JPH0821448B2 - Connector with built-in element for surge current prevention - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Overview] Regarding the structure of a surge current preventing element built-in connector used for connecting an interface cable, to prevent the interface element from being destroyed by a surge current when the interface cable is attached or detached. A switching pin that is used for connection of an interface cable and has a built-in element for surge current prevention, which is interlocked with the female or male side of the connector by attaching or detaching the male or female side connector. Alternatively, the switching lever, the surge current prevention element fixed to a predetermined position of the switching pin or the switching lever, and the surge current prevention element are brought into contact with or separated from the contact pin when the connector is disengaged, and When the male connector is inserted, the surge current prevention element and the connector When the surge current preventing element is provided inside the female side connector, the connecting pin inside the male side connector and the contact pin are provided, and a spring means for urging the switching pin so as to connect or disconnect the tact pin. When the contact is made, the surge current preventing element and the contact pin are in a connected state, and after the contact, when the switching pin is pushed by the male side connector to move inward, the surge current preventing element is provided. The contact between the element and the contact pin is released. Further, when the surge current prevention element is provided inside the male side connector, the surge current prevention element and the contact pin are in a connected state at the stage where the female side connector and the contact pin are in contact, and after contacting The contact between the surge current preventing element and the contact pin is released when the switching lever is moved by being pushed by the female connector.

[Industrial applications]

The present invention relates to a structure of a surge current preventing element built-in connector.

In the computer system, an interface cable is used to connect each device, and they are connected by a connector. Generally, a male connector is provided on the cable side and a female connector is provided on the device side. A mechanism for preventing a surge current generated when the connector is attached or detached is usually provided inside the female or male connector. In computer systems that operate 24 hours a day, surge current often occurs when the connector's internal signal line side (contact pin) separates later than the ground side when the connector is connected or disconnected while the power is on for maintenance.

[Problems to be Solved by Prior Art and Invention]

FIG. 5 is an equivalent circuit diagram of a conventional configuration. As shown in the figure, conventionally, for example, a capacitor C is connected as a surge current preventing element between the signal line L and the ground side GND, and the surge current generated when the connector is attached / detached is absorbed by the capacitor. In this case, even if the male connector is disengaged from the female connector or the male connector is inserted into the female connector, the capacitor C remains connected between the signal line and the ground, and the male connector and the female connector are disassembled and inserted. It does not turn on / off in time.

In this case, if the ground side is connected after or separated from the signal line, the potential of the signal line becomes unstable, and the interface element D connected to the signal line is destroyed depending on the level of this potential. Sometimes. Further, if a surge current preventing element is connected to the circuit for protection of these, this load affects the signal of the signal line, and particularly the high frequency interface is greatly affected and cannot be used. Further, the frequency characteristic of the interface may be limited by this capacitor.

An object of the present invention is to prevent the interface element from being destroyed by surge current when the interface cable is attached or detached.

[Means and Actions for Solving the Problems]

The present invention relates to a connector having a built-in element for surge current prevention used for connecting an interface cable, wherein a switching pin that interlocks with attachment / detachment of the connector or a rotating switching is provided inside the female side or male side of the connector. When the lever, the switching pin or the surge current preventing element fixed to a predetermined position of the switching lever, and the male connector are dissociated, the surge current preventing element is brought into contact with or separated from the contact pin, When the male connector is inserted, the surge current prevention element is provided with a spring means for urging the switching pin or the switching lever so as to connect or disconnect the surge current prevention element and the contact pin. If the connector is provided inside the female connector, the connection pin in the male connector and the contact pin In the step, the surge current preventing element and the contact pin are in a connected state, and after the contact, in the step of being pushed by the male side connector to move the switching pin inward, the surge current preventing element and When the contact with the contact pin is released, and the surge current prevention element is provided inside the male side connector, the surge current prevention is performed when the female side connector and the contact pin contact each other. The contact element and the contact pin are in a connected state, and after contact, the contact between the surge current preventing element and the contact pin is released at the stage where the switching lever is moved by being pushed by the female connector, It is characterized in that it is configured as follows.

〔Example〕

FIG. 1 is a block diagram of an essential part of an embodiment of a surge current preventing element built-in connector according to the present invention. In the figure, 11 is a male connector, 111 is its connecting pin, 12 is a female connector, 1
Reference numeral 21 is a switching pin, 122 is a surge current preventing element, 123 is a spring, 124 is a contact pin, and 125 is a cable.
In such a configuration, the connection pin 111 and the contact pin 124 are in contact with each other when mounted, and are brought into conduction. As an element for preventing surge current, for example, the capacitor 122 is a switching pin 121.
When the male connector is not attached, one of the conducting ends of the capacitor 122 is fixed to the contact pin 1.
It is positioned so that it touches the crests of 24 and is not in contact when mounted. Therefore, the spring 123 is set to have such strength as to bias the switching pin 121 in such a state. When the male connector 11 is installed, the switching pin 121
Is pressed, resulting in capacitor 122 and contact pin 124
Becomes non-contact. The other end of the capacitor 122 is grounded. That is, when the surge current prevention element 122 is provided inside the female connector 12, the surge current prevention element 122 and the contact pin 124 are connected when the connection pin 111 and the contact pin 124 in the male connector 11 are in contact with each other. In the state, the contact between the surge current prevention element 122 and the contact pin 124 is released at the stage in which the switching pin 121 is pushed by the male connector 11 and moves inward after the contact,
Thus, the strength of the spring 123 is set.

2 (a) and 2 (b) are equivalent circuit diagrams of the configuration shown in FIG. (A) is when not mounted, (b) is when mounted. When not attached, the capacitor C (122) is connected to the signal line L via the contact portion SW, and when attached, the contact portion SW is separated and the capacitor C is disconnected from the signal line. Therefore,
It is possible to prevent surge current when attaching and detaching the connector,
Moreover, the capacitor does not become a load. The surge current preventing element may be a capacitor, a capacitive varistor, a diode, or the like.

FIG. 3 shows another structural example of the present invention. 31 is a switching lever, 32 is a capacitor, 33 is a leaf spring, 34 is a contact pin, and 35 is a cable. The configuration of the present embodiment is to provide a surge current preventing element in the male side connector, and the element is not connected to the signal line L when not mounted and is connected to the signal line when mounted to the female side connector. The capacitor 32 is fixed to the leaf spring 33, and its contact point P is in contact or non-contact according to the attachment / detachment of the female connector. That is, the switching lever 31
Rotates in the direction of the arrow in accordance with the attachment / detachment of the female connector, and the capacitor 32 and the contact pin 34 are in contact or non-contact with each other via the contact P in accordance with this rotating operation. Incidentally, 35 is a cable. That is, when the surge current prevention element 32 is provided inside the male side connector, the surge current prevention element 32 and the contact pin 34 are in a connected state at the stage where the female side connector and the contact pin 34 are in contact with each other. The strength of the leaf spring 33 is set so that the contact between the surge current preventing element 32 and the contact pin is released when the switching lever is moved by being pushed by the female connector.

FIG. 4 is an equivalent circuit of the configuration shown in FIG. As shown in the figure, a capacitor C as a surge current preventing element and a switch SW (contact P) are connected between the signal line L and the ground GND. The contact P is separated when the female connector is not attached, and is connected when the female connector is attached to connect the surge current preventing element to the signal line.

〔The invention's effect〕

As described above, the surge current can be effectively prevented by connecting or disconnecting the surge current preventing element inside the female side connector or the male side connector when the connector is attached or detached.

[Brief description of drawings]

 FIG. 1 is a schematic view of the essential part of one embodiment of the present invention, FIGS. 2 (a) and 2 (b) are equivalent circuit diagrams of the structure of FIG. 1, and FIG. 3 is a schematic view of the essential part of another embodiment of the present invention. FIG. 4 is an equivalent circuit diagram of the configuration of FIG. 3, and FIG. 5 is an equivalent circuit diagram of the conventional configuration. (Explanation of symbols) 11 …… Male connector, 12 …… Female connector, 121 …… Switching pin, 122 …… Surge current prevention element, 123 …… Spring, 124 …… Contact pin, 125 …… Cable, 31 …… Switch lever, 32 …… Surge current prevention element, 33 …… Leaf spring, 34 …… Contact pin, 35 …… Cable, D …… Interface element, L …… Signal line.

Claims (2)

[Claims] 1. A connector having a built-in element for preventing surge current used for connecting an interface cable, the switching pin interlocking with the male side connector (11) inside the female side (12) of the connector. (12
1), a surge current prevention element (122) fixed to a predetermined position of the switching pin, and the surge current prevention element abutting on the contact pin (124) when the male connector is dissociated. The male connector is provided with a spring means (123) for urging the switching pin so as to release the connection between the surge current preventing element and the contact pin when the male connector is inserted. At the stage where the connection pin (111) inside and the contact pin are in contact, the surge current preventing element and the contact pin are in a connected state, and after contacting,
A surge current preventing element built-in connector configured to release the contact between the surge current preventing element and the contact pin when the switching pin is moved inward by being pushed by the male connector. 2. A connector incorporating a surge current preventing element used for connecting an interface cable, wherein the connector rotates inside the male side (11) of the connector by being attached to and detached from the female side connector (12). A switching lever (31), a surge current preventing element (32) fixed to a predetermined position of the switching lever, the surge current preventing element and a contact pin (34) when the male connector is disengaged (33) to release the connection between the male connector and the female connector when the male connector is inserted into the female connector, biasing the switching lever so as to bring the surge current prevention element into contact with the contact pin (33). ), The surge current preventing element and the contact pin are in a connected state when the female connector and the contact pin are in contact with each other, and after the contact, A surge current preventing element built-in connector configured to release contact between the surge current preventing element and the contact pin when the switching lever is moved by being pushed by the connector.