JP5488891B2 - Cable connection confirmation device - Google Patents

Description

  The present invention relates to a cable connection confirmation device for confirming the connection state of various cables such as a power cable, a signal cable, and a control cable that connect a device and a power outlet or between the device and the device.

In recent years, the amount of wires such as power cables, signal cables, control cables, etc., connecting between electrical and electronic devices and power outlets and between devices and devices has been increasing.
In addition, free access floors that can conceal wiring under the floor have become widespread with the spread of OA equipment, and one end and the other end of a cable can be easily identified as more cables are wired under the floor. It has become difficult to do.

  In this cable, a supply-side connector formed at one end of a cable connected to a supply-side device that supplies power and electric signals is replaced with a reception-side connector that is formed on a reception-side device that receives supply of power and electric signals. By connecting, the supply side device and the reception side device are electrically connected.

  For example, by inserting a part of a plurality of core wires that output power and electrical signals from a supply-side device exposed on the supply-side connector into a plurality of holes having a predetermined shape formed on the receiving-side connector The supply side device and the reception side device are electrically connected.

  FIG. 2 is an explanatory diagram of the cable connection relationship between the conventional receiving device and the supply device as described above, (A) is an overall configuration diagram, and (B) is a cross-sectional view of the cable taken along line AA. is there.

  In FIG. 2, 1 is a supply side device for supplying power and electric signals, 2 is a cable for electrically connecting the devices to each other, and 3 is a reception side device for receiving supply of power and electric signals.

  The cable 2 is mainly formed by covering a plurality of core wires 2a and 2b that are electrically insulated from each other and electrically connected to a supply-side device, and surrounding the core wires 2a and 2b with an electrostatic body or the like. The shield wire 2c is connected to the ground, and the connector 2d is electrically connected to the receiving device 3. A part of the core wires 2a and 2d is exposed and formed on the connector portion 2d.

  The receiving device 3 is formed with a connector portion 3 a for electrical connection with the supply device 1. A plurality of holes having a predetermined shape are formed in the connector portion 3 a of the receiving device 3.

  With the configuration as described above, the supply side device 1 and the reception side device 3 are electrically connected to each other by the cable 2 by inserting the core wires 2 a and 2 b exposed from the connector portion 2 a of the cable 2.

  As a result, the supply side connector 2a of the cable 2 and the connector portion 3a of the reception side device 3 are connected, whereby the supply side device and the reception side device are electrically connected.

  As prior art documents related to such conventional cable connection, there are the following patent documents.

Japanese Patent Laid-Open No. 5-322954

  However, the conventional cable connection has the following problems.

(1)
There was a problem that it was not possible for the supply side device to determine whether or not the connector was connected (cable connected).

(2)
If the receiving device can be identified by the connector shape, etc., it can be determined by the load load, voltage, resistance value, etc. In this case, it is necessary to measure the internal electrical signal, and the signal line is used when measuring the electrical signal Since it is directly connected to the (core wire), there is a problem in that the electrical signal is affected.

(3)
Furthermore, when the receiving side device cannot be specified only by the same shape of the connector, there is a problem that it is difficult to determine the conditions at the supplying side device.

  The present invention solves the above-described problems, and an object of the present invention is to realize a cable connection confirmation device that can confirm connection of a connector at a supply side device without affecting a signal line.

In order to achieve such a problem, the invention according to claim 1 of the present invention is:
A cable connection confirmation device for confirming the connection of a cable for transmitting a power transmission or an electrical signal by connecting a part of the reception side device with a conductive reception side connector,
The cable is
A first connector portion having conductivity and a second connector portion, a supply-side connector for connecting to the receiving-side connector;
A conductive first shield line connected to the first connector portion;
A conductive second shield wire connected to the second connector portion,
Detecting means connected to the first and second shield wires and measuring a resistance value or a contact of the first connector part and the second connector part ;
The first relay connected to the first shield line and the second relay connected to at least one of the second shield lines are controlled so that at least one of the first and second shield lines is grounded. It is the cable connection confirmation apparatus characterized by including the relay drive means to connect.

The invention described in claim 2 is the cable connection confirmation device according to claim 1,
The supply side connector is
An insulator for insulating the first connector portion and the second connector portion is provided.

  As described above, according to the cable connection confirmation device of the present invention, the first connector portion and the second connector portion that are conductive are connected to the receiving connector that is a conductive connector in the receiving device. A supply side connector, a conductive first shield wire connected to the first connector portion, a cable composed of a conductive second shield wire connected to the second connector portion, and the first and first Cable connection without affecting the internal signal line (core wire) by providing a detecting means connected to the two shield wires and measuring the resistance value or contact of the first connector part and the second connector part This is effective in that the (connector connection) state can be known. In other words, it is possible to know the cable connection (connector connection) state without any problem even if the electric signal contents are not known.

  Furthermore, the cable connection confirmation device of the present invention controls the first relay connected to the first shield wire and / or the second relay connected to the second shield wire in addition to the above-described configuration. By providing the relay driving means for connecting the first and / or second shielded wire to the ground, when the cable is connected (connector connected), the effect as the shielded wire is also effective. .

It is a block diagram which shows one Example of the cable connection confirmation apparatus which concerns on this invention. It is explanatory drawing of the cable connection relation of the conventional receiving side apparatus and supply side apparatus.

The main feature of the cable connection confirmation device of the present invention is that the connectors formed at one end of the cable connected to the supply side device are each composed of a conductive first connector portion and a second connector portion. The point is that the cable is mainly composed of a conductive first shield line connected to the first connector part and a conductive second shield line connected to the second connector part, For example, detection means for measuring resistance values or contact points of the first connector portion and the second connector portion connected to the first and second shield wires is provided.
Hereinafter, the cable connection confirmation apparatus of this invention is demonstrated using drawing.

<Example 1>
FIG. 1 is a block diagram showing an embodiment of a cable connection confirmation apparatus according to the present invention. The same reference numerals are given to the same parts as those in FIG. 1A is an overall configuration diagram, and FIG. 1B is an AA cross-sectional view of the cable.

(Description of main configuration)
In FIG. 1, 4 is a supply side device for supplying power and electric signals, 5 is a cable for electrically connecting the devices to each other, and 6 is a receiving side device for receiving supply of power and electric signals.
The cable connection confirmation apparatus according to the present invention mainly includes a supply-side device 4 and a cable 5.

The cable 5 is an example of a supply-side connector for electrically connecting the core wires 5a and 5b such as signal lines, the first shield wire 5c, the second shield wire 5d, and the receiving device 6. A certain connector 5e (a first connector portion 5e-1 and a second connector portion 5e-2) is configured.
The plurality of core wires 5a and 5b of the cable 5 are formed to be electrically insulated from each other, and are electrically connected to the supply side device.
The first shield wire 5c is formed by covering the core wires 5a and 5b with a conductor or the like, and is connected to the first connector 5e-1.
The second shield line 5d is formed by covering the first shield line 5c with a conductor or the like, and is connected to the second connector 5e-2.
The connector 5e includes a conductive first connector portion 5e-1 and a second connector portion 5e-2. The connector 5e may include an insulator that (electrically) insulates (divides) the first connector portion 5e-1 and the second connector portion 5e-2. Moreover, a part of core wire 5a, 5d is exposed and formed in this connector 5e.

  The supply-side device 4 is a device that supplies power and electric signals, and mainly includes a detection means 4a, a first relay 4b, a connected second relay 4c, a first relay 4b, and / or It is comprised from the relay drive means 4d which drive-controls the 2nd relay 4c. The power supply unit or electric signal transmission unit (not shown) is also included.

The detection means 4a of the supply side device 4 is connected to the first shield wire 5c and the second shield wire 5d of the cable 5, and the resistance values of the first connector portion 5e-1 and the second connector portion 5e-2. Or measure the contact.
The first relay 4b is connected to the ground and the relay driving unit 4d, and when controlled (relay driving) by the relay driving unit 4d and turned on, the first relay 4b is connected to the first shield wire 5c and controlled by the relay driving unit 4d. (Relay driving), the connection with the first shield wire 5c is released. That is, when the first relay 4b is turned on, the first connector portion 5e-1 is grounded.
The second relay 4c is connected to the ground and the relay driving means 4d, and is controlled by the relay driving means 4d (relay driving) to be connected to the second shield wire 5d and controlled by the relay driving means 4d. (Relay driving), the connection with the second shield wire 5d is released. That is, when the second relay 4c is turned on, the second connector portion 5e-2 is grounded.
The relay drive means 4d controls the ON / OFF state of the first relay 4b connected to the first shield wire 5c and / or the second relay 4c connected to the second shield wire 5d, and relay drive Then, the first shield wire 5c and / or the second shield wire 5d is connected (installed) to the ground.

  The relay driving unit 4d may be configured inside the detection unit 4a. When the detection unit 4a confirms the cable connection by the resistance value measurement or the contact detection, the relay drive unit 4d controls the ON / OFF state of the first relay 4b and / or the second relay 4c, and drives the relay. Then, the first shield wire 5c and / or the second shield wire 5d is connected (installed) to the ground.

The receiving side device 6 is an example of a receiving side connector for electrically connecting to the supply side device 4, and a connector 6 a having an outer periphery made of a conductor is formed. A plurality of holes having a predetermined shape are formed in the connector portion 6a, and the core wires 5a and 5b formed to be exposed in the connector portion 5e of the cable 5 are inserted, whereby the supply side device 4 and the receiving side device 6 Are electrically connected by a cable 4.
The connector 6a of the receiving device 6 is described as having an outer periphery made of a conductor. However, the present invention is not particularly limited to this, and the first connector portion 5e-1 and the first connector portion 5e-1 are connected to the connector 5e. As long as each of the two connector portions 5e-2 can be energized, a part or all of the connector 6a may be formed of a conductor.

(Action / Effect)
With such a configuration, the cable connection confirmation device of the present invention is configured such that the cores 5a and 5b exposed on the connector 5e of the cable 4 are inserted into the connector 6a of the receiving device, whereby the supplying device 4 and the receiving device. 6 is electrically connected by a cable 5.

  Specifically, the connector 5e of the supply-side device 5 is connected to the conductor portion (for example, the conductor outer peripheral portion) of the connector 6a of the reception-side device 6, so that the connector 6a of the reception-side device 6 and the supply-side device 5 The first connector part 5e-1 and the second connector part 5e-2 are electrically connected.

The detection means 4a of the supply side device 4 performs 0Ω or contact detection of the first connector portion 5e-1 and the second connector portion 5e-2.
For example, if the resistance value measured by the detection means 4a is approximately 0Ω, it can be understood that the cable is connected.
If the detection means 4a has a large resistance value (∞) (Hi impedance), it can be understood that the cable is not connected.
Further, the detecting means 4a can detect that the cable has been connected if the contact is detected and the contact DI = ON (Law potential).
If the contact point DI = OFF (Hi potential), the detection means 4a can be grasped as a cable not connected.

  On the other hand, the relay drive means 4d of the supply-side device 4 has a shield effect (for example, a signal effect) by the first shield wire 5c and / or the second shield wire 5d in the cable 4 after the connector 5e and the connector 6a are connected. The ON / OFF state of the first relay 4b and / or the second relay 4c is controlled in order to exert external electromagnetic interference (EMI: electromagnetic interference) that causes distortion and interference) Then, the first shield wire 5c and / or the second shield 5d is connected to the ground by being relay-driven (installed).

  Here, since the shield effect in the cable 4 is necessary only when the connector 5e and the connector 6 are connected and a power supply or an electric signal flows, when the connector is not connected, the first connector portion 5e-1 and the first connector portion 5e. There is no problem even if the second connector portion 5e-2 is open.

  As a result, the first connector portion 5e-1 and the second connector portion 5e-2 of the supply-side device 5 are connected to the first shield wire 5c and the second shield wire 5d, respectively. By performing 0Ω or contact detection of the first connector portion 5e-1 and the second connector portion 5e-2 at 4a, the connection between the connector 6a and the connector 5e can be confirmed on the supply side.

As described above, the cable connection confirmation device of the present invention includes a connector that is composed of a conductive first connector portion and a second connector portion and is connected to a receiving connector that is a conductive connector in a receiving device, A conductive first shield wire connected to the first connector portion, a cable composed of the conductive second shield wire connected to the second connector portion, and the first and second shield wires Cable connection (connector connection) without affecting the internal signal line (core wire) by providing a detecting means for measuring the resistance value or contact point of the first connector part and the second connector part. It is effective in that the state can be known. In other words, it is possible to know the cable connection (connector connection) state without any problem even if the electric signal contents are not known.
Further, according to the present invention, the connection can be confirmed on the supply side by dividing the connector portion / shield wire and using it for contact detection.

  The cable connection confirmation device according to the present invention includes a connector that includes a conductive first connector portion and a second connector portion and is connected to a receiving connector that is a conductive connector in a receiving device, the first connector A conductive first shield wire connected to the connector portion of the cable, a cable composed of the conductive second shield wire connected to the second connector portion, and the first and second shield wires. By providing a detecting means for measuring the resistance value or contact between the first connector part and the second connector part, the receiver side cable connection (connector connection) without putting any hand in the receiving side equipment ) It is effective in that it can be confirmed.

  Furthermore, the cable connection confirmation device of the present invention controls the first relay connected to the first shield wire and / or the second relay connected to the second shield wire in addition to the above-described configuration. By providing relay driving means for connecting the first and / or second shield wire to the ground, when the cable is connected (connector connection), the effect as a shield wire is also effective.

  Further, the cable connection confirmation device of the present invention includes a connector that includes a conductive first connector portion and a second connector portion and is connected to a receiving connector that is a conductive connector in the receiving device, the first connector A conductive first shield wire connected to the connector portion, a cable composed of the conductive second shield wire connected to the second connector portion, and the first and second shield wires. By providing a detecting means for measuring the resistance value or contact of the first connector part and the second connector part, the electrical signal inside the connector-connected supply side device and the receiving side device is connected to the cable connection (connector Not connected (0Ω measurement). Since the electrical signal is determined only by contact detection, the detection means is also effective in that it can remain connected to the first shield line and the second shield line.

(Other embodiments)
Note that the cable connection confirmation device of the present invention may be applicable to a signal line, a power line, or a communication line.
That is, according to the present invention, when it is desired to check the cable connection on the supply side device, if the present invention is applied, the connection can be confirmed on the supply side, which is effective.

  Further, the cable connection confirmation device of the present invention may be compatible even if the receiving device is unspecified to some extent.

4 Supply Side Device 4a Detection Means 4b Relay Drive Means 5 Cable 5c First Shield Wire 5d Second Shield Wire 5e Connector (Supply Side Connector)
5e-1 first connector portion 5e-2 second connector portion 6 receiving side device 6a connector (receiving side connector)

Claims (2)

A cable connection confirmation device for confirming the connection of a cable for transmitting a power transmission or an electrical signal by connecting a part of the reception side device with a conductive reception side connector,
The cable is
A first connector portion having conductivity and a second connector portion, a supply-side connector for connecting to the receiving-side connector;
A conductive first shield line connected to the first connector portion;
A conductive second shield wire connected to the second connector portion,
Detecting means connected to the first and second shield wires and measuring a resistance value or a contact of the first connector part and the second connector part ;
The first relay connected to the first shield line and the second relay connected to at least one of the second shield lines are controlled so that at least one of the first and second shield lines is grounded. A cable connection confirmation device comprising relay drive means for connection.   The supply side connector is
  The cable connection confirmation apparatus according to claim 1, further comprising an insulator that insulates the first connector portion from the second connector portion.

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