JP7138461B2 - Signal relay terminal board - Google Patents

Description

The present invention is provided on a wall, a desk, or the like, and receives signals from personal computers, DVD players, and other various video/audio equipment through HDMI connectors, D-subminiature (D-sub) connectors, pin jacks, and USB connectors. It relates to a signal relay terminal board used for distribution to a display or the like placed indoors or on a desk via a signal relay terminal board provided with an interface terminal such as a signal relay terminal board. In addition to the above connectors, the interface terminals include operation switches such as push buttons, volume adjustment knobs, and the like.

Recently, signal relay terminal boards equipped with interface terminals, which are used to connect video signal cables, etc., are increasingly used in the form of being attached to existing terminal boxes embedded in walls and desks. there is

This type of signal relay terminal board consists of an interface section to which interface terminals are attached, a control section for controlling input/output signals for the interface section, that is, a control section for switching signals of the interface terminals and transmitting/receiving signals, and a power supply. A main body portion composed of a portion and the like is integrally formed.

In the conventional general signal relay terminal board, the case with a sufficiently large size serves as a heat sink, so problems related to heat generated from the power supply or the like are unlikely to occur. However, when a minimum enclosure size is required, heat becomes a non-negligible risk factor. For example, in applications where the device is embedded in a wall surface or on a desk, a small housing is required, and furthermore, the environment is not one that can be expected to breathe, so the generated heat does not dissipate and tends to accumulate. For this reason, the embedded signal relay terminal board has a problem that the heat generated in the control section and the power supply section (main body section) is conducted to the interface section, and the interface section becomes hot. In addition, when trying to arrange multiple types of interface terminals on the signal relay terminal board, it is necessary to arrange the necessary interface terminals in the interface section according to the user's needs. Because it is formed integrally with the , it is necessary to respond to customizations by arranging the interface terminals according to the user's needs at the stage of manufacturing the terminal board. There were practical difficulties.

Also, the signal relay terminal board is installed on a wall surface or the like, and cables having various interface terminals are connected to the signal relay terminal board in that state. As a result, a person or a device may collide with or get caught in the cable coming out of the interface terminal, and an unreasonable external force acts on the interface, often resulting in damage to the interface. However, in the conventional signal relay terminal board, the interface part and the main body part were integrally formed, so even if only the interface part fails, the entire signal relay terminal board must be replaced, which is uneconomical and resource-intensive. was connected to the waste of

The present invention has been made in view of the above circumstances, and the heat from the power supply unit, the control unit, etc. is difficult to be transmitted to the interface unit, and it is customizable according to the user's needs, and the signal relay connector etc. can be changed after installation. To provide a signal relay terminal board capable of replacing only a faulty interface part.

A first aspect of the present invention is an interface panel (3) provided with one or more interface terminals (6), and a signal processing unit ( 12, 13) and a main body (2) provided with a power supply (10),
The interface panel (3) is configured such that signal relay connectors (3c, 2d) are detachably attached to the main body (2) via a thermal buffer space (S) having a predetermined width. and

A second aspect of the present invention is characterized in that the interface panel (3) comprises a converter (9) for converting a signal input from the interface terminal (6).

A third aspect of the present invention is that the main body (2) is provided with a plurality of the signal relay connectors (2d), and a plurality of the interfaces are connected via the plurality of the signal relay connectors (2d). The signal relay connector (3c) of the panel (3) is detachably attached to the main body (2) at corresponding positions.

A fourth aspect of the present invention is that the signal processing units (12, 13) are connected to each signal relay connector (2) from a plurality of interface panels (3) attached to the main body (2). 2d), it is characterized by comprising a signal switching unit (12) for alternatively selecting the signal to be output to the outside from the signals received via 2d).

A fifth aspect of the present invention is that the plurality of interface panels (3) each have different types of interface terminals (6),
Each signal relay connector (3c) of the plurality of interface panels (3) is configured to be connectable to any of the plurality of signal relay connectors (2d) provided on the main body (2) side. and

A sixth aspect of the present invention is that when the signal switching unit (12) receives a signal from another interface panel (3) different from the signal from the previously selected interface panel (3), the It is characterized by controlling to switch a signal to be output to the outside to a signal for the other interface panel (3).

A seventh aspect of the present invention is that an interface panel (3) provided with a switch is connected to the main body (2),
When the switch is operated, the signal switching unit (12) controls to switch the signal to be output to the outside to the signal for the interface panel (3) on which the switch is operated. and

An eighth aspect of the present invention is characterized in that the main body (2) is provided with a heat sink (2e).

A ninth aspect of the present invention is an interface panel (3) in the signal relay terminal board (1) of the present invention.

A tenth aspect of the present invention is the main body (2) of the signal relay terminal board (1) of the present invention.

According to the present invention, an interface panel (3) provided with one or more interface terminals (6) is attached to a main body (2) provided with signal processing units (12, 13) and a power supply unit (10). On the other hand, signal relay connectors (3c, 2d) are detachably mounted through a thermal buffer space (S) of a predetermined width, so signal processing units (12, 13), power supply unit (10), etc. are provided. The main body (2) and the interface panel (3), which generate a large amount of heat, can be separated from each other through the heat buffer space (S), so that the heat from the main body (2) is transferred to the interface panel (3). It can be a structure that is difficult to transmit.

In addition, since the interface panel (3) provided with the interface terminal (6) is detachably attached to the main body (2), the interface terminal (6), which often causes problems, is not provided. The interface panel (3) can be replaced separately from the main body (2), which is economical and resource-saving.

Furthermore, since the plurality of interface panels (3) each have different types of interface terminals (6), it is possible to use the interface terminals (6) according to the user's needs by attaching them to the main body (2). In addition, even after the signal relay terminal board (1) is installed, the desired interface terminal (6) can be replaced simply by replacing the interface panel (3). It is possible to change the connector, etc., and the convenience is extremely high.

Note that numbers in parentheses indicate corresponding elements in the drawings for the sake of convenience, and therefore the present description is not limited to the descriptions in the drawings.

FIG. 1 is a front view of a signal relay terminal board according to one embodiment of the present invention. FIG. 2 is a side view of FIG. 1; FIG. 3 is a control block diagram of the signal relay terminal board of FIG. FIG. 4 is a diagram showing an example of various interface panels. FIG. 5 is a diagram showing an example of a combination of interface panels. FIG. 6 is a process diagram for mounting the interface panel to the main body of the signal relay terminal board.

Hereinafter, embodiments of the present invention will be described based on the drawings.

First, an example of the structure of the signal relay terminal board 1 which is an embodiment of the present invention will be described.
As shown in FIGS. 1 and 2, the signal relay terminal board 1 has a box-shaped main body 2. On the front side of the main body 2, that is, on the left side of FIG. Two interface panels 3 are connected via brackets 3a, 3a formed at the upper and lower ends of the interface panel 3 in FIG. They are detachably connected by appropriate fastening means 2b (only the center line, not shown) such as screws. Here, the brackets 2a and 3a and the fastening means 2b such as screws that connect them can be made of any material such as metal or resin. If it is desired to reduce it, the brackets 2a and 3a may be made of resin. When the interface panel 3 is attached to the main body 2 as shown in FIG. 2, a heat buffering space S having a width W is formed between the main body 2 and the interface panel 3 . In this mechanical connection, the interface panel 3 and the main body 2 are connected via a signal relay connector 2d provided on the main body 2 and a signal relay connector 3c provided on the interface panel 3, as will be described later. They are electrically and mechanically detachably connected.

Each interface panel 3 has a substrate 3b, as shown in FIG. One or more interface terminals 6 such as a video input connector (HDMI connector, D-sub connector, etc.), audio input connector, LED, switch, etc. are provided on the surface of the substrate 3b. In the case of this embodiment, a wide variety of interface panels 3 can be prepared by the interface terminals 6 provided on the substrate 3b. Specific examples of variations of the interface panel 3 will be described later.

On the other hand, as shown in FIG. 2, a signal relay connector 3c is provided on the rear surface of the substrate 3b. The interface panel 3 is electrically and mechanically connected to the main body 2 via this signal relay connector 3c and a corresponding signal relay connector 2d provided on the main body 2 side. In the interface panel 3, a common standard signal relay connector 3c is arranged at a predetermined position on the board 3b regardless of the type. Therefore, the interface panel 3 can be arranged at any of mounting positions A and B on the left and right sides of the main body 2 in FIG. That is, the two interface panels 3 shown in FIG. 1 can be attached and detached by exchanging the attachment positions A and B between the left and right.

Each interface panel 3 also has a faceplate 5 covering the substrate 3b from the left side of FIG. The face plate 5 is provided with holes 5a each having a shape corresponding to the outer shape of the interface terminal 6. As shown in FIG. It can be arranged in a protruding form. Further, as shown in FIG. 1, the interface panel 3 is attached to the front of the main body 2 in such a manner that the ribs 2c provided on the main body 2 are sandwiched from both sides of FIG. When embedded in the faceplate 5, the faceplate 5 is arranged in an outward facing configuration and functions as part of the veneer.

As shown in FIG. 2, the main body 2 may be provided with a heat sink 2e for heat radiation on its outer peripheral side surface. It may be formed at an appropriate position such as the rear surface of the outer peripheral portion (the opposite surface to which the faceplate 5 is attached). Moreover, the heat sink 2e is not limited to the outer peripheral surface of the main body 2, but can be installed between the main body 2 and the interface panel 3 in FIG. 2 to effectively utilize the space between the main body 2 and the interface panel 3. It is possible. Furthermore, even if the heat sink 2e is formed integrally with the body portion 2 (that is, the heat sink 2e is a part of the body portion 2), or is formed as a component separate from the body portion 2, good.

Next, an example of the control system of the signal relay terminal board 1 will be described.
The interface panel 3 of the signal relay terminal board 1 has the aforementioned interface terminals 6 and the signal relay connector 3c, as well as a controller 7 and a converter 9 mounted on the substrate 3b and the like, as shown in FIG. The control unit 7 is electrically connected to at least part of the interface terminal 6, the conversion unit 9, and the signal relay connector 3c, and controls them. The conversion unit 9 is connected between the interface terminal 6 and the signal relay connector 3c, converts a signal input from the interface terminal 6 according to the control of the control unit 7, and outputs the converted signal to the signal relay connector 3c.

On the other hand, the main unit 2 has a power supply unit 10, a control unit 11, a video/audio switching unit 12, and a video/audio communication unit 13, as shown in FIG. 3, in addition to the signal relay connector 2d. The power supply unit 10 supplies necessary power to the interface panel 3 via the signal relay connector 2d. The control unit 11 and the video/audio switching unit 12 select a signal input from the signal relay connector 2d. The video/audio communication unit 13 performs necessary processing on the signal input from the video/audio switching unit 12 and transmits the processed signal to video equipment (not shown).

Next, an example of the operation of the signal relay terminal board 1 will be described.
As shown in FIG. 3, for example, a video signal received by a video input connector, which is one of the interface terminals 6, is converted into an intermediate signal (a format-converted video signal) by a converter 9 (video equalizer, A/D converter, etc.). ) and transmitted to the signal relay connector 3c. The intermediate signal transmitted to the signal relay connector 3c is used as a video/audio signal (for example, an HDMI signal and an analog audio signal) together with an audio signal input from an audio input connector, which is one of the interface terminals 6, as a signal of the main unit 2. It is sent to the relay connector 2d. When video/audio signals are input from the interface terminals 6 of a plurality of interface panels 3 to the respective signal relay connectors 2d of the main unit 2, the plurality of video/audio signals received by the respective signal relay connectors 2d of the main unit 2 are , is alternatively selected by the video/audio switching unit 12 (selection of the video/audio signal is controlled by a video device (not shown) that outputs a signal from the signal relay terminal board 1 to the video/audio communication unit 13). The control unit 11 selects based on the signal S1, but various signal selection methods are conceivable), is transmitted to the video/audio communication unit 13, and the selected video/audio signal is transmitted to the video/audio communication unit 13 to a video device (not shown). The audio signal received by the audio input connector, which is the interface terminal 6, may be directly transmitted to the signal relay connector 3c of the interface panel 3 as shown in FIG. May be.

Here, when the video/audio switching unit 12 of the main unit 2 receives a signal such as a new video/audio signal from one of the interface panels 3, the video/audio switching unit 12 switches the video/audio from the other interface panel 3 that has been selected until then. The selection may be switched from the audio signal or the like to the newly input video/audio signal or the like for the interface panel 3 (automatic switching function). When an operator operates a switch or the like, which is one of the interface terminals 6 of the interface panel 3, the video/audio switching unit 12 outputs a signal to the outside via the video/audio communication unit 13 to the interface panel 3. You may also switch to video/audio signals related to (manual switching function).

As shown in FIG. 3, when the interface panel 3 is provided with display means such as an LED, it is possible to display the selection state of the interface panel 3. FIG. Further, when a plurality of interface terminals 6 and corresponding LED displays and changeover switches are provided on one interface panel 3, one of the plurality of interface terminals 6 of the interface panel 3 is selected by the changeover switch, The selected state of each interface terminal 6 of the interface panel 3 can also be displayed by LED display.

Next, examples of variations of the interface panel 3 and combinations thereof will be described.
As described above, in this embodiment, various types of interface panels 3 can be prepared by the interface terminals 6 provided on the substrate 3b. For example, the interface terminal 6 includes an HDMI connector (HDMI input I/F panel shown in FIG. 4(a)) and a D-sub connector (D-sub input I/F panel shown in FIG. 4(b)). F panel), one with a video input terminal (video input I/F panel shown in FIG. 4(c)), one with a USB Type-C connector (USB Type-C I/F panel shown in FIG. 4(d)). F panel), etc. can be considered. Of these, the USB Type-C I/F panel can be used for connection with a smartphone. In this case, the smartphone may be charged while receiving video signals from the smartphone. Further, in the case of this embodiment, in addition to general connection terminals, various operation interfaces such as push buttons and adjustment knobs may be provided as the interface terminals 6 (operations shown in FIGS. 4(e) and 4(f)). I/F panel). If the interface terminals 6 are used as push buttons, they can be assigned to functions such as raising and lowering the screen, opening and closing curtains, and turning on and off lighting. On the other hand, if the interface terminal 6 is used as an adjustment knob, functions such as volume adjustment and dimming can be assigned.

Further, as described above, the interface panel 3 can be connected to any signal relay connector 2d of the main body 2 regardless of its type. That is, if the main body 2 is provided with a plurality of signal relay connectors 2d, the same or different types of interface panels 3 can be attached to the main body 2 in a free combination. For example, a combination of an operation I/F panel (push buttons) and an HDMI input I/F panel (Fig. 5(a)), a combination of a video input I/F panel and an operation I/F panel (adjustment knobs) (Fig. 5 ( b)), combination of HDMI input I/F panel and USB Type-C I/F panel (Fig. 5(c)), combination of HDMI input I/F panel and D-sub input I/F panel (Fig. 5 ( d)), a combination of an HDMI input I/F panel and a video input I/F panel (FIG. 5(e)), and the like. It should be noted that the interface panels 3 listed above and their combinations are merely examples, and are not limited to these. Although FIG. 4 shows an example in which two interface panels 3 are combined, the number of signal relay connectors 2d of the main body 2 and the number of interface panels 3 corresponding thereto may be one. , three or more.

Next, an example of the procedure for installing the signal relay terminal board 1 having the above configuration will be described.
First, as shown in FIG. 6(a), the main body 2 having one or more interface panels 3 (two in the case of FIG. 6) and signal relay connectors 2d corresponding to the number of interface panels 3 is prepared. . The interface panel 3 may be selected from variations shown in FIG. 5, for example, according to the user's desire. Subsequently, as shown in FIG. 6B, the interface panel 3 is connected to the main body 2 via the signal relay connectors 2d and 3c and the fastening means 2b (see FIG. 2). The signal relay connectors 2d and 3c that connect the interface panel 3 and the main unit 2 are configured according to a standard common to all the interface panels 3 (that is, all use the same relay connector). The signal relay connector 3c of the interface panel 3 can be connected to any of the signal relay connectors 2d on the left and right sides of FIG. Here, in preparation for the subsequent work, mounting metal fittings 15a and the like for mounting the main body 2 and the interface panel 3 to the terminal box 15 previously installed on the wall surface or on the desk are prepared. Subsequently, as shown in FIG. 6(c), the main body 2 and the interface panel 3 are embedded in the terminal box 15 and fixed using the mounting bracket 15a. Here, in preparation for the subsequent work, a decoration frame 15b for attaching the decoration panel 15c to the terminal box 15 is prepared. The decorative frame 15b is a component for attaching the decorative panel 15c. Subsequently, as shown in FIG. 6(d), the decorative frame 15b is fixed to the terminal box 15 with screws or the like from above the mounting bracket 15a. Here, in preparation for the subsequent work, decorative panels 15c having openings corresponding to the number of interface panels 3 are prepared. The decorative panel 15c has, for example, claws that can be fitted into the decorative frame 15b on the rear surface. Finally, as shown in FIG. 6(e), the decorative panel 15c is attached to the decorative frame 15b. As a result, the main body 2, the mounting bracket 15a, and the like are hidden from the outside. The procedure for installing the signal relay terminal board 1 has been described above.

After the signal relay terminal board 1 is installed, if a different interface terminal 6 is desired due to a change in needs or if the interface terminal 6 breaks down, the unnecessary interface panel 3 is replaced with a new interface panel 3. just do it. Specifically, the unnecessary interface panel 3 is removed from the main unit 2 by reversing the installation procedure of the signal relay terminal board 1 explained with reference to FIG. It suffices to simply attach the panel 3 to the main body 2. - 特許庁That is, according to the signal relay terminal board 1, since the main body 2 and other interface panels 3 can be used continuously, it is economical and resource-saving. Moreover, the terminal box 15 and its accessories such as the mounting bracket 15a, the decorative frame 15b, and the decorative panel 15c used in the installation process may be commercially available parts. In this case, it becomes easier to procure parts, which is economically advantageous.

Finally, the effects of this embodiment will be described.
As described above, the heat generated in the signal relay terminal board 1 is mainly generated from the main unit 2 on which the power supply unit 10 is mounted. In this regard, according to this embodiment, as shown in FIG. 2, a heat buffer space S is interposed between the main body 2 and the interface panel 3 except for the signal relay connectors 2d and 3c. Therefore, the heat transfer from the main body part 2 to the interface panel 3 is effectively reduced, and the interface panel 3 is prevented from becoming hot and deformed, or giving unnecessary anxiety to the user. can be prevented. Further, when the main body 2 is provided with the heat sink 2e, heat is effectively dissipated in the main body 2, so that the heat transfer to the interface panel 3 is further reduced.

In the case of the signal relay terminal board 1, regardless of the type of the interface panel 3, since the main body 2 and the interface panel 3 are connected by the signal relay connectors 2d and 3c of the same standard, the interface panel 3 can be arbitrarily combined. position. Therefore, according to this embodiment, it is possible to flexibly respond to the user's needs.

Furthermore, according to this embodiment, even when the signal relay terminal board 1 is installed, only the unnecessary or faulty interface panel 3 can be replaced. It is economical and resource-saving compared to the signal relay terminal board 1 of .

2 Main unit 2e Heat sink 3 Interface panels 2d, 3c Signal relay connector 5 Face plate 6 Interface terminal 9 Conversion unit 10 Power supply unit 12 Signal processing unit, signal Switching section (video/audio switching section)
13 …… signal processing unit (video/audio communication unit)
S……Heat buffer space

Claims (7)

An interface panel provided with one or more interface terminals, and a main body provided with a signal processing section for processing signals from the interface terminals and outputting them to the outside, and a power supply section,
The interface panel is detachably attached to the main body by a signal relay connector via a thermal buffer space having a predetermined width,
a plurality of the signal relay connectors are provided in the main body, and a plurality of the interface panels are detachably attached to the main body through the plurality of the signal relay connectors,
The signal processing unit selectively selects a signal to be output to the outside from signals received from a plurality of interface panels attached to the main body through each signal relay connector of the main body. has a part
An interface panel provided with a changeover switch is connected to the main body,
The signal relay terminal board, wherein when the changeover switch is operated, the signal switching unit switches the signal to be output to the outside to a signal for the interface panel on which the changeover switch is operated. 2. The signal relay terminal board according to claim 1, wherein said interface panel has a converter for converting a signal input from said interface terminal. The plurality of interface panels each have different types of interface terminals,
2. The signal relay terminal board according to claim 1 , wherein each signal relay connector of said plurality of interface panels is configured to be connectable to any of a plurality of signal relay connectors provided on said main body side. The signal switching unit, when receiving from another interface panel a signal different from the signal from the previously selected interface panel, switches the signal to be output to the outside to the signal for the other interface panel. 2. The signal relay terminal board according to claim 1 , wherein the control is performed such that 5. The signal relay terminal board according to claim 1 , wherein said body portion is provided with a heat sink. 6. The interface panel in the signal relay terminal board according to any one of claims 1 to 5 . 6. The body portion of the signal relay terminal board according to any one of claims 1 to 5 .

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