JP6778903B2 - Coaxial cable outlet - Google Patents

Description

The present disclosure relates generally to coaxial cable outlets, and more specifically to coaxial cable outlets to which coaxial cables are connected.

For example, in the field of television broadcasting, there are a star wiring system and a feed wiring system (series wiring system) as wiring methods from a television antenna to a plurality of television receivers. In the star wiring method, a TV outlet that electrically connects the input side coaxial cable and the output side coaxial cable with terminal fittings is used. In the feed wiring method, a TV outlet for feed wiring and a TV outlet for terminals are used.

Here, with the recent increase in ultra-high definition of television broadcasting, the IF frequency band of the received signal supplied to the television outlet has been widened to 3.224 GHz. However, since this band overlaps with the band of other communication services such as wireless LAN, noise due to interference is likely to occur.

For example, Patent Document 1 discloses a television outlet that is used in a star wiring system and can secure a shielding property against external noise.

JP-A-2017-103122

However, the TV outlet of Patent Document 1 cannot be connected to the feed wiring side coaxial cable for feed wiring, and when used as a feed wiring type terminal, reflected noise is generated. Therefore, feed wiring The method cannot be realized.

The present disclosure has been made in view of the above reasons, and an object of the present invention is to provide a coaxial cable outlet which is used in a feed wiring method and can secure a shielding property against electromagnetic waves.

The coaxial cable outlet according to one aspect of the present disclosure includes an input side terminal portion, a terminal block, a housing, a circuit board, and a conductive member . The first conductor of the input side coaxial cable having the first conductor and the second conductor is connected to the input side terminal portion. The terminal block is electrically insulated from the input side terminal portion, and comes into contact with the second conductor of the input side coaxial cable in a connected state in which the first conductor is connected to the input side terminal portion. The housing is made of metal. The housing is electrically connected to the terminal block and has an internal space for accommodating the input side terminal portion. The circuit board is housed before Symbol interior space. The housing includes a body and a cover. The body has an open mouth. The cover is coupled to the body by a coupling structure. The cover is coupled to the body so as to cover the first conductor and the second conductor of the input-side coaxial cable in the connected state and cover the opening of the body. The internal space is adjacent to the first space in which the input side terminal portion is arranged and the first space in which the input side terminal portion is not arranged when viewed from the extension direction of the input side coaxial cable in the connected state. Includes 2 spaces. The conductive member is between the body and the cover in the second space.
The coaxial cable outlet according to one aspect of the present disclosure includes an input side terminal portion, a feed side terminal portion, an output side terminal portion, a terminal plate, a circuit board, and a housing. The input-side terminal portion is electrically connected to the core wire of the input-side coaxial cable. The feed-side terminal portion is electrically connected to the core wire of the feed-side coaxial cable. The output-side terminal portion is electrically connected to the core wire of the F-type connector of the output-side coaxial cable. The terminal plate is electrically connected to the braided wire of the input side coaxial cable and the braided wire of the feed side coaxial cable. An electric circuit is formed on the circuit board. The housing has an internal space in which the circuit board is housed. The input side terminal portion and the output side terminal portion are electrically connected. The input side terminal portion and the feed side terminal portion are electrically connected via the electric circuit. The housing has a metal body and a metal cover coupled to the body. The coaxial cable outlet further includes an elastic conductive member that electrically connects the terminal plate and the body.

The coaxial cable outlet of the present disclosure is used in a feed wiring method, and has an advantage that it is possible to secure a shielding property against electromagnetic waves.

FIG. 1 is a perspective view of the coaxial cable outlet according to the first embodiment of the present disclosure as viewed from the upper left front. FIG. 2 is a perspective view of the same coaxial cable outlet as viewed from the lower left front. FIG. 3 is a perspective view of the same coaxial cable outlet as viewed from the lower left rear. FIG. 4 is a cross-sectional view of a state in which the input side coaxial cable is connected to the input side terminal portion of the coaxial cable outlet of the same. FIG. 5 is an exploded perspective view of the coaxial cable outlet as seen from the upper right front. FIG. 6 is a front view of the same coaxial cable outlet. FIG. 7 is a bottom view of the same coaxial cable outlet. FIG. 8 is a top view of the same coaxial cable outlet. FIG. 9 is a rear view of the same coaxial cable outlet. FIG. 10 is an exploded perspective view of the main part of the coaxial cable outlet as seen from the upper right front. FIG. 11 is a perspective view of the body of the coaxial cable outlet as seen from the lower left rear. FIG. 12 is viewed from the lower left rear with the circuit board, the input side terminal portion, the output side terminal portion, the feed side terminal portion, the first conductive member, and the second conductive member attached to the body of the coaxial cable outlet as described above. It is a perspective view. FIG. 13 is a perspective view seen from the lower left rear in a state where the terminal plate, the terminal cover, the first conductive member, and the second conductive member are attached to the body of the same coaxial cable outlet. FIG. 14 is a perspective view seen from the upper left front in a state where the first receiving metal fitting, the second receiving metal fitting, the third conductive member, and the fourth conductive member are attached to the cover of the coaxial cable outlet of the same. FIG. 15 is a side view of a main part of the same coaxial cable outlet as shown in a state where the cover is opened. FIG. 16 is a perspective view of the same coaxial cable outlet as above with the input side coaxial cable and the sending side coaxial cable connected. FIG. 17 is a cross-sectional view of a state in which the sending side coaxial cable is connected to the sending side terminal portion of the same coaxial cable outlet. FIG. 18 is a perspective view of the coaxial cable outlet according to the second embodiment of the present disclosure as viewed from the lower left front. FIG. 19 is a perspective view of the same coaxial cable outlet as viewed from the lower left rear. FIG. 20 is an exploded perspective view of the coaxial cable outlet as seen from the upper right front. FIG. 21 is a perspective view of the same coaxial cable outlet as above with the input side coaxial cable connected.

Hereinafter, the coaxial cable outlet according to the embodiment of the present disclosure will be described. The following embodiments are merely examples of the various embodiments of the present disclosure. The following embodiments can be variously modified according to the design and the like as long as the object of the present disclosure can be achieved. In the following description, the direction from the cover 62 of the housing 6 (see FIG. 5) toward the body 61 is forward, and the direction in which the input side coaxial cable 20 is inserted into the input side terminal portion 3 (see FIG. 2) is upward. In addition, the direction orthogonal to the front-back and up-down directions is defined as the left-right direction. However, the directions of front, back, up, down, left, and right are used for convenience only for the sake of explanation, and do not mean to specify the direction of use of the coaxial cable outlet according to the embodiment.

(1) Embodiment 1
(1-1) Outline The coaxial cable outlet 100 of the present embodiment is a television outlet for feed wiring (relay) used in the feed wiring method. When the coaxial cable outlet 100 is mounted on a wall surface, the front surface where the output side terminal portion 3 (see FIG. 1) is exposed faces the indoor side, and the input side terminal portion 2 and the feed side terminal portion 4 are on the back side of the wall. Installed to be located.

As shown in FIGS. 1 to 9, the coaxial cable outlet 100 includes an input side terminal portion 2 and an output side terminal portion 3. The core wire 21 of the coaxial cable (input side coaxial cable) 20 for inputting a television signal is connected to the input side terminal portion 2. The core wire 31 of the coaxial cable (output side coaxial cable) 30 for outputting a television signal is connected to the output side terminal portion 3. The coaxial cable outlet 100 of the present embodiment further includes a feed side terminal portion 4. The core wire 41 of the sending side coaxial cable 40 for transmitting the television signal from the input side coaxial cable 20 to another television outlet is connected to the sending side terminal portion 4.

Each of the input side coaxial cable 20, the output side coaxial cable 30, and the feed side coaxial cable 40 has an inner conductor, an insulator covering the inner conductor, an outer conductor covering the insulator, and a sheath covering the outer conductor. I have. In each of the input side coaxial cable 20, the output side coaxial cable 30, and the sending side coaxial cable 40, the inner conductor, the insulator, the outer conductor, and the sheath are coaxial (concentric) in a cross section orthogonal to the extension direction of the cable. It is located in. The inner conductor comprises, for example, a copper wire. The insulator is made of, for example, foamed polyethylene. The insulator electrically insulates the inner conductor and the outer conductor. The outer conductor includes, for example, a so-called braided wire obtained by knitting a thin copper wire. The outer conductor may be provided with a metal foil, or may be provided with a braided wire provided coaxially (concentrically) and a metal foil. As an example, aluminum foil is used as the metal foil.

Hereinafter, the inner conductor (core wire 21) of the input side coaxial cable 20 is also referred to as a first conductor, and the outer conductor 210 (see FIG. 2) is also referred to as a second conductor. Further, the inner conductor (core wire 41) of the feed-side coaxial cable 40 is also referred to as a third conductor, and the outer conductor 410 is also referred to as a fourth conductor.

As shown in FIGS. 4 and 5, the coaxial cable outlet 100 of the present embodiment further includes a terminal plate 5, a housing 6, and a circuit board 7.

In the terminal board 5, the terminal block (first terminal block) 51 and the second terminal block 52 (see FIG. 3) are integrally formed of a metal plate.

The first terminal block 51 is electrically insulated from the input side terminal portion 2. As shown in FIG. 4, the first terminal block 51 is connected to the second conductor of the input side coaxial cable 20 in a state where the first conductor (core wire 21) of the input side coaxial cable 20 is inserted into the input side terminal portion 2. Contact.

The second terminal block 52 is electrically insulated from the feed side terminal portion 4. As shown in FIG. 17, the second terminal block 52 is connected to the fourth conductor of the sending side coaxial cable 40 in a state where the third conductor (core wire 41) of the sending side coaxial cable 40 is inserted into the sending side terminal portion 4. Contact.

The housing 6 is made of metal. The housing 6 has an internal space. The input side terminal portion 2 and the terminal plate 5 (first terminal block 51 and second terminal block 52) are housed in the internal space of the housing 6. Further, the feed side terminal portion 4 is housed in the internal space of the housing 6. The housing 6 is electrically connected to the terminal plate 5.

The circuit board 7 is electrically connected to the input side terminal portion 2. Specifically, the input side terminal portion 2 is electrically connected to the conductor of the circuit board 7. The circuit board 7 is electrically connected to the output side terminal portion 3. Specifically, the output side terminal portion 3 is electrically connected to the conductor of the circuit board 7. The input side terminal portion 2 and the output side terminal portion 3 are electrically connected to each other via a conductor of the circuit board 7. Further, the circuit board 7 is electrically connected to the feed side terminal portion 4. Specifically, the feed side terminal portion 4 is electrically connected to the conductor of the circuit board 7. The input side terminal portion 2 and the feed side terminal portion 4 are electrically connected to each other via a conductor of the circuit board 7.

The circuit board 7 is housed in the internal space of the housing 6. A circuit component 71 is mounted on the circuit board 7, and an electric circuit is formed by the circuit component 71 and a conductor formed on the circuit board 7. The electric circuit includes, for example, an amplifier circuit for amplifying an electric signal input from the input side coaxial cable 20 to the input side terminal portion 2, a branch circuit for branching the electric signal to the sending side terminal portion 4, and the like.

The housing 6 includes a body 61 and a cover 62.

The body 61 is formed in a hollow box shape having an opening on one surface. The input side terminal portion 2, the feed side terminal portion 4, and the terminal plate 5 are exposed from the opening of the body 61.

The cover 62 is coupled to the body 61 by the coupling structure 8. The cover 62 is coupled to the body 61 so as to cover the openings of the input side terminal portion 2, the feed side terminal portion 4, the terminal plate 5, and the body 61. Further, as shown in FIG. 4, the cover 62 covers the first conductor and the second conductor of the input side coaxial cable 20 in a state where the first conductor of the input side coaxial cable 20 is connected to the input side terminal portion 2. .. The input side coaxial cable 20 is sandwiched between the terminal plate 5 (first terminal block 51) and the cover 62. As shown in FIG. 17, the cover 62 covers the third conductor and the fourth conductor of the feed-side coaxial cable 40 in a state where the third conductor of the feed-side coaxial cable 40 is connected to the feed-side terminal portion 4. The feed-side coaxial cable 40 is sandwiched between the terminal plate 5 (second terminal block 52) and the cover 62.

Since the coaxial cable outlet 100 of the present embodiment includes the circuit board 7 provided with the electric circuit (here, the branch circuit) as described above, it can be used in the feed wiring method. Further, in the coaxial cable outlet 100, in a state where the first conductor of the input side coaxial cable 20 is connected to the input side terminal portion 2, the first conductor and the second conductor of the input side coaxial cable 20 are inside the metal housing 6. Is housed in. As a result, it is possible to improve the shielding property against electromagnetic waves. In the coaxial cable outlet of the present embodiment, the third conductor and the fourth conductor of the sending side coaxial cable 40 are made of metal in a state where the third conductor of the sending side coaxial cable 40 is connected to the sending side terminal portion 4. It is housed inside. As a result, it is possible to improve the shielding property against electromagnetic waves.

(1-2) Details The coaxial cable outlet 100 according to the present embodiment will be described in more detail with reference to FIGS. 1 to 17.

As described above, the coaxial cable outlet 100 includes an input side terminal portion 2, an output side terminal portion 3, a feed side terminal portion 4, a terminal plate 5, a housing 6, a circuit board 7, and a coupling structure 8. And have. The coaxial cable outlet 100 of the present embodiment further includes a conductive member 9 (see FIG. 4), an insulating cover 10, and a decorative cover 11.

As shown in FIG. 5, the housing 6 includes a body 61 and a cover 62. The cover 62 is coupled to the body 61 by the coupling structure 8. In this embodiment, the coupling structure 8 comprises a single screw 81.

The body 61 is made of metal and is die-cast zinc in this embodiment.

As shown in FIG. 11, the body 61 has a front wall 611 and four side walls rising rearward from the four sides of the front wall 611 (upper wall 612 as the first side wall, lower wall 613 as the second side wall, and third side wall. A right wall 614 as a side wall, a left wall 615 as a fourth side wall), and a mounting shaft 63 are integrally provided. The body 61 is formed in a hollow rectangular parallelepiped shape that is long in the left-right direction. The rear surface of the body 61 is open.

As shown in FIGS. 5 and 11, the central portion 6111 of the front wall 611 of the body 61 projects forward from the peripheral portion 6112, and a step is formed between the central portion 6111 and the peripheral portion 6112.

As shown in FIG. 11, a through hole 6110 that penetrates the front wall 611 back and forth is formed in the center of the front wall 611 of the body 61. The through hole 6110 is formed in a race track shape that is long in the vertical direction.

On the front surface of the front wall 611, a cylindrical mounting shaft 63 integrally protrudes from the edge of the through hole 6110. A screw thread to which an F-type connector can be connected is formed on the outer peripheral surface of the mounting shaft 63. The F-type connector of the output side coaxial cable 30 can be connected to the mounting shaft 63.

On the rear surface (inner surface) of the central portion 6111 of the front wall 611 of the body 61, a pair of protrusions 617 protruding rearward are formed on the left and right sides of the through hole 6110, and protrusions 6170 are formed from the rear surface of each protrusion 617. It protrudes backward. Further, on the rear surface of the central portion 6111 of the front wall 611 of the body 61, a total of three abutments 618 protruding rearward are formed at the boundary with the peripheral portion 6112, and the protrusions 6180 are formed from the rear surface of each abutment 618. Is protruding backward. One of the three pedestals 618 is located adjacent to the upper wall 612, and the remaining two of the three pedestals 618 are located adjacent to the lower wall 613 and side by side. ing.

On the rear surface of the peripheral portion 6112 of the front wall 611 of the body 61, a protrusion 619 (only the left side in the figure) protruding rearward is formed on each of the right side portion and the left side portion, and the rear surface of the protrusion 619. The protrusion 6190 protrudes rearward.

That is, on the rear surface of the front wall 611 of the body 61, a plurality of abutments 618 and 619 are provided at positions adjacent to the inner surfaces of the side walls (upper wall 612, lower wall 613, right wall 614, left wall 615) of the body 61. It is formed.

The tip surfaces of the plurality of abutments 617, 618, 619 (parts excluding protrusions 6170, 6180, 6190) are coplanar in the front-rear direction. The circuit board 7 is placed on the tip surfaces of the abutments 617, 618, and 619.

The upper wall 612 of the body 61 projects rearward from one upper side of the front wall 611. As shown in FIG. 5, a pair of left and right assembly protrusions 6120 project upward from the upper surface (outer surface) of the upper wall 612.

The lower wall 613 of the body 61 projects rearward from one lower side of the front wall 611. As shown in FIG. 11, a pair of left and right assembly protrusions 6130 project downward from the lower surface (outer surface) of the lower wall 613.

The right wall 614 of the body 61 projects rearward from one side on the right side of the front wall 611. The left wall 615 of the body 61 projects rearward from the left side of the front wall 611. As shown in FIG. 11, at the rear end of the right wall 614 and the rear end of the left wall 615, bearings 6140 and 6150 for receiving the support shaft 6260 (see FIG. 14) of the cover 62 are provided on the upper portion, respectively. Has been done.

The height of the lower wall 613 from the front wall 611 is lower than the height of the upper wall 612, the right wall 614, and the left wall 615. In other words, the trailing edge of the lower wall 613 is anterior to the trailing edges of the upper wall 612, the right wall 614 and the left wall 615.

As shown in FIG. 11, a step is formed on the inner surfaces of the upper wall 612, the lower wall 613, the right wall 614, and the left wall 615 at positions where the protrusion heights from the front wall 611 are equal to each other. The terminal plate 5 is placed on the step portion 610.

FIG. 12 shows that the circuit board 7, the input side terminal portion 2, the output side terminal portion 3, the feed side terminal portion 4, and the conductive member 9 (first conductive member 91, second conductive member 92) are attached to the body 61. Shows the state.

As shown in FIG. 12, the circuit board 7 is housed in the internal space of the body 61. Specifically, the circuit board 7 is placed on the abutments 617, 618, and 619 of the body 61 from the rear so that the thickness direction is along the front-rear direction. A pair of through holes 72 penetrate in the central portion of the circuit board 7 in the front-rear direction. Further, a plurality of (here, a total of 5) through holes 73 penetrate in the front-rear direction in the peripheral portion of the circuit board 7. When the circuit board 7 is placed on the abutments 617, 618, 619, each protrusion 6170 is inserted into the corresponding through hole 72, and each protrusion 6180, 6190 is inserted into the corresponding through hole 73. The circuit board 7 is fixed to the body 61 by soldering the protrusions 6170, 6180, and 6190. The protrusions 6170, 6180, and 6190 are soldered to the ground on the circuit board 7. That is, the circuit board 7 is bonded to the body 61 by a conductive coupling portion (solder) at a portion (a portion of the through hole 73) adjacent to the inner wall of the body 61.

As described above, the circuit board 7 is mounted with the circuit component 71. An electric circuit including an amplifier circuit, a branch circuit, and the like is formed by the circuit component 71 and the conductor formed on the circuit board 7.

As shown in FIG. 12, an insertion hole (insertion hole for output terminal) 74 is formed in the center of the circuit board 7. The base end portion of the output side terminal portion 3 is inserted into the insertion hole 74 from the front. The output side terminal portion 3 is soldered to the circuit board 7 and electrically connected to the electric circuit of the circuit board 7.

As shown in FIG. 10, the output side terminal portion 3 is composed of a pair of metal spring pieces. The output side terminal portion 3 penetrates through the through hole 6110 of the front wall 611 of the body 61 and projects forward from the front surface of the front wall 611, and the front end is located inside the mounting shaft 63.

An insulating holder 301 is arranged inside the mounting shaft 63 around the output side terminal portion 3. The holder 301 is arranged inside the through hole 6110 of the front wall 611 in the body 61, and is located on the inner surface of the through hole 6110 of the front wall 611 and between the mounting shaft 63 and the output side terminal portion 3 to output. The side terminal portion 3 and the body 61 are electrically insulated. Further, the holder 301 holds the output side terminal portion 3 so as to close the pair of spring pieces of the output side terminal portion 3.

An insulating tubular portion 302 is attached to the through hole 6110 of the front wall 611 of the body 61 so as to close the through hole 6110 and project forward. The tubular portion 302 has a cylindrical shape with a rear surface open and projecting forward. The tubular portion 302 is located inside the mounting shaft 63. The tubular portion 302 has a pair of hook pieces hooked on the edge of the through hole 6110 of the front wall 611 of the body 61 at the trailing edge. The output side terminal portion 3 and the holder 301 project forward in the mounting shaft 63 through the through hole 6110, and the tubular portion 302 projects the output side terminal portion 3 and the holder 301 protruding from the through hole 6110. , Covering from the front.

An insertion hole 3020 (see FIG. 1) is formed in the center of the front surface of the tubular portion 302. The core wire 31 of the output side coaxial cable 30 can be inserted into the insertion hole 3020. The core wire 31 of the output-side coaxial cable 30 inserted into the tubular portion 302 through the insertion hole 3020 is sandwiched between the output-side terminal portions 3. As a result, the core wire 31 of the output-side coaxial cable 30 and the output-side terminal portion 3 are electrically connected.

As shown in FIG. 12, the base end portion of the input side terminal portion 2 is connected to the upper end of the right side portion of the circuit board 7.

The input side terminal portion 2 is made of metal. The base end portion of the input side terminal portion 2 is soldered to the circuit board 7 and is electrically connected to the electric circuit of the circuit board 7. The input side terminal portion 2 projects rearward from the circuit board 7, and a pair of spring pieces 22 projecting downward are provided at the tip end portion (rear end portion) thereof.

The base end portion of the feed side terminal portion 4 is connected to the upper end of the left side portion of the circuit board 7. The feed side terminal portion 4 is connected to the circuit board 7 at a position symmetrical to the input side terminal portion 2 with respect to a virtual surface passing through the center in the left-right direction of the circuit board 7 and parallel to the thickness direction of the circuit board 7. ing.

The feed side terminal portion 4 is made of metal. The base end portion of the feed side terminal portion 4 is soldered to the circuit board 7 and is electrically connected to the electric circuit of the circuit board 7. The feed-side terminal portion 4 projects rearward from the circuit board 7, and a pair of spring pieces 42 projecting downward are provided at the tip end portion (rear end portion) thereof.

In a state where the circuit board 7 is mounted on the abutments 617, 618, 619, the spring piece 22 of the input side terminal portion 2 and the spring piece 42 of the feed side terminal portion 4 are from the trailing edge of the lower wall 613 of the body 61. Also protrudes backward.

FIG. 13 shows a state in which the terminal plate 5 and the insulating cover 10 are further attached to the body 61 from the state of FIG.

As shown in FIGS. 12 and 13, the terminal plate 5 is placed on the stepped portion 610 of the side walls 612 to 615 of the body 61.

The terminal plate 5 is made of metal, and is made of an iron plate here. As shown in FIG. 13, the terminal plate 5 is formed in a shape (here, a rectangular plate shape) that covers the opening of the body 61 when viewed from the front-rear direction. That is, an electromagnetic shield space is formed by the space surrounded by the front wall 611, the side walls 612 to 615, and the terminal plate 5 of the body 61, and the circuit board 7 is arranged in this space. The terminal plate 5 has three through holes formed along the right and left edges, and three protrusions formed on the stepped portions of the right wall 614 and the left wall 615 of the body 61. It is coupled (fixed) to the body 61 by the fitting portion 50 formed by crushing the tip of the.

In the terminal plate 5, an insertion hole 53 for passing the input side terminal portion 2 is formed in the upper right portion. That is, the input side terminal portion 2 projects rearward from the terminal plate 5 through the insertion hole 53. In the terminal plate 5, the lower portion of the insertion hole 53 is the first terminal block 51 that comes into contact with the second conductor of the input-side coaxial cable 20. A V-shaped protrusion is formed on the first terminal block 51, and the second conductor is the first terminal block 51 in a state where the first conductor of the input side coaxial cable 20 is connected to the input side terminal portion 2. It is easy to contact with (see Fig. 4).

In the terminal plate 5, an insertion hole 54 for passing the feed side terminal portion 4 is formed in the upper left portion. That is, the feed-side terminal portion 4 projects rearward from the terminal plate 5 through the insertion hole 54. In the terminal plate 5, the lower portion of the insertion hole 54 is the second terminal block 52 that comes into contact with the fourth conductor of the feed-side coaxial cable 40. A V-shaped abutment is formed in the second terminal block 52, and the fourth conductor is the second terminal block 52 in a state where the third conductor of the feed-side coaxial cable 40 is connected to the feed-side terminal portion 4. It is easy to contact with (see FIG. 17).

Further, in the terminal plate 5, a screw hole 55 into which the screw 81 is screwed is formed in the lower central portion.

As shown in FIGS. 5, 12, and 13, conductive members 9 (first conductive member 91 and second conductive member 92) are arranged between the terminal plate 5 and the body 61 (FIG. 12, FIG. 12, In FIG. 13, only the first conductive member 91 is shown). More specifically, the first conductive member 91 is arranged between the right side surface of the terminal plate 5 and the right wall 614 of the body 61, and between the left side surface of the terminal plate 5 and the left wall 615 of the body 61, The second conductive member 92 is arranged. That is, the conductive member 9 is arranged between at least one of the body 61 and the terminal plate 5 and the cover 62. Further, the conductive member 9 has elasticity.

The first conductive member 91 is made of metal. The first conductive member 91 is formed in an L shape when viewed from the vertical direction by bending a metal plate having an opening formed in the center, and has a horizontal plate portion 911 and a vertical plate portion 912. There is.

The horizontal plate portion 911 of the first conductive member 91 is sandwiched between the stepped portion of the right wall 614 of the body 61 and the front surface of the terminal plate 5. As shown in FIG. 12, two through holes 9110 are formed in the horizontal plate portion 911 at positions corresponding to the two through holes of the terminal plate 5, whereby the first conductive member 91 can be terminally connected. It is coupled (fixed) to the body 61 together with the plate 5. Further, a notch is formed in the center of the horizontal plate portion 911, and three leaf springs 9111 (see FIG. 5) urged toward the front surface of the terminal plate 5 are formed in the notch. It is provided. In a state where the horizontal plate portion 911 is placed on the stepped portion of the right wall 614 of the body 61 and the terminal plate 5 is placed on the horizontal plate portion 911, the three leaf springs 9111 are oriented in contact with the terminal plate 5. Gives elastic force. As a result, it is possible to secure an electrical connection between the body 61 and the terminal plate 5, and it is possible to improve the electromagnetic shielding property between the body 61 and the terminal plate 5.

As shown in FIG. 13, the vertical plate portion 912 of the first conductive member 91 is sandwiched between the right wall 614 of the body 61 and the right surface of the terminal plate 5. The vertical plate portion 912 is formed with a rectangular notch connected to the notch of the horizontal plate portion 911 in the central portion. An elastic leaf spring 9121 protrudes into the notch from a piece on the rear side of the vertical plate portion 912. The leaf spring 9121 narrows the gap between the right wall 614 of the body 61 and the terminal plate 5, and makes it possible to improve the electromagnetic shielding property between the body 61 and the terminal plate 5. Further, the leaf spring 9121 is sandwiched between a pair of front and rear long ribs formed on the right wall 614 of the body 61, so that the vertical position of the vertical plate portion 912 is maintained. Further, a step recess is formed on the inner surface of the right wall 614, and the vertical plate portion 912 is maintained in the vertical position even when the vertical plate portion 912 is fitted in the step recess. ..

When the opening of the body 61 is closed by the cover 62 (see FIG. 9), the leaf spring 9121 comes into contact with the right wall 624 of the cover 62. As a result, it is possible to secure an electrical connection between the right wall 614 of the body 61 and the right wall 624 of the cover 62, and it is possible to improve the electromagnetic shielding property between the body 61 and the cover 62. It becomes.

The second conductive member 92 is made of metal. The second conductive member 92 is formed in a plane-symmetrical shape with the first conductive member 91 in the left-right direction. The second conductive member 92 is formed in an L shape when viewed from the vertical direction by bending a metal plate having an opening formed in the center, and has a horizontal plate portion 921 and a vertical plate portion 922.

The horizontal plate portion 921 of the second conductive member 92 is sandwiched between the stepped portion of the left wall 615 of the body 61 and the front surface of the terminal plate 5. As shown in FIG. 12, two through holes 9210 are formed in the horizontal plate portion 921 at positions corresponding to the two through holes of the terminal plate 5, whereby the second conductive member 92 can be terminally connected. It is coupled (fixed) to the body 61 together with the plate 5. Further, a notch is formed in the center of the horizontal plate portion 921, and three leaf springs 9211 urged toward the front surface of the terminal plate 5 are provided in the notch portion. In a state where the horizontal plate portion 921 is placed on the stepped portion of the left wall 615 of the body 61 and the terminal plate 5 is placed on the horizontal plate portion 921, the three leaf springs 9211 are oriented in contact with the terminal plate 5. Gives elastic force. As a result, it is possible to secure an electrical connection between the body 61 and the terminal plate 5, and it is possible to improve the electromagnetic shielding property between the body 61 and the terminal plate 5.

As shown in FIG. 13, the vertical plate portion 922 of the second conductive member 92 is sandwiched between the left wall 615 of the body 61 and the left surface of the terminal plate 5. The vertical plate portion 922 is formed with a rectangular notch connected to the notch of the horizontal plate portion 921 in the central portion. An elastic leaf spring 9221 projects from a piece on the rear side of the vertical plate portion 922 into the notch (see FIG. 9). The leaf spring 9221 narrows the gap between the left wall 615 of the body 61 and the terminal plate 5, and makes it possible to improve the electromagnetic shielding property between the body 61 and the terminal plate 5. Further, the leaf spring 9221 is sandwiched between a pair of front and rear long ribs 6151 formed on the left wall 615 of the body 61, so that the vertical position of the vertical plate portion 922 is maintained. Further, a step recess is formed on the inner surface of the left wall 615, and the vertical plate portion 922 is maintained in the vertical position even when the vertical plate portion 922 is fitted in the step recess. ..

Further, when the opening of the body 61 is closed by the cover 62, the leaf spring 9221 comes into contact with the left wall 625 of the cover 62. As a result, it is possible to secure an electrical connection between the left wall 615 of the body 61 and the left wall 625 of the cover 62, and it is possible to improve the electromagnetic shielding property between the body 61 and the cover 62. It becomes.

As shown in FIG. 13, an insulating insulating cover 10 (see FIG. 13) is interposed between the input side terminal portion 2 and the terminal plate 5 and between the feed side terminal portion 4 and the terminal plate 5. There is. The insulating cover 10 electrically insulates the input side terminal portion 2, the feed side terminal portion 4, and the terminal plate 5.

As shown in FIG. 5, the insulating cover 10 integrally includes a base portion 101, an input side terminal accommodating portion 102, and a feed side terminal accommodating portion 103. The insulating cover 10 is formed of, for example, a material having electrical insulation (for example, a resin material). The base portion 101 has a plate shape. The input side terminal accommodating portion 102 is formed so as to be recessed rearward from the base portion 101. The feed-side terminal accommodating portion 103 is formed so as to be recessed rearward from the base portion 101.

The base portion 101 has leg pieces 1010 placed on the rear surface of the circuit board 7 at both left and right ends on the front surface thereof. The rear surface of the base portion 101 is in contact with or close to the front surface of the terminal block 5.

The input side terminal accommodating portion 102 has a hollow rectangular box shape that opens forward. The input side terminal accommodating portion 102 is located between the edge portion of the insertion hole 53 in the terminal plate 5 and the input side terminal portion 2, and covers the input side terminal portion 2. The insertion hole 53 of the terminal plate 5 is closed by the input side terminal accommodating portion 102 and the portion of the base portion 101 around the input side terminal accommodating portion 102. The input-side terminal accommodating portion 102 electrically insulates the input-side terminal portion 2 and the terminal plate 5. A through hole 1020 (see FIG. 13) is formed on the lower surface of the input-side terminal accommodating portion 102 at a position corresponding to the spring piece 22 of the input-side terminal portion 2.

The feed-side terminal accommodating portion 103 has a hollow rectangular box shape that opens forward. The feed-side terminal accommodating portion 103 is located between the edge portion of the insertion hole 54 in the terminal plate 5 and the feed-side terminal portion 4, and covers the feed-side terminal portion 4. The insertion hole 54 of the terminal plate 5 is closed by the feed-side terminal accommodating portion 103 and the portion of the base portion 101 around it. The feed-side terminal accommodating portion 103 electrically insulates the feed-side terminal portion 4 and the terminal plate 5. A through hole 1030 (see FIG. 13) is formed on the lower surface of the feed-side terminal accommodating portion 103 at a position corresponding to the spring piece 42 of the feed-side terminal portion 4.

As shown in FIGS. 1 to 5 and 7 to 9, the cover 62 is attached to the body 61 so as to cover the opening of the body 61. The cover 62 is made of metal and is die-cast zinc in this embodiment.

As shown in FIG. 14, the cover 62 has a rear wall 621 and four side walls (upper wall 622 as the first side wall, lower wall 623 as the second side wall, right wall 624 as the third side wall, and fourth side wall. 625) on the left wall as an integral part. The front surface of the cover 62 is open.

As shown in FIGS. 3 and 14, the rear wall 621 of the cover 62 is formed in a stepped shape having a step. That is, the rear wall 621 is a plate-shaped first portion 626, a plate-shaped second portion 627 protruding forward from the lower edge of the first portion 626, and a plate protruding downward from the front edge of the second portion 627. It comprises a third portion 628 of the shape.

Support shafts 6260 protruding laterally are formed on both left and right sides at the upper end of the first portion 626. The support shaft 6260 is held by bearings 6140 and 6150 of the body 61. With the support shaft 6260 held by the bearings 6140, 6150, the cover 62 is rotatably supported by the body 61 around the support shaft 6260, as shown in FIG. Here, each of the bearings 6140 and 6150 has a groove portion that rotatably supports the support shaft 6260, and an opening that is connected to the groove portion and has a width smaller than the width of the groove portion and the diameter of the support shaft 6260. Since the width of the opening is smaller than the diameter of the support shaft 6260, the support shaft 6260 is prevented from falling off from the bearings 6140 and 6150. Further, the space of the bearings 6140 and 6150 is filled with the support shaft 6260, and the electromagnetic shielding property of the coaxial cable outlet 100 is improved.

As shown in FIG. 14, a through hole 6280 for passing the screw 81 is formed in the center of the third portion 628 in the left-right direction. As shown in FIG. 3, a cylindrical recess 6270 is formed at the center of the second portion 627 in the left-right direction (position corresponding to the through hole 6280) so as to avoid the head of the screw 81.

The lower wall 623 of the cover 62 projects forward from a position slightly above the lower end of the third portion 628 of the rear wall 621. That is, as shown in FIGS. 2 and 14, a part (lower end portion) of the third portion 628 of the rear wall 621 has a so-called eaves shape.

As shown in FIGS. 2 and 3, the right portion of the lower wall 623 of the cover 62 is located at a position facing the input side terminal portion 2 in the vertical direction with the cover 62 covering the opening of the body 61. 1 Holding recess 6231 is formed. The first holding recess 6231 is formed in a semicircular shape when viewed from below by forming a curved portion 6281 in the third portion 628. The width (opening width) of the first holding recess 6231 in the left-right direction is substantially the same (slightly larger) as the outer diameter of the input-side coaxial cable 20.

With the cover 62 open (see FIG. 15), the core wire 21 (first conductor) of the input side coaxial cable 20 is inserted into the input side terminal portion 2 through the through hole 1020 of the input side terminal accommodating portion 102 in the insulating cover 10. And connect it to the input side terminal part 2. Then, the cover 62 is rotated around the support shaft 6260 to close the cover 62. As a result, the input side coaxial cable 20 is sandwiched between the cover 62, the terminal plate 5 (first terminal block 51), and the lower wall 613 of the body 61 in the first holding recess 6231 (see FIG. 16). ..

As shown in FIGS. 2 and 3, the left portion of the lower wall 623 of the cover 62 is located at a position facing the feed side terminal portion 4 in the vertical direction with the cover 62 covering the opening of the body 61. A holding recess 6232 is formed. The second holding recess 6232 is formed in a semicircular shape when viewed from below by forming a curved portion 628 in the third portion 628. The width (opening width) of the second holding recess 6232 in the left-right direction is substantially the same (slightly larger) as the outer diameter of the feed-side coaxial cable 40.

With the cover 62 open (see FIG. 15), the core wire 41 (third conductor) of the feed-side coaxial cable 40 is inserted into the feed-side terminal portion 4 through the through hole 1030 of the feed-side terminal accommodating portion 103 in the insulating cover 10. Then, it is connected to the feed side terminal portion 4. Then, the cover 62 is rotated around the support shaft 6260 to close the cover 62. As a result, the feed-side coaxial cable 40 is sandwiched between the cover 62, the terminal plate 5 (second terminal block 52), and the lower wall 613 of the body 61 in the second holding recess 6232 (see FIG. 16). ..

As shown in FIG. 14, the first receiving metal fitting 641 is arranged in the first holding recess 6231. Further, a second receiving metal fitting 642 is arranged in the second holding recess 6232. Each of the first receiving metal fitting 641 and the second receiving metal fitting 642 is made of elastic metal and is formed in a semi-cylindrical shape. A plurality of through holes for positioning are formed in each of the first receiving metal fitting 641 and the second receiving metal fitting 642. The first receiving metal fitting 641 and the second receiving metal fitting 642 are formed in the first holding recess 6231 and the second holding recess 6232 on the front surface (inner surface) of the third portion 628 of the rear wall 621 of the cover 62 in each of the plurality of through holes. Positioning is performed by inserting the formed protrusion. Further, the first receiving metal fitting 641 and the second receiving metal fitting 642 are fixed to the cover 62 by fitting the protrusions into the through holes.

When the core wire 21 (first conductor) of the input side coaxial cable 20 is connected to the input side terminal portion 2 and the cover 62 is closed, the first receiving metal fitting 641 is used between the input side coaxial cable 20 and the housing 6. The gap (first holding recess 6231) is closed. Therefore, the electromagnetic shielding property of the coaxial cable outlet 100 can be further improved. Further, when the core wire 41 (third conductor) of the feed-side coaxial cable 40 is connected to the feed-side terminal portion 4 and the cover 62 is closed, the feed-side coaxial cable 40 and the housing 6 are connected by the second receiving metal fitting 642. The gap between them (second holding recess 6232) is closed. Therefore, the electromagnetic shielding property of the coaxial cable outlet 100 can be further improved. That is, each of the first receiving metal fitting 641 and the second receiving metal fitting 642 also functions as a conductive member 9 arranged between the terminal plate 5 and the cover 62.

As shown in FIG. 14, the upper wall 622 of the cover 62 is formed with a rectangular first notch 6221 at a position corresponding to the first holding recess 6231 in the vertical direction. Further, the upper wall 622 of the cover 62 is formed with a rectangular second notch 6222 at a position corresponding to the second holding recess 6232 in the vertical direction. The shape of the second notch 6222 is the same as the shape of the first notch 6221. Further, the second notch 6222 is formed at a position symmetrical to the first notch 6221 with respect to a virtual surface passing through the center of the cover 62 in the left-right direction and orthogonal to the left-right direction.

The first notch 6221 is formed in a size that allows the input side terminal accommodating portion 102 of the insulating cover 10 to pass through when the cover 62 is rotated around the support shaft 6260. The second notch 6222 is formed in a size that allows the feed side terminal accommodating portion 103 of the insulating cover 10 to pass through when the cover 62 is rotated around the support shaft 6260.

As shown in FIG. 14, a conductive member 9 (third conductive member 93 and fourth conductive member 94) is provided on the upper wall 622 of the cover 62. The third conductive member 93 and the fourth conductive member 94 come into contact with the upper wall 612 of the body 61 when the cover 62 is closed, and connect the upper wall 612 of the body 61 and the upper wall 622 of the cover 62. The third conductive member 93 is provided at a position corresponding to the first notch 6221 on the upper wall 622 of the cover 62. The fourth conductive member 94 is provided at a position corresponding to the second notch 6222 on the upper wall 622 of the cover 62.

The third conductive member 93 is made of metal. As shown in FIG. 14, the third conductive member 93 includes a semi-cylindrical base portion 931 and a pair of plate-shaped connecting portions 932 extending upward from the upper edge of the base portion 931, and left from the upper edge of each connecting portion 932. Alternatively, it integrally has a total of four leaf spring portions 933 extending to the right.

The base 931 of the third conductive member 93 is provided with a through hole in the center. The third conductive member 93 is positioned by inserting a protrusion formed on the front surface (inner surface) of the first portion 626 of the rear wall 621 of the cover 62 into the through hole. Further, the base 931 of the third conductive member 93 is fixed to the cover 62 and electrically connected to the cover 62, for example, by fitting a protrusion into the through hole.

The connecting portion 932 mechanically and electrically connects the base portion 931 and the leaf spring portion 933.

The leaf spring portion 933 has elasticity. The leaf spring portion 933 extends from a position corresponding to the side side (right side or left side) of the first notch 6221 of the upper wall 622 of the cover 62 in a direction away from the first notch 6221. The tip of the leaf spring portion 933 comes into contact with the upper wall 612 of the body 61 when the cover 62 is closed (see FIG. 9).

The fourth conductive member 94 is made of metal. As shown in FIG. 14, the fourth conductive member 94 includes a semi-cylindrical base portion 941, a pair of plate-shaped connecting portions 942 extending upward from the upper edge of the base portion 941, and left from the upper edge of each connecting portion 942. Alternatively, it integrally has a total of four leaf spring portions 943 extending to the right. The shape of the fourth conductive member 94 is the same as the shape of the third conductive member 93.

The base 941 of the fourth conductive member 94 is provided with a through hole in the center. The fourth conductive member 94 is positioned by inserting a protrusion formed on the front surface (inner surface) of the first portion 626 of the rear wall 621 of the cover 62 into the through hole. Further, the base portion 941 of the fourth conductive member 94 is fixed to the cover 62 and electrically connected to the cover 62, for example, by fitting a protrusion into the through hole.

The connecting portion 942 mechanically and electrically connects the base portion 941 and the leaf spring portion 943.

The leaf spring portion 943 has elasticity. The leaf spring portion 943 extends from a position corresponding to the side side (right side or left side) of the second notch 6222 of the upper wall 622 of the cover 62 in a direction away from the second notch 6222. The tip of the leaf spring portion 943 comes into contact with the upper wall 612 of the body 61 when the cover 62 is closed (see FIG. 9).

As shown in FIG. 9, when the cover 62 is closed, the leaf spring portion 933 of the third conductive member 93 and the leaf spring portion 943 of the fourth conductive member 94 make up the upper wall 612 of the body 61 and the upper wall of the cover 62. 622 is connected. As a result, it is possible to secure an electrical connection between the body 61 and the cover 62, and it is possible to improve the electromagnetic shielding property between the body 61 and the cover 62.

As shown in FIGS. 1 to 5, a decorative cover 11 formed of a synthetic resin in a hollow box shape is attached to the front side of the body 61. A circular through hole 110 through which the mounting shaft 63 is inserted is provided in the center of the front wall of the decorative cover 11.

As shown in FIG. 1, a pair of assembly holes 111 into which a pair of assembly protrusions 6120 of the body 61 are fitted are formed on the upper wall of the decorative cover 11. As shown in FIG. 2, a pair of assembly holes 112 into which a pair of assembly protrusions 6130 of the body 61 are fitted are formed on the lower wall of the decorative cover 11. The decorative cover 11 is coupled to the body 61 by fitting the corresponding assembly protrusions 6120 and 6130 into the assembly holes 111 and 112.

Further, a mounting bracket 12 for mounting the coaxial cable outlet 100 to the mounting frame for wiring equipment (the mounting frame for the large-angle continuous connector standardized by JIS C 8375) is attached to the decorative cover 11. There is. The coaxial cable outlet 100 is fixed to the wall surface by using the mounting bracket 12 and, for example, a mounting frame for wiring equipment.

When installing the coaxial cable outlet 100 on the wall surface, first, with the cover 62 opened as shown in FIG. 15, the core wire 21 of the input side coaxial cable 20 is inserted into the through hole 1020 of the input side terminal accommodating portion 102. It is connected to the input side terminal part 2 by inserting it into. Further, the core wire 41 of the feed-side coaxial cable 40 is inserted through the through hole 1030 of the feed-side terminal accommodating portion 103 and connected to the feed-side terminal portion 4.

Then, the cover 62 is closed, the screw 81 is passed through the through hole 6280 of the cover 62, and the screw 81 is tightened into the screw hole 55 of the terminal plate 5. As a result, the cover 62 is fixed to the body 61. At this time, the input side coaxial cable 20 is deformed by being pressed in the radial direction in the first holding recess 6231. As a result, the first holding recess 6231 is filled with the input side coaxial cable 20. Further, the feeding side coaxial cable 40 is deformed by being pressed in the radial direction in the second holding recess 6232. As a result, the second holding recess 6232 is filled with the feed-side coaxial cable 40.

In this state, the mounting frame to which the coaxial cable outlet 100 is mounted is installed on the wall surface. Then, the F-type connector of the output side coaxial cable 30 is connected to the mounting shaft 63 exposed indoors, and the core wire 31 is inserted into the insertion hole 3020 of the tubular portion 302 to be held by the output side terminal portion 3. Then, the core wire 21 of the input side coaxial cable 20, the core wire 41 of the feed side coaxial cable 40, and the core wire 31 of the output side coaxial cable 30 are connected via the circuit board 7 (FIGS. 4, 16 and 16). 17). Note that FIG. 4 shows a state in which the input side coaxial cable 20 is sandwiched between the body 61 and the cover 62 and deformed, but of course, the input side coaxial cable 20 does not have to be deformed. Similarly, the feed-side coaxial cable 40 does not have to be deformed.

In the coaxial cable outlet 100 configured in this way, the first conductor (core wire 21) and the second conductor are in the internal space of the housing 6 in a state where the input side coaxial cable 20 is connected to the input side terminal portion 2. positioned. As a result, the first conductor is electrically insulated from the external space of the housing 6. Therefore, in the coaxial cable outlet 100, the electromagnetic shielding property can be improved to suppress the mixing of noise from the outside into the input side coaxial cable 20 and the emission of electromagnetic waves from the input side coaxial cable 20 to the external space. It will be possible.

Further, in a state where the feed-side coaxial cable 40 is connected to the feed-side terminal portion 4, the third conductor (core wire 31) and the fourth conductor are located in the internal space of the housing 6. As a result, the third conductor is electrically insulated from the external space of the housing 6. Therefore, in the coaxial cable outlet 100, the electromagnetic shielding property can be improved to suppress the mixing of noise from the outside into the sending side coaxial cable 40 and the emission of electromagnetic waves from the sending side coaxial cable 40 to the external space. It will be possible.

Further, in the coaxial cable outlet 100, a circuit board 7 provided with an electric circuit necessary for the feed wiring method is housed in the internal space of the housing 6. Therefore, it is possible to suppress the mixing of noise into the electric circuit of the circuit board 7 from the outside while enabling the feed wiring method.

Further, a conductive member 9 (first conductive member 91 to fourth conductive member 94) is arranged between the body 61 and the cover 62. That is, the gap between the body 61 and the cover 62 is closed by the conductive member 9. The conductive member 9 is arranged in the first space (the space on the right side in FIG. 7) where the input side terminal portion 2 is arranged when viewed from the extension direction of the input side coaxial cable 20, and the first conductive member 91 and the third conductive member 91 are arranged. A member 93 is provided. The conductive member 9 further includes a second conductive member 92 and a fourth conductive member 94 arranged in a second space (the space on the left side in FIG. 7) adjacent to the first space. As a result, the electromagnetic shielding property of the coaxial cable outlet 100 is further improved. Further, since the conductive member 9 (leaf springs 9111, 9121, 9211, 9221, leaf spring portion 933, 943) has elasticity, even if the conductive member 9 or another member has a dimensional error, the conductive member 9 Dimensional error can be absorbed by the elasticity of.

Further, the coupling structure 8 that connects the body 61 and the cover 62 includes a single screw 81. The body 61 and the cover 62 are connected by connecting the terminal plate 5 and the cover 62 with the screws 81. As a result, workability is improved when the input side coaxial cable 20 and the feed side coaxial cable 40 are connected to the coaxial cable outlet 100.

(2) Embodiment 2
The coaxial cable outlet 200 according to the present embodiment will be described with reference to FIGS. 18 to 21.

The coaxial cable outlet 200 of the present embodiment is a television outlet for terminals used in the feed wiring system. The coaxial cable outlet 200 of the present embodiment is not particularly provided with the feed side terminal portion 4, and the electric circuit of the circuit board 7 is provided with a terminating circuit (terminating resistor or attenuator). It is different from the coaxial cable outlet 100. In the coaxial cable outlet 200 of the present embodiment, the same components as those of the coaxial cable outlet 100 of the first embodiment are designated by the same reference numerals and description thereof will be omitted as appropriate.

As shown in FIG. 20, the coaxial cable outlet 200 of the present embodiment basically includes the same parts as the coaxial cable outlet 100 of the first embodiment. Further, the dimensions of the housing 6 and the like are also the same as those of the coaxial cable outlet 100 of the first embodiment. However, in the coaxial cable outlet 200 of the present embodiment, the insertion hole 54 is not formed in the terminal plate 5. Further, the insulating cover 10 is not formed with the feed side terminal accommodating portion 103, and the cover 62 is not formed with the second holding recess 6232.

More specifically, the coaxial cable outlet 200 includes an input side terminal portion 2 and an output side terminal portion 3 as shown in FIGS. 18 to 21. The core wire 21 of the coaxial cable (input side coaxial cable) 20 for inputting a television signal is connected to the input side terminal portion 2. The feed-side coaxial cable 40 connected to the feed-side terminal portion 4 of the coaxial cable outlet 100 of the first embodiment is connected to the input-side terminal portion 2 as the input-side coaxial cable 20 in the present embodiment.

Further, the coaxial cable outlet 200 of the present embodiment further includes a terminal plate 5, a housing 6, and a circuit board 7.

The terminal plate 5 includes the first terminal block 51 and is formed of a metal plate.

The first terminal block 51 is electrically insulated from the input side terminal portion 2. The first terminal block 51 comes into contact with the second conductor of the input-side coaxial cable 20 in a state where the first conductor (core wire 21) of the input-side coaxial cable 20 is inserted into the input-side terminal portion 2.

The housing 6 is made of metal. The housing 6 has an internal space for accommodating the input side terminal portion 2 and the terminal plate 5. The housing 6 is electrically connected to the terminal plate 5.

The circuit board 7 is electrically connected to the input side terminal portion 2. The circuit board 7 is electrically connected to the output side terminal portion 3. The input side terminal portion 2 and the output side terminal portion 3 are electrically connected to each other via a conductor of the circuit board 7. The circuit board 7 is housed in the internal space of the housing 6. A circuit component 71 is mounted on the circuit board 7, and an electric circuit is formed by the circuit component 71 and a conductor formed on the circuit board 7. The electric circuit includes, for example, a terminal circuit for matching with the characteristic impedance of the wiring connected to the input side terminal portion 2.

The housing 6 includes a body 61 and a cover 62.

The body 61 is formed in a hollow box shape having an opening on one surface. The input side terminal portion 2 and the terminal plate 5 are exposed from the opening of the body 61.

The cover 62 is coupled to the body 61 by the coupling structure 8. The cover 62 is coupled to the body 61 so as to cover the openings of the input side terminal portion 2, the terminal plate 5, and the body 61. The coupling structure 8 of this embodiment includes a single screw 81. Further, the cover 62 covers the first conductor and the second conductor of the input side coaxial cable 20 in a state where the first conductor of the input side coaxial cable 20 is connected to the input side terminal portion 2.

The lower wall 623 of the cover 62 is formed with a first holding recess 6231, but is not formed with a second holding recess 6232 (see FIGS. 2 and 3). However, both the first notch 6221 and the second notch 6222 are formed on the upper wall 622 of the cover 62. Further, the third conductive member 93 is arranged at a position corresponding to the first notch 6221, and the fourth conductive member 94 is arranged at a position corresponding to the second notch 6222.

Since the coaxial cable outlet 200 of the present embodiment includes the circuit board 7 provided with the termination circuit as described above, it can be used as a terminal (termination) of the feed wiring system. Further, the coaxial cable outlet 200 can improve the shielding property against electromagnetic waves in a state where the first conductor of the input side coaxial cable 20 is connected to the input side terminal portion 2.

The coaxial cable outlet 200 includes a first conductive member 91 and a third conductive member 93 arranged in a first space (the space on the right side in FIG. 19) in which the input side terminal portion 2 is arranged. The coaxial cable outlet 200 of the present embodiment further includes a second conductive member 92 and a fourth conductive member 94 arranged in a second space (the space on the left side in FIG. 19) adjacent to the first space. As a result, the electromagnetic shielding property of the coaxial cable outlet 100 is further improved.

(3) Modified Example The above-described embodiment is only one of the various embodiments of the present disclosure. The above-described embodiment can be changed in various ways depending on the design and the like as long as the object of the present disclosure can be achieved.

In the coaxial cable outlets 100 and 200, the number of output side terminal portions 3 is not limited to one, and a plurality of output side terminal portions 3 may be provided. In this case, a plurality of mounting shafts 63 are formed on the body 61. Further, in the coaxial cable outlet 100 of the first embodiment, the number of the feed side terminal portions 4 is not limited to one, and a plurality of feed side terminal portions 4 may be provided. In this case, a plurality of branch circuits are provided on the circuit board 7, a plurality of insertion holes 54 and a second terminal block 52 are provided on the terminal plate 5, and a plurality of second holding recesses 6232 are provided on the cover 62.

The conductive member 9 may be provided integrally with the body 61, the cover 62, or the terminal plate 5. For example, the conductive member 9 may be a protrusion protruding from the body 61 and / or the cover 62 and / or the terminal plate 5. The conductive member 9 does not necessarily have to have elasticity.

The coupling structure 8 is not limited to a single screw 81, as long as the cover 62 can be opened and closed with respect to the body 61. For example, a fitting structure provided on the body 61 and the cover 62 and fitted to each other may be used. ..

The screw 81 does not have to be screwed to the terminal board 5 provided with the first terminal block 51 and the second terminal block 52. That is, the screw 81 may be a separate body from the first terminal block 51 and the second terminal block 52 and may be connected to a receiving member connected to the body 61 or may be directly connected to the body 61.

The cover 62 does not have to have a structure that rotates around the support shaft 6260 with respect to the body 61. For example, a ridge is provided on the side wall of the cover 62, and a groove into which the ridge is fitted is provided on the side wall of the body 61. By sliding the cover 62 along the groove of the body 61, the cover 62 becomes the body 61. It may be a structure that closes the opening of the.

The applications of the coaxial cable outlets 100 and 200 are not limited to TV outlets, and may be used in any system in which a plurality of arbitrary devices are connected by a coaxial cable in a feed wiring system.

(4) Aspects As is clear from the embodiments and modifications described above, the coaxial cable outlets (100, 200) of the first aspect include an input side terminal portion (2), a terminal block (51), and the like. A housing (6) and a circuit board (7) are provided. The first conductor of the input-side coaxial cable (20) having the first conductor and the second conductor is connected to the input-side terminal portion (2). The terminal block (51) is electrically insulated from the input side terminal portion (2). The terminal block (51) comes into contact with the second conductor of the input-side coaxial cable (20) in a connected state in which the first conductor is connected to the input-side terminal portion (2). The housing (6) is made of metal. The housing (6) is electrically connected to the terminal block (51). The housing (6) has an internal space for accommodating the input side terminal portion (2) and the terminal block (51). The circuit board (7) is electrically connected to the input side terminal portion (2). The circuit board (7) is housed in the internal space of the housing (6). The housing (6) includes a body (61) and a cover (62). The body (61) has an opening in which the input side terminal portion (2) and the terminal block (51) are exposed. The cover (62) is coupled to the body (61) by a coupling structure (8). The cover (62) is coupled to the body (61) so as to cover the first and second conductors of the input side coaxial cable (20) in the connected state and to cover the opening of the body (61).

According to this aspect, the first conductor (core wire 21) and the second conductor are housed inside the housing (6) in a state where the input side coaxial cable (20) is connected to the input side terminal portion (2). There is. Therefore, it is possible to improve the electromagnetic shielding property and suppress the mixing of noise from the outside into the input side coaxial cable (20) and the emission of electromagnetic waves from the input side coaxial cable (20) to the external space. .. Further, a circuit board (7) including an electric circuit (amplifier circuit, branch circuit, terminating circuit, etc.) necessary for the feed wiring method is housed inside the housing (6). Therefore, it is possible to suppress the mixing of noise into the electric circuit of the circuit board (7) and the leakage of the signal from the circuit board while enabling the feed wiring method. That is, it is possible to provide a coaxial cable outlet (100, 200) that is used in the feed wiring method and can secure a shielding property against electromagnetic waves.

The coaxial cable outlet (100, 200) of the second aspect is arranged between at least one of the body (61) and the terminal block (51) and the cover (62) in the first aspect. The conductive member (9) to be formed is further provided.

According to this aspect, the gap between the body (61) and the cover (62) and / or the gap between the terminal block (51) and the cover (62) is closed by the conductive member (9). .. As a result, the electromagnetic shielding property of the coaxial cable outlet (100, 200) is further improved.

In the coaxial cable outlet (100, 200) of the third aspect, in the second aspect, the conductive member (9) has elasticity.

According to this aspect, the conductive member (9) and other members (body 61, cover 62) can be reliably brought into contact with each other, and the electromagnetic shielding property is further improved.

The coaxial cable outlet (100, 200) of the fourth aspect is configured as follows in the second or third aspect. That is, the internal space of the housing (6) is adjacent to the first space and the first space in which the input side terminal portion (2) is arranged when viewed from the extension direction of the input side coaxial cable (20) in the connected state. It includes a second space in which the side terminal portion (2) is not arranged. The conductive member (second conductive member 92, fourth conductive member 94) is located between the body (61) and the cover (62) in the second space.

According to this aspect, in the second space, the gap between the body (61) and the cover (62) is closed by the conductive members (second conductive member 92, fourth conductive member 94). As a result, the electromagnetic shielding property of the coaxial cable outlet (100, 200) is further improved.

In the coaxial cable outlet (100, 200) of the fifth aspect, the terminal block (51) is coupled to the body (61) in any one of the first to fourth aspects. In the coupling structure (8), the body (61) and the cover (62) are coupled by coupling the terminal block (51) and the cover (62).

According to this aspect, since the cover (62) is coupled to the terminal block (51), another member for connecting the cover (62) (for example, a screw receiver which is separate from the terminal block 51). Workability is improved compared to the case where a pedestal for the purpose is required.

In the coaxial cable outlet (100, 200) of the sixth aspect, in any one of the first to fifth aspects, the coupling structure (8) includes a single screw (81).

According to this aspect, the body (61) and the cover (62) can be connected by a single screw (81), and the workability is improved.

The coaxial cable outlet (100) of the seventh aspect further includes a feed side terminal portion (4) and a second terminal block (52) in any one of the first to sixth aspects. The third conductor of the feed-side coaxial cable (40) having the third conductor and the fourth conductor is connected to the feed-side terminal portion (4). The second terminal block (52) is electrically connected to the terminal block (first terminal block 51). The second terminal block (52) comes into contact with the fourth conductor of the feed-side coaxial cable (40) in a state where the third conductor is connected to the feed-side terminal portion (4). The feed side terminal portion (4) and the second terminal block (52) are housed in the internal space of the housing (6).

According to this aspect, it is possible to provide a coaxial cable outlet for feed wiring (relay) of the feed wiring method.

In the coaxial cable outlet (100, 200) of the eighth aspect, in any one of the first to seventh aspects, the circuit board (7) is made conductive at a portion adjacent to the inner wall of the body (61). It is connected to the body (61) by the connecting portion having.

According to this aspect, the electromagnetic shielding property of the coaxial cable outlet (100, 200) is further improved.

The coaxial cable outlet (100, 200) of the ninth aspect is located between the input side terminal portion (2) and the terminal block (51) in any one of the first to eighth aspects, and is an input side terminal. An insulating cover (10) that electrically insulates the portion (2) and the terminal block (51) is further provided.

According to this aspect, it is possible to electrically insulate the input side terminal portion (2) and the terminal block (51) to improve the signal transmission characteristics of the input side coaxial cable (20).

The coaxial cable outlet (100, 200) of the tenth aspect further includes an output side terminal portion (3) in any one of the first to ninth aspects. The output side terminal portion (3) is electrically connected to the circuit board (7) and is exposed from a through hole formed on the surface of the body (61) facing the opening, and is the core wire of the output side coaxial cable (30). (31) is electrically connected.

According to this aspect, in the body (61), the output side terminal portion (3) is arranged on the side opposite to the input side terminal portion (2), so that the input side coaxial cable (20) and the output side coaxial cable (20) Workability when connecting 30) is improved.

100, 200 Coaxial cable outlet 2 Input side terminal 20 Input side coaxial cable 21 Core wire (first conductor)
210 External conductor (second conductor)
3 Output side terminal part 30 Output side coaxial cable 31 Core wire 4 Feed side terminal part 40 Send side coaxial cable 41 Core wire (third conductor)
410 External conductor (4th conductor)
51 terminal block (1st terminal block)
52 2nd terminal block 6 Housing 61 Body 62 Cover 7 Circuit board 8 Coupling structure 81 Screw 9 Conductive member 10 Insulation cover

Claims (12)

Of the input-side coaxial cable having the first conductor and the second conductor, the input-side terminal portion to which the first conductor is connected and
A terminal block that is electrically insulated from the input side terminal portion and is in contact with the second conductor of the input side coaxial cable in a connected state in which the first conductor is connected to the input side terminal portion.
A metal housing that is electrically connected to the terminal block and has an internal space for accommodating the input side terminal portion .
A circuit board housed before Symbol interior space,
With conductive members
With
Wherein the housing
A body having an open mouth,
Provided with a cover that is bonded to the body by a bonding structure
The cover is coupled to the body so as to cover the first conductor and the second conductor of the input side coaxial cable in the connected state and cover the opening of the body .
The internal space is adjacent to the first space in which the input side terminal portion is arranged and the first space in which the input side terminal portion is not arranged when viewed from the extension direction of the input side coaxial cable in the connected state. Including 2 spaces
The conductive member is located between the body and the cover in the second space.
Coaxial cable outlet. The conductive member has elasticity.
The coaxial cable outlet according to claim 1. The terminal block is coupled to the body and
In the coupling structure, the body and the cover are coupled by coupling the terminal block and the cover.
The coaxial cable outlet according to claim 1 or 2. The coupling structure comprises a single screw,
The coaxial cable outlet according to any one of claims 1 to 3. Of the feed-side coaxial cable having the third conductor and the fourth conductor, the feed-side terminal portion to which the third conductor is connected and
A second terminal that is electrically connected to the first terminal block as the terminal block and is in contact with the fourth conductor of the feed-side coaxial cable in a state where the third conductor is connected to the feed-side terminal portion. With a stand,
With more
The feed side terminal portion and the second terminal block are housed in the internal space.
The coaxial cable outlet according to any one of claims 1 to 4. The circuit board is bonded to the body by a conductive coupling portion at a portion adjacent to the inner wall of the body.
The coaxial cable outlet according to any one of claims 1 to 5. An insulating cover located between the input side terminal portion and the terminal block and electrically insulating the input side terminal portion and the terminal block is further provided.
The coaxial cable outlet according to any one of claims 1 to 6. The body further includes an output side terminal portion that is exposed from a through hole formed on a surface facing the opening and to which the core wire of the output side coaxial cable is electrically connected.
The coaxial cable outlet according to any one of claims 1 to 7. The input side terminal part that is electrically connected to the core wire of the input side coaxial cable,
The sending side terminal part that is electrically connected to the core wire of the sending side coaxial cable,
The output side terminal part that is electrically connected to the core wire of the F type connector of the output side coaxial cable,
A terminal plate electrically connected to the braided wire of the input side coaxial cable and the braided wire of the feed side coaxial cable,
The circuit board on which the electric circuit is formed and
A housing having an internal space for accommodating the circuit board,
With
The input side terminal portion and the output side terminal portion are electrically connected to each other.
The input side terminal portion and the feed side terminal portion are electrically connected via the electric circuit.
The housing is
With a metal body
With a metal cover that is bonded to the body,
Have,
An elastic member having elasticity for electrically connecting the terminal plate and the body is further provided.
Coaxial cable outlet. Further provided with an insulating cover arranged between the input side terminal portion and the feed side terminal portion and the terminal plate and formed of a material having electrical insulation.
The coaxial cable outlet according to claim 9. The insulating cover has a first through hole and a second through hole.
The core wire of the input-side coaxial cable is inserted into the input-side terminal portion through the first through hole of the insulating cover.
The core wire of the feed-side coaxial cable is inserted into the feed-side terminal portion through the second through hole of the insulation cover.
The coaxial cable outlet according to claim 10. The cover is rotatably supported by the body,
The coaxial cable outlet according to any one of claims 1 to 11.

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