JP5261141B2 - Connector and power supply unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a connector used for supplying a high voltage power. <P>SOLUTION: The connector for supplying power from a power supply to an electronic device is a female connector, and has two power terminals for supplying the power, two relays connected to the power terminals and controlling supply of the power, and two controlling electrodes for controlling switching of the two relays. In the connector, the power for driving the two relays is directly supplied from the power supply. The two controlling electrodes are connected through a control conduction terminal provided in a male connector connected to the electronic device corresponding to the connector, so that the two relays are closed and the power is supplied from the two power terminals. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to a connector and a power supply unit used for supplying power.

  Generally, an electric device operates by receiving power from a power source. As described above, when power is supplied from the power source, the power is supplied from the power source to the electrical device via the normal connector. As disclosed in Patent Literatures 1 and 2, the connector used at this time is electrically connected by fitting a convex male connector and a concave female connector. Is.

  On the other hand, in recent years, as one of the countermeasures against global warming and the like, even in power transmission in the local area, there is little power loss in voltage conversion and power transmission, etc., and there is no need to increase the thickness of the cable. Supply is being considered. In particular, in an information device such as a server, such a power supply is desirable because it consumes a large amount of power.

  As described above, attention must be paid to the electric power supplied to the electrical equipment because it may affect the contact of the human body. In particular, since DC power is not frequency-dependent, more attention is required.

  Therefore, when power is used for information equipment such as servers, since the work is performed by humans during installation and maintenance of the device, the connector, which is an electrically connected part, is replaced with a normal commercial power source. It must be different from the one used.

In addition, a power supply unit provided with a plurality of connectors is generally used to supply power to a load, such as a server information device.
JP-A-5-82208 JP 2003-31301 A

  The present invention has been made in view of the above points, and in particular, an object of the present invention is to provide a connector and a power supply unit that can safely supply power.

The present invention is a connector for supplying electric power from a power source to an electronic device, and the connector includes a female connector connected to the power source and a male connector connected to the electronic device. the female connector includes two electric power jack terminals for supplying power, and two relays for controlling the supply of the connected to the electric power jack terminals the power, for controlling opening and closing of the two relays of which have a control jack terminal to have a two control electrodes, said male connector has two and the power plug terminals are respectively connected to the two electric power jack terminals in the female connector, control has a control plug terminal connected to the jack terminals, power for driving the two relays be those supplied directly from the power supply, the control plug The child is formed shorter than the two power plug terminals, and after the two power plug terminals in the male connector are connected to the two power jack terminals in the female connector, When the two control electrodes in the control jack terminal are connected by the control plug terminal, the two relays are closed, and power is supplied from the two power jack terminals to the two power plug terminals. Is supplied.

Further, the present invention is characterized in that the female connector is provided with a grounding jack terminal, and the male connector is provided with a grounding plug terminal connected to the grounding jack terminal. To do.

  Further, the present invention is characterized in that the voltage of the power supplied from the power source is a direct current.

The present invention is also a power supply unit provided with a plurality of female connectors to be connected to a male connector for supplying electric power from a power source to an electronic device, wherein the female connector is connected to the power source, and the male connector The connector is connected to the electronic device, and the female connector includes two power jack terminals for supplying power and two power supplies connected to the power jack terminal for controlling the power supply. A control jack terminal having a relay and two control electrodes for controlling opening and closing of the two relays, and the male connector is connected to the two power jack terminals in the female connector, respectively. Two power plug terminals and a control plug terminal connected to the control jack terminal, and the power for driving the two relays is The control plug terminal is formed shorter than the two power plug terminals, and the two power jack terminals in the female connector are connected to the male connector in the male connector. After the two power plug terminals are connected, the two control electrodes in the control jack terminal are connected by the control plug terminal, so that the two relays are closed, and the two power Power is supplied from the jack terminal to the two power plug terminals .

  ADVANTAGE OF THE INVENTION According to this invention, the connector and power supply unit which can supply electric power safely can be provided.

(Overview of connector)
The connector in the present embodiment will be described. In FIG. 1, the outline | summary of a structure of the female connector in this Embodiment is shown.

  The female connector 20 in the present embodiment is connected to a DC power supply 50 for supplying power. The female connector 20 has power jack terminals 21 and 22 for supplying power, a control jack terminal 23, and a ground jack terminal 24 connected to the ground. Electrodes 37 and 38 are provided in the control jack terminal 23.

On the other hand, the male connector 10 connected to the female connector 20 in the present embodiment is connected to an information device 40 such as a server via a power cable 15, and a power plug corresponding to the power jack terminals 21 and 22. Terminals 11 and 12, a control plug terminal 13 corresponding to the control jack terminal 23, and a grounding plug terminal 14 corresponding to the grounding jack terminal 24 are provided.

  The female connector 20 is provided with two relays 31 and 32. The relay 31 is provided with a coil 33 and a relay contact 34 that is closed and connected by passing a current through the coil 33. . The relay contact 34 is in an open state and is not connected when no current flows through the coil 33. In addition, the relay 32 is provided with a coil 35 and a relay contact 36 that is closed and connected by passing a current through the coil 35. The relay contact 36 is in an open state and is not connected when no current flows through the coil 35.

  One of the relay contacts 34 is connected to the positive output of the DC power supply 50, and the other is connected to the power jack terminal 21. One of the relay contacts 36 is connected to the negative output of the DC power supply 50, and the other is connected to the power jack terminal 22.

  The female connector 20 is connected to the same DC power supply 50 as the power supply used to supply power to drive the relays 31 and 32. Specifically, one terminal of the coil 33 in the relay 31 and one terminal of the coil 35 in the relay 32 are connected, and the coil 33 in the relay 31 and the coil 35 in the relay 32 are connected in series. It has a configuration. Further, the other terminal of the coil 33 and one terminal of the DC power supply 50 are connected, and the other terminal of the coil 35 and the other terminal of the DC power supply 50 are respectively provided in the control jack terminal 23. The electrodes 37 and 38 are connected to each other.

  Thus, by using the DC power source 50 as the driving power source for the relays 31 and 32, it is not necessary to provide a dedicated power source for operating the relays 31 and 32, and the configuration can be simplified. It is possible to reduce the cost of the PDU to be performed.

  The two electrodes 37 and 38 are electrically connected through the control plug terminal 13 in the control jack terminal 23 in a state where the male connector 10 and the female connector 20 are fitted. For this reason, the control plug terminal 13 is formed of a conductor, and after the power plug terminals 11 and 12 are engaged with the power jack terminals 21 and 22, the two electrodes 37 and 38 connect the control plug terminal 13. The length of the control plug terminal 13 is shorter than the power plug terminals 11 and 12 so as to be connected to each other.

  In this way, when the electrodes 37 and 38 are connected via the control plug terminal 13, current from the DC power supply 50 flows through the coils 33 and 35 in the relays 31 and 32, and the relay contacts 34 and 36 are closed. In addition, power is supplied to the power jack terminals 21 and 22 in the female connector 20, and further, power is supplied to the information device 40 such as a server through the power plug terminals 11 and 12 in the male connector.

  In the connector according to the present embodiment, the relay contacts 34 and 36 of the relays 31 and 32 are connected to the power jack terminals 21 and 22, respectively. Since the relay contacts 34 and 36 are connected to both of the power jack terminals 21 and 22, the power supply from both of the power jack terminals 21 and 22 is controlled, and safety is further improved. It is even higher.

(Connector structure)
Next, based on FIG.2 and FIG.3, the structure of the connector and the connection method in this Embodiment are demonstrated. 2A is a perspective view of the appearance of the male connector 10, and FIG. 2B is a perspective view of the appearance of the main body of the female connector 20 in the present embodiment. FIG. 3A is a top view of the main body of the female connector 20 in the present embodiment, and FIG. 3B is a side view in the longitudinal direction of the main body of the female connector 20 in the present embodiment. 3 (c) is a rear view of the main body of the female connector 20 in the present embodiment, and FIG. 3 (d) is a side view in the short direction of the main body of the female connector 20 in the present embodiment.

  As shown in FIG. 2A, the external appearance of the main body of the male connector 10 is 30 mm in width W1, 30 mm in length D1, and 16 mm in height H1. A 400 VDC DC power cable 15 is connected to the male connector 10. On the opposite side, power plug terminals 11 and 12, a control plug terminal 13, and a grounding plug terminal 14 formed of metal are provided. Is provided. The length A of the power plug terminals 11 and 12 is 17 mm, the length B of the ground plug terminal 14 is 19 mm, and the length C of the control plug terminal 13 is 14.5 mm.

  On the other hand, as shown in FIGS. 2B and 3, the main body of the female connector 20 in the present embodiment has a configuration in which a part of the main body of the male connector 10 is fitted. The female connector 20 is provided with power jack terminals 21 and 22 connected to the power plug terminals 11 and 12, and a ground jack terminal 24 connected to the ground plug terminal 14, and further includes a control plug. A control jack terminal 23 provided with electrodes 37 and 38 is connected to the inside of the terminal 13.

  Further, the main body of the female connector 20 is provided with a terminal for connecting to the main body of a PDU, which will be described later, on the back surface. Specifically, a power terminal 21A for connecting the relay contact 34 of the relay 31 and the power jack terminal 21; a power terminal 22A for connecting the relay contact 36 of the relay 32 and the power jack terminal 22; A ground terminal 24A connected to the terminal 24 and control terminals 23A and 23B connected to the electrodes 37 and 38 in the control jack terminal 23 are provided.

  As shown in FIG. 3, the external appearance of the female connector 20 has a width W2 of 56 mm, a length D2 of 40 mm, and a height H2 of 40.5 mm. In this embodiment, the relays 31 and 32 are provided outside the main body of the female connector 20, but may be provided inside.

  The electrode 37 and the electrode 38 provided in the female connector 20 are not in contact with each other in a normal state, and the control plug terminal 13 is brought into contact with the electrode 37 and the electrode 38 when the control plug terminal 13 is fitted. In addition, the electrode 37 and the electrode 38 are electrically connected via the control plug terminal 13 so that a current flows.

  The power plug terminals 11 and 12 are shorter than the control plug terminal 13 because the power plug terminals 11 and 12 are connected to the power jack terminals 21 and 22 before being fitted. This is to prevent the high voltage power of 400 VDC from being supplied to the jack terminals 21 and 22. In addition, when a high voltage of 400 VDC is applied to the power jack terminals 21 and 22 of the female connector 20 in a state where the male connector 10 is not joined to the female connector 20, a person is not connected to the power jack terminals 21 and 22. In order to prevent such a situation, there is a possibility that the human body may be in danger when touched by caution or when a person comes in contact with the power jack terminals 21 and 22 through a driver, a metal piece, or a cut lead wire. is there.

(Power supply system)
Next, the configuration of the power supply system using the connector in the present embodiment will be described.

  FIG. 4 shows a configuration of a power supply system using the connector in the present embodiment.

  This power supply system (power supply system) inputs AC power supplied from a commercial power supply 70 to a DC power supply 50 and converts the AC power into 400 VDC by an AC / DC converter 51 in the DC power supply 50. Since direct-current power can be stored by a battery or the like, by providing a battery 52 for backup, it is possible to easily cope with a power outage or the like. The female connector 20 in the present embodiment is connected to the DC power supply 50 via a power cable, and 400 VDC power from the DC power supply 50 is supplied from the female connector 20. In the DC power supply 50, a DC generator 53 that is not supplied with power from a commercial power supply 70 such as PV (solar cell) or FC (fuel cell) is provided, and voltage conversion is performed as necessary. ing.

  On the other hand, the male connector 10 is connected to an information device 40 such as a server, which is a load device, via a power cable 15, and by electrically connecting the female connector 20 and the male connector 10, Electric power is supplied to the information device 40 such as a server.

  Also, in the information device 40 such as a server, a DC / DC converter 41 that converts 400 VDC into a low voltage DC output capable of operating electronic components such as the CPU 42 is provided.

  In such a power supply system, conversion from AC to DC from the commercial power source 70 is only one time, so there is little power loss. With 400 VDC, which is a high-voltage direct current, the thickness of the conductors and the like is a concern. Since it is not necessary and it is direct current, it can be stored in the battery 52, and even when the supply of the commercial power supply 70 is stopped due to a power failure or the like, there are advantages such as easy handling.

  Next, based on FIG. 5, a PDU (power distribution unit) using the connector in the present embodiment will be described.

  400 VDC supplied from the DC power source 50 shown in FIG. 4 is temporarily input to the distribution board 70, and power is distributed to each PDU (power distribution unit) 30. Each PDU 30 is provided with a plurality of female connectors 20 in the present embodiment, and 400 VDC power can be supplied via each female connector 20. On the other hand, a plurality of information devices 40 such as servers are accommodated in the server rack 45, and a male connector 10 for receiving power supply is connected to each information device 40 such as a server via a power cable 15. ing. The male connector 10 is configured to be supplied with power of 400 VDC by being electrically connected to the female connector 20 provided in the PDU 30.

  As mentioned above, although the form which concerns on implementation of this invention was demonstrated, the said content does not limit the content of invention.

Configuration diagram of connector in the present embodiment The perspective view of the appearance of the connector in this embodiment Structural diagram of female connector in the present embodiment Configuration diagram of a power supply system using a connector in the present embodiment The perspective view of PDU using the connector in this Embodiment

Explanation of symbols

10 Male connector 11 Plug terminal for power (+)
12 Power plug terminal (-)
13 Plug terminal for control 14 Plug terminal for ground 15 Power cable 20 Female connector 21 Jack terminal for power (+)
22 Jack terminal for power (-)
23 control jack terminal 24 ground jack terminal 31 relay 32 information device 50 direct-current power supply such as a relay 33 coil 34 the relay contacts 35 coil 36 the relay contact 37 electrode 38 electrode 40 servers

Claims (6)

A connector for supplying electric power from a power source to an electronic device,
The connector has a female connector connected to the power source and a male connector connected to the electronic device,
The female connector includes two electric power jack terminals for supplying power, and two relays for controlling the supply of the connected to the electric power jack terminals the power, for controlling opening and closing of the two relays and have a control jack terminal to have a two control electrodes of,
The male connector has two power plug terminals connected to the two power jack terminals in the female connector, and a control plug terminal connected to the control jack terminal,
The power for driving the two relays is directly supplied from the power source,
The control plug terminal is formed shorter than the two power plug terminals,
After the two power plug terminals in the male connector are connected to the two power jack terminals in the female connector, the two control electrodes in the control jack terminal are connected by the control plug terminal. By being connected, the two relays are closed, and power is supplied from the two power jack terminals to the two power plug terminals . 2. The grounding jack terminal is provided in the female connector, and the male connector is provided with a grounding plug terminal connected to the grounding jack terminal. Connector.   The connector according to claim 1, wherein a voltage of power supplied from the power source is a direct current. In order to supply power from the power source to the electronic device, a power supply unit provided with a plurality of female connectors connected to the male connector,
The female connector is connected to the power source, and the male connector is connected to the electronic device,
The female connector is configured to control two power jack terminals for supplying power, two relays connected to the power jack terminal for controlling the power supply, and opening / closing of the two relays. A control jack terminal having two control electrodes,
The male connector has two power plug terminals connected to the two power jack terminals in the female connector, and a control plug terminal connected to the control jack terminal,
The power for driving the two relays is directly supplied from the power source,
The control plug terminal is formed shorter than the two power plug terminals,
After the two power plug terminals in the male connector are connected to the two power jack terminals in the female connector, the two control electrodes in the control jack terminal are connected by the control plug terminal. By being connected, the two relays are closed, and power is supplied from the two power jack terminals to the two power plug terminals . 5. The female connector is provided with a grounding jack terminal, and the male connector is provided with a grounding plug terminal connected to the grounding jack terminal. Power supply unit. The power supply unit according to claim 4 or 5, wherein the voltage of the power supplied from the power supply is a direct current.