JP7550363B2 - Wiring devices - Google Patents

Description

This disclosure relates generally to wiring devices, and more particularly to wiring devices having multiple connection portions.

Patent document 1 describes a USB hub device (wiring device) that transmits and receives data to and from a USB host controller device and a USB device (external device) via USB communication. The USB hub device described in patent document 1 supplies power supply voltage to multiple USB devices connected to multiple downstream ports.

JP 2013-109461 A

However, the USB hub device described in Patent Document 1 does not allow communication between multiple USB devices connected to the USB hub device.

The objective of this disclosure is to provide a wiring device that can supply power to multiple external devices and enable communication between the multiple external devices.

A wiring device according to an aspect of the present disclosure includes a plurality of device-side connection parts , an open/close switch, and an open/close control part . A plurality of device-side connection parts can be connected to the plurality of device-side connection parts. The plurality of device-side connection parts are provided in a plurality of external devices, respectively . The open/close switch opens and closes a transmission path for transmitting signals between the plurality of external devices. The open/close control part controls the open/close switch. Each of the plurality of device-side connection parts has a power supply terminal and a signal terminal. The power supply terminal supplies power to any one of the plurality of external devices. The signal terminal is connected to a transmission path for transmitting signals between the plurality of external devices. The plurality of signal terminals are connectable to each other via the transmission path. The open/close control part closes the open/close switch when at least two device-side connection parts of the plurality of device-side connection parts are connected to at least two device-side connection parts of the plurality of device-side connection parts.

A wiring device according to one aspect of the present disclosure is capable of supplying power to multiple external devices and enabling communication between the multiple external devices.

FIG. 1 is a block diagram of a wiring device according to an embodiment and a plurality of external devices connected to the wiring device. FIG. 2 is a schematic diagram showing an application example of the wiring device. FIG. 3 is a block diagram of a wiring device according to a first modified example of the embodiment and a plurality of external devices connected to the wiring device.

(Embodiment)
Hereinafter, a wiring device according to the present embodiment will be described with reference to FIGS. 1 to 3. FIG.

However, the embodiment and modified examples described below are merely examples of the present disclosure, and the present disclosure is not limited to the following embodiment and modified examples. Various modifications other than the following embodiment and modified examples are possible according to the design, etc., as long as they do not deviate from the technical concept of the present disclosure.

In addition, all figures described in the following embodiments are schematic diagrams, and the ratios of size and thickness of each component in each figure do not necessarily reflect the actual dimensional ratios.

(1) Overview First, an overview of a wiring device 1 according to the present embodiment will be described with reference to FIGS. 1 and 2. FIG.

The wiring device 1 according to the present embodiment is applied to, for example, a USB outlet for connecting a USB plug (first connection portion) 41 provided at the tip of a USB cable 4. That is, the wiring device 1 according to the present embodiment is a USB outlet. The wiring device 1 supplies power to an external device 2 electrically connected via a USB cable 4, or charges a battery 23 (see FIG. 1) provided in the external device 2. The external device 2 is, for example, a personal computer (PC), a display, or a smartphone. In this embodiment, as shown in FIG. 1, the first external device 2A is, for example, a personal computer. The second external device 2B is, for example, a display. As shown in FIG. 2, the wiring device 1 according to the present embodiment is, for example, an indoor wiring device attached to a wall surface W1 of a building. The building in which the wiring device 1 is installed is, for example, a residence such as a detached house or each dwelling unit of an apartment building, or a non-residential building such as an office, a store, a factory, or a nursing facility.

The wiring device 1 is attached to the construction surface W1 with the electric wire electrically connected to the wiring device 1. As described above, the construction surface W1 is the wall surface W1 of the building. In the wiring device 1, as shown in FIG. 2, the USB plug 41 of the USB cable 4 is electrically connected by inserting it into the insertion hole 110 formed on the front surface of the housing 100, and power can be supplied from the wiring device 1 to the external device 2. Here, the wiring device 1 is a recessed wiring device and is attached to the construction surface W1 using a mounting frame. More specifically, the wiring device 1 is attached to the construction surface W1 by fixing the mounting frame to which the wiring device 1 is attached to, for example, a recessed box. The recessed box here is a box-shaped member with an open front surface, and is installed in the wall so that the front surface is exposed forward from the construction hole formed in the construction surface W1. In addition, in the wiring device 1 according to this embodiment, as shown in FIG. 2, the decorative plate 5 is attached with the functional surface of the wiring device 1 (the front surface of the housing 100 on which the insertion hole 110 is formed) exposed.

The wiring device 1 according to this embodiment includes a plurality of device-side connection parts 10, as shown in FIG. 1. A plurality of device-side connection parts 20 can be connected to the plurality of device-side connection parts 10. The plurality of device-side connection parts 20 are provided on a plurality of external devices 2, respectively. Each of the plurality of device-side connection parts 10 has a power supply terminal 101 and a (second) signal terminal 103. The power supply terminal 101 supplies power to any one of the plurality of external devices 2. The (second) signal terminal 103 is connected to a transmission path 53 for transmitting signals between the plurality of external devices 2. The plurality of (second) signal terminals 103 can be connected to each other via the transmission path 53.

As described above, the wiring device 1 according to this embodiment is capable of supplying power to a plurality of external devices 2 via a plurality of power supply terminals 101. Also, as described above, the wiring device 1 has a plurality of (second) signal terminals 103 that can be connected to each other via a transmission path 53. Therefore, the wiring device 1 according to this embodiment is capable of supplying power to a plurality of external devices 2, and is capable of communicating between the plurality of external devices 2.

(2) Details Next, the configuration of the wiring device 1 according to the present embodiment and the multiple external devices 2 connected to the wiring device 1 will be described with reference to FIG.

In the following description, when it is necessary to distinguish between multiple external devices 2, each of the multiple external devices 2 is also referred to as the "first external device 2A, second external device 2B". In addition, in the following description, when it is necessary to distinguish between multiple USB cables 4, each of the multiple USB cables 4 is also referred to as the "first USB cable 4A, second USB cable 4B". In addition, in the following description, when it is necessary to distinguish between multiple instrument side connection parts 10, each of the multiple instrument side connection parts 10 is also referred to as the "first instrument side connection part 10A, second instrument side connection part 10B". In addition, in the following description, when it is necessary to distinguish between multiple third power conversion circuits 13, each of the multiple third power conversion circuits 13 is also referred to as the "third power conversion circuit 13A, third power conversion circuit 13B".

(2.1) Wiring Device As shown in Fig. 1, the wiring device 1 according to the present embodiment includes a plurality of (e.g., two) device-side connection sections 10. The wiring device 1 further includes a control section 14, an opening/closing section 15, a switching section 16, and an amplifier section 17. The wiring device 1 further includes a first power conversion circuit 11, a second power conversion circuit 12, a plurality of (e.g., two) third power conversion circuits 13, and a pair of power supply terminals T1, T2. The wiring device 1 further includes a housing 100 that houses the first power conversion circuit 11, the second power conversion circuit 12, the plurality of third power conversion circuits 13, the control section 14, the opening/closing section 15, the switching section 16, and the amplifier section 17.

The shape of the housing 100 is, for example, a rectangular parallelepiped. As described above, a plurality of (for example, two) insertion holes 110 are formed on one surface (front surface) of the housing 100. Each of the plurality of insertion holes 110 has a rectangular shape when viewed from the front.

Each of the multiple appliance-side connection parts 10 is, for example, a USB socket to which the USB plug (first connection part) 41 of the USB cable 4 described above can be connected. Specifically, each of the multiple appliance-side connection parts 10 is, for example, a USB Type-C socket. As described above, the multiple appliance-side connection parts 10 can be connected to multiple device-side connection parts 20 provided on the multiple external devices 2, respectively. Each of the multiple appliance-side connection parts 10 has a power supply terminal 101, a first signal terminal 102, and a second signal terminal 103.

The power supply terminal 101 is a terminal for supplying power to one of the multiple external devices 2. More specifically, the power supply terminal 101 supplies power to one of the multiple external devices 2 that is connected via the appliance side connection unit 10, the USB cable 4, and the device side connection unit 20. The power supply terminal 101 is connected to the output terminal of the third power conversion circuit 13 via a first power supply path 51. The first power supply path 51 is a power supply path for supplying AC power (first power) from the power system 3 to the external device 2.

The first signal terminal 102 is a terminal for communication between the control unit 14 of the wiring device 1 and the first control unit 21 of the external device 2. The first signal terminal 102 is connected to the control unit 14.

The second signal terminal (signal terminal) 103 is a terminal for communication between multiple external devices 2 connected to the wiring device 1 via the USB cable 4. The second signal terminal 103 is connected to a transmission path 53 for transmitting signals between the multiple external devices 2. As shown in FIG. 1, an open/close switch 151 (described later) is provided in the middle of the transmission path 53, and by turning this open/close switch 151 to "close", it is possible to connect (make conductive) the multiple second signal terminals 103 together. That is, in the wiring device 1 according to this embodiment, the multiple second signal terminals 103 can be connected to each other via the transmission path 53.

Each of the multiple appliance-side connection parts 10 is held in the housing 100 with its functional surface (the surface on which the power supply terminal 101, the first signal terminal 102, and the second signal terminal 103 are exposed) exposed from the housing 100.

The first power conversion circuit 11 includes, for example, an AC/DC converter. That is, the first power conversion circuit 11 has a function of converting an AC voltage applied from the power system 3 into a DC voltage. The first power conversion circuit 11 has two first input terminals and two first output terminals. The two first input terminals are connected to the power system 3 via a pair of power supply terminals T1 and T2. The two output terminals are connected to two second input terminals of the second power conversion circuit 12. The first power conversion circuit 11 applies the DC voltage converted by the first power conversion circuit 11 to the second power conversion circuit 12.

The second power conversion circuit 12 includes, for example, an isolated DC/DC converter. More specifically, the second power conversion circuit 12 is, for example, a boost chopper circuit that converts the DC voltage applied from the first power conversion circuit 11 into a DC voltage having a higher voltage value than the DC voltage. The second power conversion circuit 12 has two second input terminals and one second output terminal. The two second input terminals are connected to the two first output terminals of the first power conversion circuit 11. The one second output terminal is connected to one third input terminal of each of the multiple third power conversion circuits 13. The second power conversion circuit 12 applies the DC voltage converted by the second power conversion circuit 12 to each of the multiple third power conversion circuits 13.

Each of the multiple third power conversion circuits 13 includes, for example, a DC/DC converter. More specifically, each of the multiple third power conversion circuits 13 is, for example, a step-down chopper circuit that converts the DC voltage applied from the second power conversion circuit 12 into a DC voltage with a lower voltage value than the DC voltage. Each of the multiple third power conversion circuits 13 has one third input terminal and one third output terminal. The one third input terminal is connected to one second output terminal of the second power conversion circuit 12. The one third output terminal is connected to the power supply terminal 101 of the appliance side connection unit 10. Each of the multiple third power conversion circuits 13 applies the DC voltage converted by each third power conversion circuit 13 to the power supply terminal 101. Here, the magnitude of the DC voltage applied by each third power conversion circuit 13 only needs to be determined according to the external device 2 to which it is connected, and the magnitude of the DC voltage applied by each third power conversion circuit 13 may be the same or different.

The control unit 14 can be realized, for example, by a computer system having one or more processors and one or more memories. That is, the control unit 14 functions as a result of one or more processors executing a program recorded in one or more memories of the computer system. Here, the program is pre-recorded in the memory of the control unit 14, but it may be provided through a telecommunications line such as the Internet, or may be provided by recording it on a non-transitory recording medium such as a memory card. The control unit 14 is, for example, composed of an IC (Integrated Circuit).

The control unit 14 is a control circuit that controls the operation of the wiring device 1. More specifically, the control unit 14 is configured to control the first power conversion circuit 11, the second power conversion circuit 12, and the multiple third power conversion circuits 13 separately. The control unit 14 is also configured to control the opening/closing unit 15 and the switching unit 16 separately. The control unit 14 also has a communication function and is configured to communicate with the first control unit 21 of the external device 2.

As shown in FIG. 1, the opening/closing unit 15 has an opening/closing switch 151. The opening/closing switch 151 is provided in the middle of the transmission path 53 connecting the plurality of second signal terminals 103. The opening/closing unit 15 opens and closes the opening/closing switch 151 according to an opening/closing signal from the control unit 14. That is, the opening/closing switch 151 is a switch for opening and closing the transmission path 53 connecting the plurality of second signal terminals 103, and is controlled by the control unit 14. In the wiring device 1 according to this embodiment, by opening and closing the opening/closing switch 151, it is possible to switch between a state in which the plurality of second signal terminals 103 are not connected and a state in which the plurality of second signal terminals 103 are connected. For example, the control unit 14 closes the opening/closing switch 151 when the plurality of device side connection units 20 are connected to the plurality of device side connection units 10. More specifically, the control unit 14 detects that the plurality of device side connection units 20 are connected to the plurality of device side connection units 10 by being able to communicate with each of the first control units 21 of the plurality of external devices 2. When the control unit 14 detects that multiple device side connectors 20 are connected to multiple appliance side connectors 10, it closes the open/close switch 151. In this embodiment, the control unit 14 constitutes an open/close control unit.

The switching unit 16 has a function of switching between the first power supply path 51 and the second power supply path 52. The first power supply path 51 is a power supply path for supplying the first power from the power system 3 to the multiple external devices 2. More specifically, the first power supply path 51 supplies the multiple external devices 2 with DC power after converting the AC power supplied from the power system 3 by the first power conversion circuit 11, the second power conversion circuit 12, and the third power conversion circuit 13. The second power supply path 52 is a power supply path for supplying the second power from at least one external device 2 among the multiple external devices 2 to the remaining external devices 2. A first end of the second power supply path 52 is connected to one of the multiple first power supply paths 51, and a second end of the second power supply path 52 is connected to the other of the multiple first power supply paths 51.

As shown in FIG. 1, the switching unit 16 has a changeover switch 161 that opens and closes the second power supply path 52. The changeover switch 161 is provided in the middle of the second power supply path 52. The changeover switch 161 opens and closes the changeover switch 161 according to a changeover signal from the control unit 14. In the wiring device 1 according to this embodiment, by opening and closing the changeover switch 161, it is possible to switch between a state in which the first power supply path 51 is selected as a power supply path to the multiple external devices 2 and a state in which the second power supply path 52 is selected as a power supply path to the multiple external devices 2. For example, the control unit 14 controls the changeover unit 16 when a power outage in the power system 3 is detected, and switches from the first power supply path 51 to the second power supply path 52. More specifically, the control unit 14 detects a power outage in the power system 3 when power is not being supplied to the external device 2 through communication with the first control unit 21 (described later) of the external device 2, and controls the changeover unit 16 to switch from the first power supply path 51 to the second power supply path 52. The control unit 14 keeps the changeover switch 161 of the changeover unit 16 "open" until a power outage in the power system 3 is detected, and closes the changeover switch 161 of the changeover unit 16 when a power outage in the power system 3 is detected. This allows power to be supplied to multiple external devices 2 through multiple first power supply paths 51 until a power outage in the power system 3 is detected, and when a power outage in the power system 3 is detected, power can be supplied from at least one external device 2 to the remaining external devices 2 through the second power supply path 52. In this embodiment, the control unit 14 constitutes a changeover control unit.

The amplifier 17 is provided in the middle of the transmission path 53 that connects the multiple second signal terminals 103. The amplifier 17 is, for example, configured with a redriver IC. The amplifier 17 has a function of amplifying a signal passing through the transmission path 53. Here, in the wiring device 1 according to this embodiment, as shown in FIG. 1 and FIG. 2, the multiple external devices 2 are connected to each other via the multiple USB cables 4 and the wiring device 1 (transmission path 53). Therefore, the signal path including the transmission path 53 becomes long, and there is a possibility that the signal passing through the signal path may be attenuated. In the wiring device 1 according to this embodiment, as described above, the amplifier 17 is provided in the middle of the transmission path 53. Therefore, even if the signal path including the transmission path 53 becomes long, the amplifier 17 can suppress signal deterioration (attenuation).

(2.2) External Device In the present embodiment, as described above, a plurality of external devices 2 can be connected to the wiring fixture 1. The first external device 2A is, for example, a personal computer. As shown in Fig. 1, the first external device 2A includes an apparatus-side connection unit 20, a first control unit 21, a second control unit 22, and a battery 23. The first external device 2A further includes a housing 200 that houses the first control unit 21, the second control unit 22, and the battery 23.

The device-side connection unit 20 is, for example, a USB socket to which the USB plug (second connection unit) 42 of the USB cable 4 can be connected. Specifically, each of the multiple device-side connection units 20 is, for example, a USB Type-C socket. As shown in FIG. 1, the device-side connection unit 20 has a power receiving terminal 201, a first signal terminal 202, and a second signal terminal 203.

The power receiving terminal 201 is a terminal for receiving power (DC power) supplied from the wiring device 1. The power receiving terminal 201 is connected to the battery 23. The first signal terminal 202 is a terminal for communication between the control unit 14 of the wiring device 1 and the first control unit 21 of the external device 2. The first signal terminal 202 is connected to the first control unit 21. The second signal terminal 203 is a terminal for communication between a plurality of external devices 2 connected to the wiring device 1 via the USB cable 4. The second signal terminal 203 is connected to the second control unit 22. The device side connection unit 20 is held in the housing 200 with its functional surface (the surface on which the power receiving terminal 201, the first signal terminal 202, and the second signal terminal 203 are exposed) exposed from the housing 200.

Each of the first control unit 21 and the second control unit 22 can be realized, for example, by a computer system having one or more processors and one or more memories. That is, the one or more processors execute a program recorded in one or more memories of the computer system to function as the first control unit 21 or the second control unit 22. Here, the program is pre-recorded in the memory of the first control unit 21 and the second control unit 22, but it may be provided through a telecommunications line such as the Internet, or may be provided by recording it on a non-temporary recording medium such as a memory card.

Each of the first control unit 21 and the second control unit 22 is a control circuit that controls the operation of the first external device 2A. The second control unit 22 is, for example, a graphics controller that is responsible for image display in the first external device 2A. The first control unit 21 is, for example, a controller that is responsible for functions other than image display that the second control unit 22 is responsible for in the first external device 2A. The first control unit 21 has a communication function, and can communicate with the control unit 14 of the wiring device 1 by connecting the wiring device 1 and the first external device 2A with a USB cable 4. The second control unit 22 also has a communication function, and can communicate with the second control unit 22 of the second external device 2B by connecting the wiring device 1 and the first external device 2A and the second external device 2B with a USB cable 4, respectively.

The battery 23 includes a secondary battery such as a lithium ion battery. The battery 23 stores DC power supplied from the wiring device 1 via the USB cable 4 in the secondary battery. The DC power stored in the secondary battery of the battery 23 is supplied to the first control unit 21, the second control unit 22, etc., during a power outage in the power system 3. In this embodiment, the DC power stored in the secondary battery of the battery 23 can also be supplied to the second external device 2B via the wiring device 1.

The second external device 2B is, for example, a display. As shown in FIG. 1, the second external device 2B includes a device-side connection unit 20, a first control unit 21, and a second control unit 22. The second external device 2B further includes a housing 200 that houses the first control unit 21 and the second control unit 22. Here, the device-side connection unit 20 is configured by omitting the power receiving terminal 201 from the device-side connection unit 20 of the first external device 2A described above, so a description thereof will be omitted here. The first control unit 21 and the second control unit 22 are also similar to the first control unit 21 and the second control unit 22 of the first external device 2A described above, so a description thereof will be omitted here. The device-side connection unit 20 is held in the housing 200 with its functional surface exposed from the housing 200, similar to the first external device 2A described above.

(2.3) USB Cable Each of the plurality of USB cables 4 is a cable for connecting the external device 2 to the wiring fixture 1. Each of the plurality of USB cables 4 includes a first connection portion 41, a second connection portion 42, and a cable 43.

The first connection part 41 is, for example, a USB plug. The first connection part 41 can be connected to, for example, the appliance side connection part 10 (USB socket) of the wiring device 1. As shown in FIG. 1, the first connection part 41 has a first terminal 411, a second terminal 412, and a third terminal 413. The first terminal 411 is a terminal corresponding to the power supply terminal 101 of the appliance side connection part 10. The second terminal 412 is a terminal corresponding to the first signal terminal 102 of the appliance side connection part 10. The third terminal 413 is a terminal corresponding to the second signal terminal 103 of the appliance side connection part 10.

The second connection part 42 is, for example, a USB plug, like the first connection part 41. The second connection part 42 can be connected, for example, to the device side connection part 20 (USB socket) of the external device 2. As shown in FIG. 1, the second connection part 42 has a first terminal 421, a second terminal 422, and a third terminal 423. The first terminal 421 is a terminal corresponding to the power receiving terminal 201 of the device side connection part 20. The second terminal 422 is a terminal corresponding to the first signal terminal 202 of the device side connection part 20. The third terminal 423 is a terminal corresponding to the second signal terminal 203 of the device side connection part 20.

The cable 43 is a cable that connects the first connection part 41 and the second connection part 42. The cable 43 includes a first core wire, a second core wire, and a third core wire. The first core wire connects the first terminal 411 of the first connection part 41 and the first terminal 421 of the second connection part 42. The second core wire connects the second terminal 412 of the first connection part 41 and the second terminal 422 of the second connection part 42. The third core wire connects the third terminal 413 of the first connection part 41 and the third terminal 423 of the second connection part 42.

By connecting the first connection part 41 of the USB cable 4 to the device side connection part 10 of the wiring device 1 and connecting the second connection part 42 of the USB cable 4 to the device side connection part 20 of the external device 2, it becomes possible to supply power from the wiring device 1 to multiple external devices 2. In addition, by connecting the first connection part 41 of the USB cable 4 to the device side connection part 10 of the wiring device 1 and connecting the second connection part 42 of the USB cable 4 to the device side connection part 20 of the external device 2, communication between the first external device 2A and the second external device 2B becomes possible.

(3) Operation (3.1) First Operation First, a first operation of the wiring device 1 according to the present embodiment will be described. The first operation is an operation of closing the open/close switch 151 when a plurality of (e.g., two) external devices 2 are connected to the wiring device 1.

First, the wiring device 1 and the first external device 2A are connected using the first USB cable 4A. At this time, the first connection part 41 of the first USB cable 4A is connected to the first device side connection part 10A of the wiring device 1, and the second connection part 42 of the first USB cable 4A is connected to the device side connection part 20 of the first external device 2A.

Next, the wiring device 1 and the second external device 2B are connected using the second USB cable 4B. At this time, the first connection part 41 of the second USB cable 4B is connected to the second device side connection part 10B of the wiring device 1, and the second connection part 42 of the second USB cable 4B is connected to the device side connection part 20 of the second external device 2B.

The control unit 14 of the wiring device 1 detects that each device-side connection unit 20 is connected to the corresponding device-side connection unit 10 by being able to communicate with the first control unit 21 of each external device 2 via the USB cable 4, and turns the open/close switch 151 of the open/close unit 15 to "close." This allows electrical continuity between the multiple second signal terminals 103, and enables communication between the first external device 2A (its second control unit 22) and the second external device 2B (its second control unit 22).

(3.2) Second Operation Next, a second operation of the wiring device 1 according to the present embodiment will be described. The second operation is an operation of switching from the first power supply path 51 to the second power supply path 52 so that power can be supplied from the first external device 2A to the second external device 2B during a power outage in the power system 3. Here, it will be described that during a power outage in the power system 3, the operating power of the control unit 14 of the wiring device 1 is supplied from the battery 23 of the first external device 2A.

Before a power outage occurs in the power system 3, the changeover switch 161 of the changeover unit 16 is "open," and the first power supply path 51 is selected as the power supply path to each external device 2. Therefore, in this case, the DC power converted by the first power conversion circuit 11, the second power conversion circuit 12, and the third power conversion circuit 13 is supplied to each external device 2 via the first power supply path 51.

When a power outage occurs in the power system 3, the power supply from the wiring device 1 to each external device 2 is stopped. Since the first external device 2A is equipped with a battery 23, power is supplied from the battery 23 to the first control unit 21. The first control unit 21 detects that a power outage has occurred in the power system 3 when the power supply from the wiring device 1 has stopped. When the first control unit 21 detects a power outage in the power system 3, it starts supplying power from the battery 23 to the control unit 14 of the wiring device 1.

In the wiring device 1, the control unit 14 monitors the output voltage of the second power conversion circuit 12, and detects a power outage in the power system 3 when the output voltage of the second power conversion circuit 12 becomes zero. The control unit 14 then closes the changeover switch 161 of the changeover unit 16 so that the first external device 2A can supply power to the second external device 2B, and switches the power supply path to the second external device 2B from the first power supply path 51 to the second power supply path 52. This makes it possible to supply power from the battery 23 of the first external device 2A to the second external device 2B via the second power supply path 52. In other words, according to the wiring device 1 of this embodiment, even if a power outage occurs in the power system 3, power can be supplied from the first external device 2A, which has a battery 23, to the second external device 2B, which does not have a battery, via the wiring device 1.

When power is restored to the power system 3, the control unit 14 detects the restoration of power in the power system 3 when the output voltage of the second power conversion circuit 12 becomes equal to or higher than the threshold voltage. When the control unit 14 detects the restoration of power in the power system 3, it opens the changeover switch 161 of the switching unit 16 so that power can be supplied to each of the first external device 2A and the second external device 2B. This switches from the second power supply path 52 to the first power supply path 51.

(4) Effects As described above, the wiring device 1 according to the present embodiment includes a plurality of device-side connection parts 10. A plurality of device-side connection parts 20 can be connected to the plurality of device-side connection parts 10. The plurality of device-side connection parts 20 are provided on the plurality of external devices 2, respectively. Each of the plurality of device-side connection parts 10 has a power supply terminal 101 and a (second) signal terminal 103. The power supply terminal 101 supplies power to any one of the plurality of external devices 2. The (second) signal terminal 103 is connected to a transmission path 53 for transmitting signals between the plurality of external devices 2. The plurality of (second) signal terminals 103 can be connected to each other via the transmission path 53.

As described above, the wiring device 1 according to this embodiment is capable of supplying power to a plurality of external devices 2 through a plurality of power supply terminals 101 that each of the plurality of device-side connection sections 10 has. Also, as described above, in the wiring device 1, the plurality of (second) signal terminals 103 can be connected to each other via the transmission path 53. Therefore, the wiring device 1 according to this embodiment is capable of supplying power to a plurality of external devices 2, and is capable of communicating between the plurality of external devices 2.

As described above, the wiring device 1 according to this embodiment further includes a switching unit 16 that switches between the first power supply path 51 and the second power supply path 52. Therefore, even during a power outage in the power grid 3, for example, it is possible to supply power from at least one external device 2 (the first external device 2A in this embodiment) to the remaining external device 2 (the second external device 2B in this embodiment) via the second power supply path 52.

As described above, the wiring device 1 according to this embodiment further includes an amplifier 17. Therefore, as in the wiring device 1 according to this embodiment, when a signal is transmitted via multiple (e.g., two) USB cables 4, that is, when the signal path including the transmission path 53 is long, it is possible to suppress signal degradation (attenuation).

(5) Modifications The above-described embodiment is merely one of various embodiments of the present disclosure. The above-described embodiment can be modified in various ways depending on the design, etc., as long as the object of the present disclosure can be achieved. Modifications of the above-described embodiment are listed below. The modifications described below can be applied in appropriate combination.

(5.1) Modification 1
A wiring accessory 1A according to the first modification will be described with reference to FIG.

Modification 1 differs from the above-described embodiment in that the multiple external devices 2 connected to the wiring device 1A are the same type of device including an operating system (hereinafter also referred to as "OS"). The wiring device 1A according to modification 1 also differs from the wiring device 1 according to the above-described embodiment in that the control unit 14A has a setting unit 141. Note that the rest of the configuration of modification 1 is the same as in the above-described embodiment, and the same components are denoted by the same reference numerals and will not be described.

The wiring device 1A according to the first modification includes a control unit 14A. The control unit 14A has a setting unit 141. The setting unit 141 sets the remaining external devices 2, excluding at least one external device 2, among the plurality of external devices 2 as virtual drives.

In the first modification, a first external device 2A and a second external device 2B can be connected to the wiring device 1. Each of the first external device 2A and the second external device 2B is, for example, a personal computer. That is, each of the multiple external devices 2 is the same type of device including an OS. In this disclosure, "the same type of device" means a device that has the same OS installed. For example, if the OS of the first external device 2A is Windows (registered trademark), the OS of the second external device 2B is also Windows (registered trademark).

As in the first modification, when the first external device 2A and the second external device 2B are the same type of device including an OS, the setting unit 141 of the control unit 14A of the wiring device 1A sets one of the first external device 2A and the second external device 2B as a virtual drive to enable the connection between the first external device 2A and the second external device 2B. In the present embodiment, as an example, the setting unit 141 sets the first external device 2A connected to the wiring device 1A via the first device side connection unit 10A as a host, and the second external device 2B connected to the wiring device 1A via the second device side connection unit 10B as a device. Then, the setting unit 141 sets the second external device 2B set as a device as a virtual drive. This enables mutual communication between the first external device 2A and the second external device 2B.

In the first modification, the second external device 2B connected to the wiring device 1A via the second device side connection unit 10B is set as a device and as a virtual drive, but this is not limited thereto. The setting unit 141 can switch between host and device for multiple external devices 2, and may set an external device 2 set as a device among the multiple external devices 2 as a virtual drive. For example, if the first external device 2A is set as a host and the second external device 2B is set as a device, the setting unit 141 sets the second external device 2B as a virtual drive. Also, if the first external device 2A is set as a device and the second external device 2B is set as a host, the setting unit 141 sets the first external device 2A as a virtual drive. This enables mutual communication between the first external device 2A and the second external device 2B.

In the first modification, each of the first external device 2A and the second external device 2B is a personal computer, but this is not limited thereto. Each of the first external device 2A and the second external device 2B may be the same type of device including an OS, and may be, for example, a smartphone or a digital camera. Even in these cases, the setting unit 141 may set an external device 2 that is set as a device among the multiple external devices 2 as a virtual drive. This allows communication between the first external device 2A and the second external device 2B.

(5.2) Other Modifications Other modifications are listed below.

In the above embodiment, the wiring device 1 is a USB outlet, but the wiring device 1 may be, for example, an outlet tap, a wall outlet, a fixture outlet, an OA tap (power tap), or a charging adapter (AC adapter).

In the above embodiment, an open/close switch 151 for opening and closing the transmission path 53 is provided in the middle of the transmission path 53 connecting the multiple signal terminals 103, but the open/close switch 151 may be omitted. In other words, the multiple signal terminals 103 may be constantly connected to each other via the transmission path 53. With this configuration, a configuration for opening and closing the multiple signal terminals 103 (open/close switch 151) is not necessary, and the wiring device 1 can be simplified.

In the above embodiment, each of the multiple appliance side connection parts 10 is a USB Type-C socket, but it may be, for example, a USB Type-A socket or a USB Type-B socket. Also, in the above embodiment, each of the multiple device side connection parts 20 is a USB Type-C socket, but it may be, for example, a USB Type-A socket or a USB Type-B socket.

In the above embodiment, two tool-side connection parts 10 are provided in the wiring tool 1, but the number of tool-side connection parts 10 is not limited to two and may be three or more. In this case, it is preferable that the control unit 14 is configured to select a corresponding transmission path 53 from among the multiple transmission paths 53 according to the number of tool-side connection parts 10 to which the device-side connection parts 20 are connected among the three or more tool-side connection parts 10.

In the above embodiment, there is one second signal terminal 103, but there may be, for example, multiple second signal terminals 103. In this case, the multiple transmission paths 53 may be opened and closed by one opening/closing unit 15, or may be opened and closed by multiple opening/closing units 15 in one-to-one correspondence.

In the above embodiment, the switching unit 16 and the amplifier unit 17 are provided separately, but the switching unit 16 and the amplifier unit 17 may be provided integrally. In other words, the redriver IC that constitutes the amplifier unit 17 may include the function of the switching unit 16.

In the above embodiment, the battery 23 provided in the first external device 2A includes a secondary battery, but this is not limited to this. The battery 23 may include, for example, a primary battery or an electric double-layer capacitor (EDLC).

In the above embodiment, when the power grid 3 experiences a power outage, the battery 23 of the first external device 2A supplies operating power to the control unit 14 of the wiring device 1. However, the wiring device 1 may also include, for example, a secondary battery. This makes it possible to supply power to the control unit 14 from the secondary battery when the power grid 3 experiences a power outage.

In the above embodiment, the control unit 14 detects that multiple device-side connections 20 are connected to multiple tool-side connections 10 by being able to communicate with the first control units 21 of multiple external devices 2, but this is not limited to the above. For example, the control unit 14 may provide a detection switch in the tool-side connection unit 10 and use this detection switch to detect that the tool-side connection unit 10 is connected to the device-side connection unit 20.

In the above embodiment, the first external device 2A is a personal computer and the second external device 2B is a display, but for example, the first external device 2A may be a personal computer and the second external device 2B may be a smartphone. Furthermore, the first external device 2A may be a personal computer and the second external device 2B may be a mouse.

In the above embodiment, the control unit 14 detects power outages and power restoration in the power grid 3 based on the output voltage of the second power conversion circuit 12, but may also detect power outages and power restoration in the power grid 3 by communicating with the first control unit 21 of the first external device 2A, for example.

(Aspects)
The following aspects are disclosed from the above-described embodiment and modified examples.

The wiring device (1; 1A) according to the first aspect includes a plurality of device-side connection parts (10). A plurality of device-side connection parts (20) can be connected to the plurality of device-side connection parts (10). The plurality of device-side connection parts (20) are provided on the plurality of external devices (2). Each of the plurality of device-side connection parts (10) has a power supply terminal (101) and a signal terminal (103). The power supply terminal (101) supplies power to any one of the plurality of external devices (2). The signal terminal (103) is connected to a transmission path (53) for transmitting signals between the plurality of external devices (2). The plurality of signal terminals (103) can be connected to each other via the transmission path (53).

According to this embodiment, it is possible to supply power to multiple external devices (2) and to communicate between the multiple external devices (2).

The wiring device (1; 1A) according to the second aspect further includes an open/close switch (151) and an open/close control unit (14; 14A) in the first aspect. The open/close switch (151) opens and closes the transmission line (53). The open/close control unit (14; 14A) controls the open/close switch (151).

According to this embodiment, it is possible to open and close the transmission path (53).

In the wiring device (1; 1A) according to the third aspect, in the second aspect, the opening/closing control unit (14; 14A) closes the opening/closing switch (151) when at least two of the multiple device side connection parts (20) are connected to at least two of the multiple device side connection parts (10).

According to this embodiment, the opening/closing switch (151) can be closed by connecting at least two device side connection parts (20) to at least two appliance side connection parts (10).

In the wiring device (1; 1A) according to the fourth aspect, in the first aspect, the multiple signal terminals (103) are constantly connected to each other.

According to this embodiment, a configuration for opening and closing multiple signal terminals (103) is not required, making it possible to simplify the wiring device (1).

The wiring device (1; 1A) according to the fifth aspect is any one of the first to fourth aspects, and further includes a switching unit (16). The switching unit (16) switches between a first power supply path (51) and a second power supply path (52). The first power supply path (51) supplies a first power from the power system (3) to a plurality of external devices (2). The second power supply path (52) supplies a second power from at least one of the plurality of external devices (2) to the remaining external devices (2). The switching unit (16) switches from the first power supply path (51) to the second power supply path (52) when a power outage in the power system (3) is detected.

According to this embodiment, it is possible to supply power to the external device (2) even during a power outage in the power grid (3).

The wiring device (1; 1A) according to the sixth aspect further includes a switching control unit (14; 14A) that controls the switching unit (16) in the fifth aspect. The switching unit (16) has a switching switch (161) that opens and closes the second power supply path (52). The switching control unit (14; 14A) opens the switching switch (161) until a power outage in the power system (3) is detected. When a power outage in the power system (3) is detected, the switching control unit (14; 14A) closes the switching switch (161).

According to this embodiment, it is possible to supply power to the external device (2) even during a power outage in the power grid (3).

The wiring device (1; 1A) according to the seventh aspect is any one of the first to sixth aspects and further includes an amplifier (17). The amplifier (17) amplifies the signal passing through the transmission path (53).

According to this aspect, it is possible to suppress degradation of signals transmitted between multiple external devices (2).

In the wiring device (1; 1A) according to the eighth aspect, in any one of the first to seventh aspects, each of the multiple external devices (2) is a homogeneous device including an operating system. The wiring device (1; 1A) further includes a setting unit (141). The setting unit (141) sets the remaining external devices (2) excluding at least one external device (2) among the multiple external devices (2) as virtual drives.

According to this embodiment, it becomes possible for multiple external devices (2) to communicate with each other.

The wiring device (1; 1A) according to the ninth aspect is a USB outlet in any one of the first to eighth aspects.

According to this aspect, it is possible to realize a USB outlet that can supply power to multiple external devices (2) and can communicate between multiple external devices (2).

The configurations according to the second to ninth aspects are not essential to the wiring device (1; 1A) and may be omitted as appropriate.

1, 1A Wiring device 2 External device 3 Power system 10 Device side connection section 14, 14A Control section (opening/closing control section, switching control section)
16 Switching section 17 Amplifying section 20 Device side connection section 51 First power supply path 52 Second power supply path 53 Transmission path 101 Power supply terminal 103 Second signal terminal (signal terminal)
141 Setting section 151 Open/close switch 161 Changeover switch

Claims (6)

A plurality of device-side connectors to which a plurality of device-side connectors respectively provided on a plurality of external devices can be connected;
an open/close switch for opening and closing a transmission path for transmitting signals between the plurality of external devices;
An opening/closing control unit that controls the opening/closing switch,
Each of the plurality of appliance side connection parts is
a power supply terminal for supplying power to any one of the plurality of external devices;
a signal terminal connected to the transmission line;
the signal terminals are connectable to each other via the transmission path,
the opening/closing control unit closes the opening/closing switch when at least two of the plurality of device-side connection parts are connected to at least two of the plurality of appliance-side connection parts;
Wiring equipment. a switching unit that switches between a first power supply path that supplies a first power from a power system to the plurality of external devices and a second power supply path that supplies a second power from at least one of the plurality of external devices to the remaining external devices,
The switching unit switches from the first power supply path to the second power supply path when a power outage in the power grid is detected.
The wiring device according to claim 1 . A switching control unit that controls the switching unit is further provided.
The switching unit has a changeover switch that opens and closes the second power supply path,
The switching control unit is
The changeover switch is opened until the power outage of the power grid is detected;
When the power outage in the power grid is detected, the changeover switch is closed.
The wiring device according to claim 2. An amplifier unit that amplifies the signal passing through the transmission path,
The wiring device according to any one of claims 1 to 3. each of the plurality of external devices is a homogeneous device including an operating system;
a setting unit that sets the remaining external devices, excluding at least one external device, among the plurality of external devices as virtual drives;
The wiring device according to any one of claims 1 to 4. It is a USB outlet.
The wiring device according to any one of claims 1 to 5.

Images