clamped and electrically connected.
[0009]
Further, the present invention is characterized in that the connecting portion is a separate member from the outer housing.
[0010]
Further, according to the present invention, the connection portion has a bent portion in a direction perpendicular to the longitudinal direction of the inner housing, and the connection portion is connected to the fitting portion of the inner housing by the elastic force of the bent portion. It is characterized by.
[0011]
Further, the present invention is characterized in that the connection portion is a conductive leaf spring-shaped member.
[0012]
Further, the present invention is characterized in that the connection portion is formed so as to contact at a plurality of positions of the fitting portion of the inner housing.
[0014]
Further, the present invention is characterized in that the connection portion is formed in a sawtooth shape.
[0016]
Further, the present invention is characterized in that the connection member is a pin array-like member in which a plurality of pins made of a conductive metal are integrated in parallel.
[0018]
Further, the invention is characterized in that the connection member is a gasket made of conductive rubber.
[0019]
With the configuration described above, the electrical connection from the shield member of the shielded cable to the housing of the board-side connector of the electronic device described in the problem to be solved by the invention becomes incomplete. In the state where the cable side connector is fitted and connected to the board side connector, the electrical connection between the cable side connector fitting section and the board side connector fitting section is reliably and stably solved. Can be taken.
[0020]
Further, the present invention solves the second problem that the electrical connection from the shield member of the shielded cable to the housing of the board-side connector of the electronic device is incomplete, and the cable described in the problem to be solved by the invention is solved. Electrical connection between the inner housing and the outer housing of the side connector can be reliably and stably established.
[0022]
Further, the present invention is characterized in that the cable inlet and the shield member come into contact at one or more points and are electrically connected.
[0023]
Further, the present invention is characterized in that the cable inlet is formed in a rectangular shape, one side of which is smaller than the diameter of the portion of the shield member, and the cable inlet and the shield member contact at one or more points and are electrically connected. And
[0024]
Further, according to the present invention, the cable inlet is formed to have substantially the same size as the diameter of the shield member, and one or more protrusions are provided at an edge of the cable inlet, and the cable inlet is connected to the cable inlet through the protrusion. The present invention is characterized in that the cable braid directly contacts and conducts electricity.
[0025]
Further, the present invention is characterized in that a large number of the protrusions have a sawtooth shape and are provided at the edge of the cable inlet.
[0026]
With the configuration described above, the electrical connection from the shield member of the shielded cable to the housing of the board-side connector of the electronic device described in the problem to be solved by the invention becomes incomplete. The first, second, and third factors can be eliminated, and all the electrical connection states between the members from the shield member of the shielded cable to the housing of the board-side connector of the electronic device can be reliably performed.
[0027]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0028]
[First Embodiment]
1 and 2 are an exploded perspective view and a schematic sectional view showing the structure of the shielded cable with connector according to the first embodiment.
[0029]
In FIG. 1, reference numeral 1 denotes a shielded cable, in which a bundle of a plurality of core wires 3 each covered with an insulating material is covered with a mesh-shaped shielding member 2 made of metal, and further outside is covered with a jacket 4 made of an insulating material. It has a covered structure. At the end of the shielded cable 1, the jacket 4 is peeled off, and the shield member 2 is folded outward. A core wire 3 is exposed from the end of the shielded cable 1, and the core wire 3 is connected to a connector electrode described below by a method such as soldering. A cable-side connector 10 is attached to an end of the shielded cable 1. The cable-side connector 10 is formed by the outer housings 7 and 7 ′, the inner housing 5, and the connector electrode unit 6.
[0030]
The inner housing 5 is made of a conductive metal, and is formed of a cable-side fitting portion 52 formed in a slender, substantially rectangular cylindrical shape with both ends opened, and a flange 51 projecting right, left, up and down of the cable-side fitting portion 52. ing. As shown in FIG. 2, the cable-side fitting portion 52 is fitted to the board-side fitting portion 20 of the board-side connector 8 provided on the printed circuit board 9 of the electronic device to which the cable-side connector 10 is connected. The cable side fitting part 52 and the fitting part of the board side fitting part 20 are fitted so that the cable side fitting part 52 is on the outside and the board side fitting part 20 is on the inside. In order to ensure the fitting, the inner diameter of the cable side fitting portion 52 is smaller than the outer diameter of the board side fitting portion 20. A force is applied in a direction in which the cylindrical portion is slightly expanded.
[0031]
A connector electrode section 6 is fixed in the inner housing 5. The connector electrode portion 6 is configured such that a plurality of electrode connection terminals 61 connected to each of the plurality of core wires 3 are held by a holding member 53 made of an insulator. By connecting the connector electrode section 6 to the board-side connector 8 provided on the printed board 9, a signal from the shielded cable 1 can be transmitted to the printed board 9, and a signal from the printed board 9 passes through the shielded cable 1. It is transmitted to other printed circuit boards, electronic units and electronic devices.
[0032]
The outer housings 7 and 7 'are conductive members formed integrally from a metal plate material, respectively, and constitute the outer shape of the connector 10 by being vertically overlapped and combined. The left and right ends of the upper outer housing 7 are formed with slit-shaped through holes 73, and the left and right side walls of the lower outer housing 7 'are located at positions corresponding to the slit-shaped through holes 73, respectively. A projection 73 'on the thin plate is formed. The outer housing 7 and the outer housing 7 ′ are fixed by inserting the projection 73 ′ into the through hole 73 and bending it inward. Here, the outer housing member 7 'is put inside the lower outer housing member 7 and fixed. Inside the outer housings 7 and 7 ′, the portion from the folded portion of the shield member 2 at the end of the shielded cable 1 to the core wire 3 exposed from the end is accommodated. Are combined with the internal housing 5.
[0033]
The outer housing members 7, 7 ′ are formed in a substantially pentagonal home base shape, and side walls 76, 76 ′ having a height corresponding to the height of the inner housing 5 are formed on both left and right sides thereof by bending. At the front end of each of the side walls 76, 76 ', a flange 71, 71' is formed by bending outward in an L-shape. The flanges 51 of the inner housing 5 and the flanges 71, 71 'of the outer housings 7, 7' are provided with holes for screwing, respectively, and these holes are formed in a state where the outer housing members 7, 7 'are combined. , So that they are aligned with each other. Screws (not shown) used for fixing the cable side connector 10 and the board side connector 8 are attached to the aligned holes.
[0034]
The rear end portion of the outer housing members 7 and 7 ′, which is continuous with the home base portion, has a substantially semi-cylindrical elastically deformable conductive member that tightens and holds the folded portion of the shield member 2 in the shielded cable 1. Are formed. In a state where the outer housing members 7, 7 'are combined, the radius of the clamp portions 74, 74' is reduced, so that the cable member 13 is sandwiched and fixed to the clamp portions 74, 74 '. By making the lengths of the portions where the clamp portions 74, 74 'and the outer housing members 7, 7' are continuous differ, the clamp portions 74 and the clamp portions 74 'do not overlap. In this way, the clamp portions 74, 74 'are pressed against the folded portion of the shield member 2, and the shield member 2 and the outer housing members 7, 7' are electrically connected.
[0035]
A bent portion 72 that is bent in a direction perpendicular to the longitudinal direction of the inner housing 5 along a front edge portion of the outer housing 7, 7 ′ facing the cable side fitting portion 52 of the inner housing 5. 72 'are formed. The outer housing members 7, 7 'are brought into contact with the inner housing 5 by elastically pressing the bent portions 72, 72' against the upper surface and the lower surface formed on the plane of the fitting portion 52 of the inner housing 5, respectively. Electrically. Further, the mechanical strength of the cable-side fitting portion 52 when the cable-side connector 10 is fitted to the board-side connector 8 is increased by the bent portions 72 and 72 '. Therefore, the deformation such that the cable-side fitting portion 52 is expanded by being fitted to the board-side fitting portion 20 is suppressed, and the stability of the electrical connection between the cable-side connector 10 and the board-side connector 8 is maintained. It is. The housing of the board-side connector 8 is connected to a metal housing as a ground of an electronic device (not shown).
[0036]
Even if the bent portions 72 and 72 ′ are deformed in a direction in which the cable-side fitting portion 52 is slightly pushed and spread by the fitting with the board-side connector 8, the bent portions 72 and 72 ′ are always deformed by the elastic force to the cable-side fitting portion 52. The state of connection with the inner housing 5 can be maintained.
[0037]
It is preferable that the number of portions where the bent portions 72, 72 'come into contact with the inner housing 5 is as large as possible. This is because the impedance of the entire connector can be reduced as the number of contact portions increases, and the generation of radiation noise can be suppressed. Further, since the gap between the outer housings 7, 7 'and the inner housing 6 can be reduced, it is also useful for suppressing radiation noise leaking from the gap.
[0038]
As described above, the shielded cable connector of the present embodiment is electrically connected to the inner housing 6 and the housing of the board-side connector 8 in a state of being connected to the board-side connector 8 provided on the printed circuit board 9 of the electronic device. And the electrical connection between the inner housing 6 and the outer housings 7 and 7 'is simultaneously ensured and stable. As a result, the shield member 2 is electrically connected to the metal housing of the electronic device via the cable-side connector 10 and the board-side connector 8, so that the shield effect of the shielded cable 1 can be obtained. Further, a stable transmission waveform can be secured in signal transmission by the shielded cable 1, and noise radiated by the shielded cable 1 as an antenna can be stably suppressed to a low level.
[0039]
Although not shown in the present embodiment, a connector housing made of resin or the like may be provided further outside the outer housing members 7, 7 'to cover the outer housing members 7, 7'. In this case, a structure is generally adopted in which the entire outer housing members 7 and 7 'and the shield member 4 are all housed.
[0040]
[Second embodiment]
Next, FIGS. 3 and 4 are an exploded perspective view and a schematic sectional view showing the structure of a shielded cable with a connector according to a second embodiment of the present invention. Here, parts common or corresponding to FIGS. 1 and 2 for describing the first embodiment are denoted by common reference numerals, and description of parts common to the first embodiment is omitted.
[0041]
As shown in FIGS. 3 and 4, in the present embodiment, outwardly protruding convex portions 76, 76 ′ are provided on bent portions 72, 72 ′ provided at the front edges of the outer housing members 7, 7 ′. 'Are provided at two locations on each of the upper surface and the lower surface. The protrusions 76 and 76 ′ divide the connecting portions between the bent portions 72 and 72 ′ and the cable-side fitting portion 52 of the inner housing 5 into three portions at the front edges of the outer housing members 7 and 7 ′. ing. The convex portions 76, 76 'shorten the individual contact lengths of the bent portions 72, 72' with the inner housing 5 in the longitudinal direction, so that the mechanical strength and rigidity of the bent portions 72, 72 'are strengthened. Can be. In this embodiment, two convex portions 76 and 76 'are provided on the upper surface and the lower surface, respectively.
[0042]
According to the structure of the present embodiment, in order to connect the cable-side connector 10 to the board-side connector 8 of the connection partner, the cable-side fitting portion 52 is connected to the board-side fitting portion 20 as compared with the first embodiment. When fitted, the restraining force of the bent portions 72 and 72 ′ for suppressing the deformation of the cable side fitting portion 52 is increased compared to the first embodiment, and the electrical connection between the cable side connector 10 and the board side connector 8 is made. Can be further improved in stability.
[0043]
Since the bent portions 72 and 72 ′ are pressed against the upper surface and the lower surface of the cable side fitting portion 52 of the inner housing 5 at a plurality of locations along the width direction of the cable side fitting portion 52, The instability of the electrical connection due to the one-side contact of the curved portions 72, 72 'with the fitting portion 52 is also eliminated. In addition, since the deformation of the bent portions 72, 72 'themselves is suppressed, the stability of the electrical connection between the outer housing members 7, 7' and the inner housing 5 is also improved.
[0044]
[Third Embodiment]
Next, FIGS. 5 and 6 are an exploded perspective view and a schematic sectional view showing the structure of a shielded cable with a connector according to a third embodiment of the present invention. Here, parts common or corresponding to FIGS. 1 and 2 for describing the first embodiment are denoted by common reference numerals, and description of parts common to the first embodiment is omitted.
[0045]
As shown in FIGS. 5 and 6, in the present embodiment, in each of the outer housing members 7 and 7 ′, the outer housing members 7 and 7 ′ extend along the front edge of the inner housing 5 facing the fitting portion 52. Plate-like connection members 11 and 11 ′ made of a conductive metal plate and separately formed are attached by means such as welding or bonding. The leaf spring-like connecting members 11, 11 'are bent toward the inside of the outer housing members 7, 7', and a plurality of arc-shaped curved teeth 111, 111 'are provided at predetermined intervals along the longitudinal direction. Is formed.
[0046]
According to such a structure of the third embodiment, in a state where the outer housing members 7, 7 'are connected, as shown in FIG. ′ Are elastically pressed against the upper surface and the lower surface of the cable-side fitting portion 52 of the inner housing 5 at a plurality of locations, so that the outer housing members 7 and 7 ′ reliably electrically And the mechanical strength of the cable side fitting portion 52 is reinforced, and its deformation is suppressed.
[0047]
In this embodiment, the connection members 11, 11 'are formed separately from the outer housings 7, 7' as compared with the first embodiment, so that the connection members 11, 11 'may be damaged or elastically deformed. If the force changes over time, it can be easily replaced and the life of the cable can be extended.
[0048]
[Fourth embodiment]
Next, FIGS. 7 and 8 are an exploded perspective view and a schematic sectional view showing the structure of a shielded cable with a connector according to a fourth embodiment of the present invention. Here, parts common or corresponding to FIGS. 1 and 2 for describing the first embodiment are denoted by common reference numerals, and description of parts common to the first embodiment is omitted.
[0049]
As shown in FIGS. 7 and 8, in the present embodiment, each of the outer housing members 7, 7 ′ is bent toward the inside of the outer housing members 7, 7 ′ in a sawtooth shape along the front edge thereof. Bent portions 77 and 77 'are formed.
[0050]
According to such a structure of the fourth embodiment, the bent portions 77, 77 'of the outer housing members 7, 7' in a state where the outer housing members 7, 7 'are connected, as shown in FIG. Are elastically pressed against each of the upper surface and the lower surface of the fitting portion 52 of the inner housing 5 at a plurality of locations, so that the outer housing members 7 and 7 ′ are electrically connected to the inner housing 5. The mechanical strength of the fitting portion 52 is reinforced, and its deformation is suppressed.
[0051]
In the present embodiment, the bent portions 77, 77 'of the outer housing members 7, 7' are saw-toothed and have sharpened tips compared to the first embodiment, so that the fitting portion 52 of the inner housing 5 is formed. Even if the surface of the bent portion is in a state where it is difficult to conduct due to the formation of an oxide film or an oil film, the tips of the bent portions 77 and 77 ′ may cut through the films and come into contact with the metal portion of the fitting portion 52. This also has the advantage that conduction is sufficiently ensured.
[0052]
Note that the shapes of the bent portions 77 and 77 ′ having a sawtooth shape and a sharp tip in the present embodiment may be adopted as a modification of the above-described second embodiment and a modification of the third embodiment. it can.
[0053]
[Fifth Embodiment]
Next, FIGS. 9 and 10 are an exploded perspective view and a schematic sectional view showing the structure of a shielded cable with a connector according to a fifth embodiment of the present invention. Here, parts common or corresponding to FIGS. 1 and 2 for describing the first embodiment are denoted by common reference numerals, and description of parts common to the first embodiment is omitted.
[0054]
As shown in FIGS. 9 and 10, in the present embodiment, in each of the outer housing members 7 and 7 ′, along the front edge of the inner housing 5 facing the cable side fitting portion 52, Bent portions 78, 78 'that bend in a direction perpendicular to the direction are formed. The bent portions 78, 78 'are bent shallower than the bent portions 72, 72' of the first embodiment. The connection members 12, 12 'are sandwiched between the upper and lower surfaces of the cable side fitting portion 52 of the inner housing 5 and the bent portions 78, 78' of the outer housing members 7, 7 ', respectively. The connection members 12 and 12 ′ are pin array members in which a plurality of pins made of a conductive metal are arranged in parallel with a resin or the like, and have rigidity. Note that the connection members 12 and 12 'are the same and common members, and although only one is shown in FIG. 9, one is provided on each of the upper surface and the lower surface.
[0055]
According to the present embodiment, the mechanical strength of the cable-side fitting portion 52 is further reinforced and the deformation thereof is suppressed as compared with the above-described first to fourth embodiments. And the stability of the electrical connection with the device becomes more reliable.
[0056]
By forming the connection members 12 and 12 ′ in a pin array shape, electrical connection is made at a plurality of locations along the longitudinal direction to each of the upper surface and the lower surface of the cable-side fitting portion 52 of the inner housing 5. Therefore, the instability of the electrical connection due to the one-side contact is also eliminated.
[0057]
It should be noted that the pin array-like connecting members 12, 12 'of the present embodiment can be adopted as a modification of the above-described second to fourth embodiments.
[0058]
[Sixth Embodiment]
Next, FIGS. 11 and 12 are an exploded perspective view and a schematic sectional view showing the structure of a shielded cable with a connector according to a sixth embodiment of the present invention. Here, parts common or corresponding to FIGS. 1 and 2 for describing the first embodiment are denoted by common reference numerals, and description of parts common to the first embodiment is omitted.
[0059]
As shown in FIGS. 11 and 12, in the present embodiment, similarly to the fifth embodiment, along the front edges of the outer housing members 7 and 7 ′, perpendicular to the longitudinal direction of the inner housing 5. Bent portions 78, 78 'that bend in different directions are formed. A structure is adopted in which the connection members 13, 13 'are sandwiched between the upper and lower surfaces of the fitting portion 52 of the inner housing 5 and the bent portions 78, 78' of the outer housing members 7, 7 '. The connection members 13 and 13 ′ are plate spring-like members formed of a conductive metal plate, and have protrusions 131 and 131 ′ that are vertically cut at a plurality of locations. The connection members 13 and 13 'are the same and common members, and although only one is shown in FIG. 11, one is provided on each of the upper surface and the lower surface.
[0060]
According to the present embodiment, in a state where the outer housing members 7, 7 'are connected, the bent portions 78, 78' elastically press the connection members 13, 13 'inward, and the connection members 13, 13' are elastically pressed. ′ Are pressed against the upper and lower surfaces of the cable-side fitting portion 52 of the inner housing 5. Thus, even if the cable-side fitting portion 52 is deformed when the cable-side fitting portion 52 of the inner housing 5 is fitted with the connector 8 on the board side, the bent portions 78 and 78 'follow the deformation. Thus, a stable electrical connection state can be maintained. Further, since the mechanical strength of the cable side fitting portion 52 is reinforced, the cable side fitting portion 52 suppresses deformation, and the fitting between the cable side fitting portion 52 and the connector 8 on the board side is stably and reliably performed. Can do it. Note that the plate spring-shaped connection members 13 and 13 'of the present embodiment can also be adopted as modifications of the above-described second to fourth embodiments.
[0061]
[Seventh embodiment]
Next, FIGS. 13 and 14 are an exploded perspective view and a schematic sectional view showing the structure of a shielded cable with a connector according to a seventh embodiment of the present invention. Here, parts common or corresponding to FIGS. 1 and 2 for describing the first embodiment are denoted by common reference numerals, and description of parts common to the first embodiment is omitted.
[0062]
As shown in FIGS. 13 and 14, in the present embodiment, outwardly projecting convex portions 791, 791 are provided on bent portions 79, 79 ′ provided at the front edges of the outer housing members 7, 7 ′. Are provided at a plurality of locations on the upper surface and the lower surface at regular intervals. The projections 791 and 791 'divide the connection between the bent portions 79 and 79' and the cable-side fitting portion 52 of the inner housing 5 into a plurality of portions at the front edges of the outer housing members 7 and 7 '. are doing. The convex portions 791 and 791 'reduce the length of contact of the bent portions 79 and 79' with the inner housing 5 in the longitudinal direction, so that the mechanical strength and rigidity of the bent portions 79 and 79 'are reinforced. Can be. Gaskets 14, 14 'as connecting members made of conductive rubber are provided between the upper and lower surfaces of the fitting portion 52 of the inner housing 5 and the bent portions 79, 79' of the outer housing members 7, 7 ', respectively. Adopts a sandwiching structure. The gaskets 14 and 14 'are the same and common members. Although only one gasket is shown in FIG. 13, one gasket is provided on each of the upper surface and the lower surface.
[0063]
According to the structure of the present embodiment, the bent portions 79, 79 'elastically press the gaskets 14, 14' inward in a state where the outer housing members 7, 7 'are connected, and the gaskets 14, 14' are elastically pressed. 'Presses against the upper and lower surfaces of the fitting portion 52 of the inner housing 5 respectively. As a result, the outer housing members 7, 7 'are electrically connected to the inner housing 5, and the mechanical strength of the fitting portion 52 is reinforced, and the deformation thereof is suppressed. Thereby, even if the cable side fitting part 52 is deformed when the cable side fitting part 52 of the inner housing 5 is fitted with the connector 8 on the board side, the bent parts 79 and 79 ′ follow the deformation. Thus, a stable electrical connection state can be maintained. Further, since the mechanical strength of the cable side fitting portion 52 is reinforced, the cable side fitting portion 52 suppresses deformation, and the fitting between the cable side fitting portion 52 and the connector 8 on the board side is stably and reliably performed. Can do it.
[0064]
Note that the gaskets 14, 14 'of the present embodiment can also be adopted as modifications of the above-described second to fourth embodiments.
[0065]
[Eighth Embodiment]
Next, FIGS. 15 and 16 are schematic cross-sectional views showing the structure of the outer housing of the shielded cable with connector according to the eighth embodiment of the present invention and the connection portion of the shielded cable. Here, portions common or corresponding to the first embodiment are denoted by common reference numerals, and description of portions common to the first embodiment is omitted.
[0066]
In the present embodiment, in addition to the first to seventh embodiments, the connection between the shielded cable 1 and the outer housings 7 and 7 ′ is more reliably performed, and the shield member 2 of the shielded cable 1 is connected to the board of the electronic device. This ensures that all the electrical connections between the respective members up to the housing of the side connector 8 are reliably performed.
[0067]
In FIG. 15, clamp portions 74, 74 'for clamping the shielded cable 1 and preventing the shield cable 1 from coming off are integrally formed at the rear ends of the outer housing members 7, 7'. A cable inlet 80 for introducing the shielded cable 1 is formed at a root portion of the clamp portions 74, 74 'extending from the outer housing members 7, 7'.
[0068]
The clamp members 74 and 74 'clamp and hold the shield member 2 of the shield cable 1 to prevent the shield cable 1 from coming off from the cable side connector 10, and between the external housing members 7, 7' and the shield member 2. Electrical continuity can be obtained.
[0069]
In the present embodiment, a stable low noise property can be obtained by forming the distal end portion 81 of the shield member 2 from which the core wire 3 is exposed into the inside of the metal outer housing members 7 and 7 '. That is, the core wire 3 is not exposed to the outside of the external housing members 7, 7 ', and the capacitive coupling generated between the signal line 7 and the external housing members 7, 7' bypasses the high frequency current, which is a noise source, and radiates. The generation of noise can be prevented.
[0070]
FIG. 16 shows the structure of the cable inlet 80 of the outer housing members 7, 7 '. FIG. 16 shows the cable inlet 80 from the rear in a state where the outer housing members 7 and 7 ′ are combined vertically.
[0071]
Here, the cable inlet 80 is formed in a rectangular shape whose one side is smaller than the diameter of the shield member 2. Therefore, when the shielded cable 1 is assembled to the outer housing members 7, 7 'in a state in which the distal end portion 81 of the shield member 2 is kept in the external housing members 7, 7', the shield member 2 is deformed and the cable It comes into contact with the inlet 80.
[0072]
As described above, the cable inlet 80 is formed in a rectangular shape whose one side is smaller than the diameter of the shield member 2, and the shield member 2 is brought into contact with the cable inlet 80, so that the shield member 2 and the cable inlet 80 are securely contacted. As a result, the conductivity between the outer housing members 7 and 7 'and the shield member 2 can be improved, and the shielding performance of the outer housing members 7 and 7' can be improved by a simple and inexpensive configuration to obtain further low radiation noise. Can be.
[0073]
[Ninth embodiment]
FIG. 17 is a schematic sectional view showing the structure of the outer housing of the shielded cable with connector and the connection part of the shielded cable according to the ninth embodiment of the present invention. In this state, the portion of the cable inlet 80 is shown from behind. Here, parts common or corresponding to the eighth embodiment are denoted by common reference numerals, and description of parts common to the eighth embodiment is omitted.
[0074]
In the present embodiment, the cable inlet 80 has a circular diameter substantially the same as the diameter of the shield member 2, and is further formed with a projection 82 extending inward. Here, the number of the projections 82 is four, but the number of the projections 82 may be any number as long as it is one or more. When the shield cable 1 is assembled to the outer housing members 7 and 7 ′ in a state where the distal end portion 81 of the shield member 2 is located inside the outer housing members 7 and 7 ′, the shield member 2 is deformed by the projections 82. Thus, the outer housing members 7 and 7 ′ can be brought into contact with the shield member 2 at the projections 82. By reliably conducting between the shield member 2 and the cable inlet 80, the conductivity between the outer housing members 7, 7 'and the shield member 4 is improved, and the shielding properties of the outer housing members 7, 7' can be improved. , Radiation noise can be suppressed.
[0075]
[Tenth embodiment]
FIG. 18 is a schematic sectional view showing the structure of the outer housing of the shielded cable with connector according to the tenth embodiment of the present invention and the connection part of the shielded cable, and the outer housing members 7, 7 'are vertically combined. In this state, the portion of the cable inlet 80 is shown from behind. Here, parts common or corresponding to the eighth embodiment are denoted by common reference numerals, and description of parts common to the eighth embodiment is omitted.
[0076]
In the present embodiment, the cable inlet 80 has a shape in which sawtooth-shaped protrusions 83 having substantially the same diameter as the shield member 2 are arranged in a circle. Therefore, when the shielded cable 1 is assembled to the outer housing members 7, 7 'while maintaining the positional relationship between the distal end of the shield member 2 and the outer housing members 7, 7', the inside of the outer housing members 7, 7 ' A certain shield member 2 comes into contact at multiple points by the projections 83, thereby making the shield member 2 and the cable inlet 80 more surely in contact with each other, and the conductivity between the external housing members 7, 7 'and the shield member 2 is improved. By improving the shielding properties of the outer housing members 7, 7 ', low radiation noise can be obtained.
[0077]
【The invention's effect】
As described above, the shielded cable with a connector of the present invention can secure a stable transmission waveform in signal transmission by the shielded cable, and can stably suppress noise radiated by the cable as an antenna.
[0078]
Further, according to the present invention, in a shielded cable with a connector in which a connector in which a conductive housing is divided into an inner housing and an outer housing is connected to an end, the connector is fitted and connected to a board-side connector of a connection partner. In this state, the electrical connection between the inner housing and the outer housing can be reliably established. At the same time, the deformation of the fitting portion of the inner housing fitted to the connector of the connection partner can be suppressed, and the electrical connection with the connector of the connection partner can be stabilized. As a result, an excellent effect is obtained such that a stable transmission waveform can be ensured in signal transmission using a shielded cable, and noise can be stably suppressed to a low level even when noise radiated by the cable serving as an antenna is specified.
[0079]
Further, in the present invention, in addition to a stable electrical connection between the inner housing and the outer housing and a stable electrical connection between the inner housing and the mating connector, the end of the shield member is connected to the cable inlet at the rear of the connector housing. By adopting a configuration located on the inner side than the above, and a configuration in which the cable inlet and the cable member are in direct contact at one or more points and are electrically conductive, the conductivity between the connector housing and the shield member can be improved. Out. This makes it possible to reliably perform all the electrical connection states between the members from the shield member of the shielded cable to the housing of the board-side connector of the electronic device, so that the shield effect can be reliably and stably obtained. And radiation noise can be suppressed. Also, the extremely simple and inexpensive structure prevents the signal line from being exposed outside the connector housing, and the capacitive coupling between the connector housing and the signal line can reduce radiated noise from the shielded cable and the periphery of the connector.
[0080]
Further, the cable inlet is formed in a rectangular shape whose one side is smaller than the diameter of the shield member, and the cable inlet and the cable braid are in direct contact at one or more points and are electrically connected to each other. The electrical connection between the connector housing and the shield braid can be improved by reliably contacting the cable inlet, and the shield performance of the connector housing can be improved by a simple and inexpensive configuration, and further low radiation noise can be obtained.
[0081]
Further, the cable inlet is formed to have substantially the same size as the diameter of the cable member, and one or more protrusions are provided at the edge of the cable inlet, and the cable inlet and the cable braid are provided through the protrusions. Direct contact and electrical conduction, the shield braid and the cable inlet can be securely contacted, and the conductivity between the connector housing and the shield braid can be improved. It is possible to improve and obtain further low radiation noise.
[0082]
Furthermore, the configuration in which a large number of the protrusions are provided at the edges of the cable introduction port in a sawtooth shape ensures that the shield braid and the cable introduction port are in contact with each other, thereby improving the conductivity between the connector housing and the shield braid, With a simple and inexpensive configuration, the shielding performance of the connector housing can be improved, and further low radiation noise can be obtained.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view showing a structure of a shielded cable with a connector according to a first embodiment of the present invention.
FIG. 2 is a schematic cross-sectional view showing a structure of the shielded cable with the connector and a state of connection of the connector.
FIG. 3 is an exploded perspective view showing a structure of a shielded cable with a connector according to a second embodiment.
FIG. 4 is a schematic cross-sectional view showing a structure of the shielded cable with the connector and a state of connection of the connector.
FIG. 5 is an exploded perspective view showing a structure of a shielded cable with a connector according to a third embodiment.
FIG. 6 is a schematic cross-sectional view showing a structure of the shielded cable with the connector and a state of connection of the connector.
FIG. 7 is an exploded perspective view showing a structure of a shielded cable with a connector according to a fourth embodiment.
FIG. 8 is a schematic cross-sectional view showing a structure of the shielded cable with the connector and a state of connection of the connector.
FIG. 9 is an exploded perspective view illustrating a structure of a shielded cable with a connector according to a fifth embodiment.
FIG. 10 is a schematic cross-sectional view showing a structure of the shielded cable with the connector and a state of connection of the connector.
FIG. 11 is an exploded perspective view showing a structure of a shielded cable with a connector according to a sixth embodiment.
FIG. 12 is a schematic cross-sectional view showing a structure of the shielded cable with the connector and a state of connection of the connector.
FIG. 13 is an exploded perspective view showing a structure of a shielded cable with a connector according to a seventh embodiment.
FIG. 14 is a schematic cross-sectional view showing a structure of the shielded cable with the connector and a state of connection of the connector.
FIG. 15 is a side sectional view showing a configuration of a coupling portion between a shielded cable and a connector of a shielded cable with a connector according to an eighth embodiment;
FIG. 16 is a rear view showing a configuration of a cable introduction portion of a shielded cable with a connector according to an eighth embodiment.
FIG. 17 is a rear view illustrating a configuration of a cable inlet of a shielded cable with a connector according to a ninth embodiment;
FIG. 18 is a rear view showing a configuration of a cable introduction portion of a shielded cable with a connector according to a tenth embodiment.
[Explanation of symbols]
1 shielded cable
2 Shield member
3 core wire
4 jacket
5 Inner housing
6 Connector electrode
7,7 'outer housing
8 Board side connector
9 Printed circuit board
10 Cable side connector
11, 11 'leaf spring-like connecting member
12,12 'pin array-like connecting member
13, 13 'leaf spring-like connecting member
14,14 'gasket
20 Board side mating part
52 Cable side mating part
53 Holding member
61 Electrode connection terminal
72, 72 ', 77, 77', 78, 78 ', 79, 79' bent part
73 Through hole
73 'projection
74, 74 'Clamp section
80 Cable inlet
82,83 projection

Claims (12)

In a shielded cable with a connector in which a connector is coupled to an end of a shielded cable formed by covering a plurality of core wires with a shielding member,
A conductive inner housing having an electrode portion provided with a plurality of electrodes connected to the plurality of core wires, and a fitting portion fitted to a connector to be connected to the connector, and having the electrode portion inside When,
When the fitting portion is fitted with a connector to which the connector is to be connected, the fitting of the inner housing is performed by a conductive connecting portion having elasticity in a direction to suppress deformation of the fitting portion from being expanded. A conductive outer housing that is connected to the joint portion and accommodates a core wire exposed from the shielded cable,
The outer housing is arranged so that the end of the shield member is located inside the cable inlet at the rear of the outer housing, and the shield of the shielded cable is provided by a conductive clamp provided at the rear end of the outer housing. A shielded cable with a connector, characterized in that the shield member is clamped and electrically connected. The connecting part according to claim any preceding claim connector shielded cables, characterized in that formed on another member and the outer housing and the inner housing. It said connecting portion has a bent portion in a direction perpendicular to the longitudinal direction of the inner housing, claim paragraphs 1 through the second term that is connected to the fitting portion of the inner housing by the elastic force of the bent portion Shielded cable with connector as described. The connecting part according to claim paragraphs 1 through the second claim of the connector with shielded cable is a member of the conductive plate spring. The connecting portion is a connector shielded cable formed by being claim paragraphs 1 through wherein the second term in contact at a plurality of positions of the fitting portion of the inner housing. The shielded cable with a connector according to claim 5, wherein the connection portion is formed in a sawtooth shape. 6. The shielded cable with a connector according to claim 5, wherein said connection member is a pin array-shaped member in which a plurality of pins made of a conductive metal are integrated in parallel. The shielded cable with a connector according to claim 2, wherein the connection member is a gasket made of conductive rubber. 2. The shielded cable with a connector according to claim 1, wherein the cable inlet and the shield member are in contact with each other at at least one point and are electrically connected. 2. The cable inlet according to claim 1, wherein the cable inlet is formed in a rectangular shape, one side of which is smaller than the diameter of the shield member, and the cable inlet and the shield member are in contact with at least one point to be electrically conductive. Shielded cable with connector. The cable inlet is formed to have substantially the same size as the diameter of the shield member, and one or more protrusions are provided at the edge of the cable inlet, through which the cable inlet and the cable braid are directly connected. 2. The shielded cable with a connector according to claim 1, wherein the shielded cable is in contact with and electrically conducted. The shielded cable with a connector according to claim 11, wherein a large number of the protrusions are provided in a sawtooth shape at an edge of the cable inlet.

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